s MIT SCHOOL OF ENGINEERING, PUNE · **Final Lab exam will be conducted with viva-voce of the...

MIT ART, DESIGN AND TECHNOLOGY

UNIVERSITY, PUNE s

MIT SCHOOL OF ENGINEERING, PUNE

STRUCTURE AND SYLLABUS

FOR

B. Tech. Civil Engineering

UNDER FACULTY OF TECHNOLOGY

(w.i.e. 2017-2018)

Department of Civil Engineering

0

B. Tech. (Civil Engineering)

(2017 Regulations) (Minimum Credits to be earned: 190)

SEMESTER-I

Course Course Name

Hours/week Maximum Marks

Code

Lecture

Tutorial Practical

Credits CA FE Total

17BTCE101 Linear Algebra and

3 2 0

4 40 60 100 Calculus

17BTCE102 Engineering Chemistry 3 0 0 3 40 60 100

17BTCE103 Basics of Electrical and

3 1 0

4 40 60 100 Electronics Engineering

17BTCE104 Fundamentals of Computer

3 0 0

3 40 60 100 Programming

17BTCE105 Engineering Graphics 3 0 2 4 40 60 100

17BTCE106 English Communication 2 1 0 3 50 -- 50

17BTCE111 Chemistry Laboratory 0 0 2 1 40 60** 100

17BTCE112 C Programming Laboratory 0 0 4 2 40 60** 100

17BTCE113 Engineering Practices 0 0 2 1 50 -- 50

Total 17 4 10 25 380 420 800

SEMESTER-II

Course Course Name


Code

Lecture

Tutorial Practical

Credits CA FE Total

17BTCE201 Differential Equations and

3

2 0

4 40 60 100 Calculus

17BTCE202 Engineering Physics 3 0 0 3 40 60 100

17BTCE203 Materials Engineering 3 1 0 4 40 60 100

17BTCE204 Object Oriented

3

0 0

3 40 60 100 Programming in C++

17BTCE205 Engineering Mechanics 3 1 0 4 40 60 100

17BTCE206 Professional

3

0 2

4 100 -- 100 Communication

17BTCE211 Physics Laboratory 0 0 2 1 40 60** 100

17BTCE212 C++ Programming

0

0 4

2 40 60** 100 Laboratory

Total 18 4 8 25 380 420 800

CA = Continuous Assessment, FE= Final Examination, **Final Lab exam will be conducted with viva- voce of the respective practical (50 exam +10 viva = 60) Coding for course/ subject: 17ME101, Where; 17 = Year of BOS, ME = Branch Code, 1= Semester No., 01 to N = Sequence No of Subject. For, SE to BE& also PG follow the above scheme of regulation.

1

SEMESTER-III

Course Course Name


Code

Lecture Tutorial

Practical

Credits

CA

FE

Total

17BTCE301

Building planning and 3 0

2 4 40 60 100

CADD

17BTCE302

Geotechnical 4 0

0 4 40 60 100

Engineering-I

17BTCE303

Mechanics of Solids 3 1

0 4 40 60 100

17BTCE304

Concrete Technology 4 0

0 4 40 60 100

17BTCE305 Applied Geology 3 1 0 4 40 60 100

17BTCE311 Geotechnical Laboratory 0 0 2 1 40 60** 100

17BTCE312

Concrete Technology 0 0

4 2 40 60** 100

Laboratory

17BTCE320 Mini Project –I 0 0 4 2 100 -- 100

Total 17 2 12 25 380 420 800

SEMESTER-IV

Course Course Name


Code

Lecture Tutorial

Practical

Credits

CA

FE

Total

17BTCE401 Engineering Mathematics* 3 1 0 4 40 60 100

17BTCE402 Building Construction 4 0 0 4 40 60 100

17BTCE403 Theory of structure I 4 0 0 4 40 60 100

17BTCE404 Fluid Mechanics-I

4 0

0

4

40

60

100

17BTCE405 Automated Surveying 3 1 0 4 40 60 100

17BTCE411 Fluid Mechanics Laboratory 0 0 2 1 40 60** 100

17BTCE412 Automated Survey Lab 0 0 4 2 40 60** 100

17BTCE420 Mini Project-II 0 0 4 2 100 -- 100

Total 18 2 10 25 380 420 800

CA = Continuous Assessment, FE= Final Examination, **Final Lab exam will be conducted with viva-voce of the respective practical (50 exam +10 viva = 60) Coding for course/ subject: 17ME101, Where; 17 = Year of BOS, ME = Branch Code, 1= Semester No., 01 to N = Sequence No of Subject. For, SE to BE& also PG follow the above scheme of regulation.

2

SEMESTER-V

Course Course Name


Code

Lecture

Tutorial Practical Credits CA FE Total

17BTCE501 Fluid Mechanics-II

3 1 0 4 40 60 100

17BTCE502 Theory of structure II

4 0 0 4 40 60 100

17BTCE503 Public Health Engineering 4 0 0 4 40 60 100

17BTCE504 Transportation

4 0 0 4 40 60 100 Engineering I

17BTCE505 Project Management 3 1 0 4 40 60 100

17BTCE511 Transportation Laboratory 0 0 2 1 40 60** 100

17BTCE512 Public Health Engineering

0 0 4 2 40 60** 100 Laboratory I

17BTCE520 Mini Project –III 0 0 4 2 100 -- 100

Total 18 2 10 25 380 420 800

SEMESTER-VI

Course Course Name


Code

Lecture

Tutorial Practical Credits CA FE Total

17BTCE601 Design of RCC Elements 3 2 0 4 40 60 100

17BTCE602 Waste water treatment and

4

0 0 4 40 60 100

Disposal Management

17BTCE603 Foundation Engineering 4 0 0 4 40 60 100

17BTCE604 Transportation Engineering II 3 1 0 4 40 60 100

17BTCE605 Hydrology and Irrigation

3

0 0 3 40 60 100 Engineering

17BTCE611 Structural Drafting

0

0 2 1 40 60** 100

Laboratory

17BTCE612 Environmental Engineering

0

0 4 2 40 60** 100

Laboratory II

17BTCE620 Mini Project-IV 0 0 4 2 100 -- 100

Total 17 3 10 24 380 420 800


3

SEMESTER-VII

Course Course Name


Code

Lecture

Tutorial

Practical Credits CA FE Total

17BTCE701 Design of Steel structures

3 1

0 4 40 60 100

17BTCE702 Construction Management 4 0 0 4 40 60 100

17BTCE703 Quantity Surveying and

4 0

0 4 40 60 100 Estimation

17BTCE____ Elective-I 3 1 0 4 40 60 100

17BTCE____ Elective-II 3 1 0 4 40 60 100

17BTCE711 Structural Laboratory 0 0 2 1 40 60** 100

17BTCE721 Quantity Surveying and 0 0

4 2 40 60** 100 Estimation Laboratory

17BTCE720 Project Phase-I 0 0 4 2 100 -- 100

Total 17 3 10 25 380 420 800

SEMESTER-VIII

Course Course Name


Code

Lecture

Tutorial

Practical Credits CA FE Total

17BTCE___ Elective-III 3 0 0 3 40 60 100

17BTCE___ Elective-IV 3 0 0 3 40 60 100

17BTCE820 Project Phase-II 0 0 20 10 100 200 300

Total 6 0 20 16 180 320 500


LIST OF ELECTIVES

Elective

Course Name

17BTCE001 Special Concrete

Elective-I 17BTCE002 Architectural Planning

17BTCE003 Construction Techniques and Equipment

17BTCE004 Solid Waste Management

Elective-II

17BTCE005 Operational Research Techniques in Civil

Engineering

17BTCE006 Human Values and Ethics

4

17BTCE007 Ground Improvement Techniques

Elective-III 17BTCE008 Prestress Concrete

17BTCE009 Seismic Analysis

17BTCE010 Disaster Management

Elective-IV 17BTCE011 Bridge Engineering

17BTCE012 Economics, Business and Finance for Civil

Engineering

5

7AE101/17CE101/17CS101/17EC101/17IT101/17ME101: Linear Algebra and Calculus 3 2 0 4

CA : 40 Marks FE : 60 Marks No. of Total Lectures = 45 Hours

MATRICES (9) Rank, Normal Form, System of Linear Equations, linear Dependence and Independence And Orthogonal

Transformations, Eigen Vectors, Cayley – Hamilton Theorem , Application to problems in Engineering (Translation and

Rotation of Matrix

LINEAR ALGEBRA AND MAPPING (9) Basic concepts in linear algebra: vector spaces, Subspaces, linear independence and dependence of vectors, bases, dimensions. Row and Column Linear mappings, representation by matrices, rank-nullity theorem.

LIMIT, CONTINUITY AND DIFFERENTIATION OF UNIVARIATE FUNCTION (9) Limit, Continuity, indeterminate forms, L‘Hospital Rule, Evaluation of limits, Mean value Theorems,Differential Calculus: Successive Differentiation, Leibnitz Theorem.

INFINITE SERIES &EXPANSION OF FUNCTIONS (9) Infinite Sequences, Infinite Series, Alternating Series, Test for Convergence, Absolute and Conditional Convergence,

range of Convergence, Taylor‘s series And McLaurin‘s Series

INTEGRAL CALCULUS AND FOURIER SERIES (9) Integral Calculus: Reduction Formula, Beta and Gamma Functions,Fourier Series: Definition, Dirichlet‘s condition, Full

range Fourier series Half range Fouries series , Harmonic analysis and application to problem in Engineering

TEXT BOOKS 1. Erwin Kreyszig, ―Advanced Engineering Mathematics‖, Wiley Eastern Ltd, 10th edition. 2. Maurice D. Weir, Joel Hass, Frank R. Giordano, ―Thomas‘ Calculus‖, Pearson Education, 12th edition, .

REFERENCES 1. Serge Lang, ―Linear Algebra‖, Springer, 3rd edition, . 2. Howard Anton and Chris Rorres, ―Elementary Linear Algebra‖, John Wiley and Sons, 10th edition, . 3. C.R. Wylie, ―Advanced Engineering Mathematics‖, McGraw Hill Publications, New Delhi, . 4. Peter V. O‘ Neil, Advanced Engineering Mathematics, Thomson Brooks/Cole, Singapore, 7th edition . 5. Shanti Narayan, ―Differential Calculus‖, S. Chand and Company, New Delhi, . 6. George Simmons, ―Differential Equation with Applications‖, , .

17CS102/17EC102/17IT102/17AE202/17CE202/17ME202 : Engineering Physics 3 0 0 3


ACOUSTICS & ULTRASONICS (9) Classification of sound - characteristics of musical sound - intensity - loudness - decibel - Reverberation - Reverberation time, Absorption coefficient and its determination - factors affecting acoustics of building (Optimum reverberation time, loudness, focusing, echo, echelon effect, resonance and noise) and their remedies. Ultrasonics - production - Magnetostriction and Piezoelectric oscillator – properties- applications of ultrasonics with particular reference to detection of flaws in metal (Non - Destructive testing NDT) -SONAR.

6

WAVE OPTICS & APPLICATIONS (9) Interference – Interference in uniform and non-uniform thickness thin films, fringe width, formation of Newton‘s rings and its application (i) for the determination of wavelength of incident light or radius of curvature of a given palno- convex lens,(ii) for the determination of refractive index of a given liquid, Applications of interference (i) Testing of optical flatness of surfaces,(ii) Anti-reflection coating. Diffraction – Fraunhofer diffraction at Single slit, plane diffraction grating, Conditions for maxima and minima.Polarization - Generation and Analysis of Plane polarized, circularly polarized and elliptically polarized light, LCD (as an example of polarization).

LASER & PHOTONICS (9) Principle of lasers - Stimulated absorption - Spontaneous emission, stimulated emission – metastable state-population inversion - pumping action - active medium - laser characteristics - Ruby laser – He:Ne laser - Semiconductor laser - applications Optical fiber - fiber optic communication system- Photonics crystals-Photonics crystal fiber

QUANTUM MECHANICS & NANOTECHNOLOGY (9) Need and origin of quantum concept, Wave-particle duality, Uncertainty Principle, Illustration of it by electron diffraction

at single slit, Significance & normalization of wave function, Schrodinger wave equation: time independent &

dependent, Eigen functions & Eigen values, particle in a rigid box and non-rigid box . Origin of Nanotechnology, Nanomaterials-Synthesis by physical, chemical, biological, mechanical method, Optical- electrical-magnetic-structural-mechanical properties of nanomaterial, Applications of Nanotechnology.

.

GREEN ENERGY PHYSICS (9) Introduction to Green energy – Solar energy: Energy conversion by photovoltaic principle – Solar cells – Wind energy: Basic components and principle of wind energy conversion systems – Ocean energy: Wave energy – Wave energy conversion devices – Tidal energy – Geothermal energy: Geothermal sources – Biomass: Biomass and bio-fuels – bio-energies from wastages – Fuel cells

TEXT BOOKS 1. ArtherBeiser, ―Concepts of Modern Physics‖, Tata Mcgraw Hill, 1994. 2. John Buck,―Fundamentals of Optical Fibers‖, , 2004. 3. Avadhanulu M N and KshirSagar P G, ―A Text Book of Engineering Physics‖, 2010.

REFERENCES 1. Hecht E, ―Optics‖, Pearson Education, 2017. 2. Sulabha K. Kulkarni, ―Nanotechnology: Principles and Practices‖, Springer, 2015. 3. Godfrey Boyle, ―A Renewable Energy: Power sustainable future‖,Oxford University Press, UK, 2012.

17AE102/17CE102/17ME102/17CS202/17EC202/17IT202: Engineering Chemistry 3 0 0 3


WATER TREATMENT AND GREEN CHEMICAL PROCESSES (9)

Water quality parameters -Hardness of water - estimation of hardness (EDTA method) COD/BOD –determination

Alkalinity - determination - disadvantages of using hard water in boilers: Scale, sludge formation - prevention - Internal

conditioning and External conditioning - desalination – reverse osmosis and electro dialysis - domestic water

treatment. Principles of green chemistry, environmentally benign synthetic methods.

ORGANIC POLYMERS (9)

Classification of polymers - types of polymerization reactions - mechanism of polymerization, properties of polymers - strength, dissolution, elasticity and crystallinity -Preparation and properties of important resins: Polystyrene, PVC,

7

http://www.amazon.in/s/ref=dp_byline_sr_book_1?ie=UTF8&field-author=Sulabha+K.+Kulkarni&search-alias=stripbooks

PMMA, Polyester, Teflon, Bakelite and Epoxy resins –Elastomers, Engineering polymers, compounding of plastics - moulding methods - injection, extrusion, Fibre reinforced plastics.

FUELS AND COMBUSTION (9) Types of fuels, calorific value and its determination, Solid fuel-Proximate and ultimate analysis of coal, Liquid fuel-Petroleum, power alcohol & biodiesel, Gaseous fuels, fuel cells & their types, Combustion mechanism.

CORROSION AND ITS CONTROL (9)

Dry and wet corrosion, mechanism of corrosion, control of corrosion-cathodic protection, anodic protection, surface conversion techniques, Metallic and non-metallic coatings.

SOLID STATE CHEMISTRY (9) Introduction to solid state chemistry, Miller indices, Basic crystal structure, Bravais space lattices, unit cell, Radius ratio, Calculation of density of unit cell, defects- Frenkel, Schottky, Bragg‘s law & X-ray diffraction technique.

TEXTBOOKS

1. S. S. Dara, ―A Textbook of Engineering Chemistry‖, S.Chand& Company Ltd.,15th

edition, New Delhi, . 2. O.P.Vermani&A.K.Narula, ―Applied Chemistry Therory& Practical‖,.

REFERENCES

1. H. V. Keer, ―Principles of Solid State‖, Wiley Publication, . 2. V. Gowarikar, N.V.Vishwanathan and JaydevShreedhar, ―Polymer Science‖, Wiley Publications.

3. H.H. Uhlig and R.W. Revie, ―Corrosion and its Control‖, Wiley Publications,4th

Edition,.

4. A. I. Vogel, ―A Textbook of Quantitative Inorganic Analysis‖, Longman Publication Ltd, 4th

Edition, 2000.

5. Shashi Chawla, ―Essentials of Experimental Engineering Chemistry‖, DhanpatRai& Co. Delhi, 2001.

17AE103/17CE103/17CS103/17EC103/17IT103/17ME103: Basics of Electrical and Electronics 3 1 0 4

Engineering


D.C. CIRCUITS AND A.C. CIRCUITS (9) Classification of network, Ohm's law, KCL, KVL, network simplification using star-delta / delta-star transformations mesh analysis, network theorems (Superposition, Thevenin, Norton, Maximum power transfer theorems). Generation of alternating voltages, fundamentals of ac circuits, behaviour of pure R, L, C in ac circuits, concept of phasor and its representation ,series RL, RC and RLC circuits and parallel circuits, series and parallel resonance, concept of Impedance and admittance, power triangle and power factor. ELECTRICAL MACHINES (9) (a) Electromechanical energy conversion: Types of ac and dc motors,Characteristics and applications, ac generators.Single phase transformer: Construction, principle of working, emf equation, ratios, regulation, losses, efficiency, condition for maximum efficiency, O.C & S.C. test, introduction to instrument transformer and auto-transformer. (b) Poly-Phase A.C. circuits: Concept of three phase supply, phase sequence, balanced and unbalanced load, voltages, currents and power relations in three phase balanced star and delta connected loads with phasor diagrams.

SEMICONDUCTOR, DIODES AND DIODE CIRCUITS (9) Metals, semiconductors and insulators, Mobility and conductivity, Intrinsic and extrinsic semiconductors and charge densities in semiconductors.

8

PN Junction diode : characteristic and analysis, Types of diodes – Zener diodes, Photodiodes, Light emitting diodes (LED‘s), Varactor diodes and tunnel diodes, BJT, characteristics and biasing circuits. Rectifiers: Half wave, full wave and Bridge rectifier circuits and their analysis.

DIGITAL ELECTRONICS (9) Introduction, digital signals, Basic digital gates and universal gates: AND, OR, NOR, NOT, NAND, EX-OR, EX-NOR, Boolean algebra, Optimized implementation of logic functions: K map, minimization of SOP, POS , Arithmetic circuits, Multiplexer, De-multiplexer, Flip flops: Basic latch, Gated SR, JK flip flop, D flip flop, T flip flop, Shift registers, Counters, Introduction to microprocessors and micro-controllers and their applications.

TRANSDUCERS (9) Definition, classification, Selection criteria, Sources of error for parameter under measurement, Transducer specifications, test condition & operating conditions, Ultrasonic transducer, Temperature transducer, Linear variable differential transducer, Load cell, Flow measurement, Strain gauge, Elastic transducers. Application of transducers: Digital thermometer, Electronics weighing machine

TEXTBOOKS 1. 1. Vincent Del Toro, ―Electrical Engineering Fundamentals", PHI, 2nd edition, 2011. 2. V. N. Mittal and Arvind Mittal ―Basic Electrical Engineering‖ Tata McGraw Hill, (Revised Edition) 3. Edward Hughes ―Electrical and Electrical Technology‖, Pearson Education (Tenth edition) 4. Paul Horowitz, ―Art of Electronics‖, Cambridge LPE. REFERENCES

1. Allen Mottershed, ―Electronics Devices and Circuit an Introduction‖, PHI. 2. C.D.Jhonson, ―Process control and instrumentation‖, PHI (Fifth edition).

3. H. S. Kalsi, ―Electronics Instrumentation‖ Tata McGraw Hill.

4. Nagrath And Kothari, ―Electrical Machines‖, Tata McGraw Hill.

17AE104/17CE104/17CS104/17EC104/17IT104/17ME104: Fundamentals of Computer 3 0 0 3

Programming


INTRODUCTION TO COMPUTER (6) Block diagram of typical Computer, hardware, software. Introduction to System Software‘s- Operating System, Editor, Complier, Assembler, Linker, Loader. Problem solving using computers, Introduction to computer programming, Introduction to program planning tools- algorithm, flowcharts, pseudo codes, Software Development Life Cycle, Introduction to open source operating systems and programming languages, Introduction to program development environments: BOSS and GCC INTRODUCTION TO C PROGRAMMING (10) Types of programming languages, Features of C, basic concepts, structure of a C program, declarations, variables, data types, expressions, conditional expressions. Operators- assignment, arithmetic, relational, logical, increment and decrement, precedence of operators, type conversions, scanf and printffunctions.decision control and blocks. Loop control. break&continue. ARRAYS AND STRINGS (6) Concept and requirement of arrays, defining arrays –one, two and multi-dimensional. Important problems that use arrays. Strings, Concept, declaration, initialization and string manipulation functions, library functions. FUNCTIONS AND RECURSION (6) Conceptof subprogram applied to C, Declaration, Definition, Calling. Arguments, Local variables. Global and Static variables. Important problems using functions. Concept of recursion, essential components of a recursive program, recursion v/s iteration. Some important recursive algorithms.

9

POINTERS & STRUCTURES POINTERS (9) Pointers and addresses, Use of pointers for passing variables, Pointers and arrays, Dynamic allocation and its application. STRUCTURES AND FILE HANDLING STRUCTURES (8) Pointers and structures, Structures and Functions, Self-referential structures Introduction to linked lists and data structures. What is a file. Basics of file handling (Text files). TEXT BOOKS 1. E. Balguruswamy, ―Programming in ANSI C‖, Tata Mc-Graw Hill 2. ―Programming With C‖, Schaum Series Reference Books REFERENCE BOOKS 1. Stephen G. Krantz, ―Problem Solving Techniques‖ , Universities Press. 2. Kernighan and Ritchie, ―The ‗C‘ programming language‖, Prentice Hall 3. V. Rajaraman, ―Computer Programming in ‗C‘‖, Prentice Hall 4. R.G. Dromey, ―How to solve it by Computer‖, Pearson Education.

17AE105/17CE105/17CS105/17EC105/17IT105/17ME105: Engineering Graphics 3 024


ORTHOGRAPHIC PROJECTIONS & ISOMETRIC PROJECTIONS (9) Reference planes, types of orthographic projections – First angle projections, Methods of obtaining orthographic views by First angle method, Sectional orthographic projection. Isometric view, Isometric scale to draw Isometric projection, Non-Isometric lines, Construction of Isometric view from given orthographic views. PROJECTIONS OF LINES & PLANES (9) Introduction of points, lines & planes of projection, Reference and auxiliary planes, projections of points and Lines in different quadrants, Types of line, traces, inclinations, and true lengths of the lines ,Introduction of perpendicular and oblique planes, Different cases of plane figures (of different shapes) making different angles with one or both reference planes, Obtaining true shape of the plane figure. PROJECTION OF SOLIDS & DEVELOPMENT OF SOLID (9) Introduction of solids, different types of solids, Projection of solid inclined to one and both references plane, Simple cases when solid is placed in different positions, Axis, faces and lines lying on the faces of the solid making given angles, Development of all type of prisms, cylinders and cones. CURVES USED IN ENGINEERING PRACTICE (9) Conic section- like ellipse, parabola & hyperbola by diretrix focus method rectangular Archimedean Spiral, Helix on cylinder, involutes of circle, Cycloid of circle. DRAFTING TECHNOLOGY AND FREEHAND SKETCHING (9) Layout of drawing sheets, sizes of drawing sheets Dimensioning – linear, angular, aligned system, unidirectional system, parallel dimensioning, chain dimensioning, location dimension and size dimension, Symbols used on drawing, surface finish symbols, welding symbols, Free hand sketching -- FV and TV of standard machine parts, Hexagonal headed nut and bolt, foundation bolts, shafts, keys, couplings, springs, screw thread forms, welded joints, riveted joints.

TERM WORK:

10

Five A2 (594X420mm) (Half imperial) size drawing sheet as detailed below: Sheet No. 1 : ORTHOGRAPHICS & ISOMETRIC VIEW : Two problems on orthographic view & Isometric views. Sheet No. 2 : PROJECTIOINS OF LINES & PLANES :Two problems on lines & planes. Sheet No. 3 : PROJECTION OF SOLIDS : Two problems on solids. Sheet No. 4 : ENGINEERING CURVES: To draw any four curves mentioned in the detailed syllabus. Sheet No. 5 : FREEHAND SKETCHING:Four problems on machine parts and joints

TEXT BOOKS

1. N. D. Bhatt, ―Elementary Engineering Drawing‖, Chartor Publishing house, Anand, India. 2. D. N. Johle, ―Engineering Drawing‖, Tata Mcgraw-hill Publishing Co. Ltd. 3. K. L. Narayana and P. Kannaiah,‖Textbook on Engineering Drawing‖,Scitech Pub, 2010.

REFERENCE BOOKS

1. P. S. Gill, ―Engineering Graphics‖, S K Kataria and Sons, Reprint 2013 edition (2013) 2. N. D. Bhatt, ―Machine Drawing‖, Chartor Publishing House, Anand, India. 3. Warren J. Luzzader, ―Fundamentals of Engineering Drawing‖, Prentice Hall of India, New Delhi. 4. Fredderock E. Giesecke, Alva Mitchell & others, ―Principles of Engineering Graphics‖, Maxwell McMillan

Publishing.

17AE106/17CE106/17CS106/17EC106/17IT106/17ME106: English Communication 2103

CA : 50 Marks No. of Total Lectures = 30 Hours

ESSENTIALS OF EFFECTIVE ORAL COMMUNICATION (5) Introduction to the process of effective communication- developing confidence, self-concept, clarity of thought - audience analysis- overcoming barriers to communication- body language- paralanguage, presentation techniques, and short speeches. READING COMPREHENSION (4) Developing reading skills like skimming and scanning for information, critical reading, inferential, cognition, and analytical skills- appropriate reading texts to be used from general, scientific, and literary genres - review of a short story. PRINCIPLES OF CLEAR WRITING (6) The fundamental aspects of formal writing like objectivity, conciseness, clarity, simplicity, coherence, parallelism, unity, cohesion, and accuracy to be focused – descriptive writing - guidelines for writing expository, analytical, descriptive, and argumentative essays or articles –writing for focus: writing in different ways to create an emphasis and focus to be focused – samples from news items, creative articles, and reports to be used. NOTE –MAKING, SUMMARIZING AND PARAPHRASING (1) Passages pertaining to general and science topics to be used to train students in note-making, summarizing and paraphrasing. TECHNICAL WRITING (2) Technical style, mechanics, critical evaluation of different types of technical texts and different genres of technical writing – transcoding – interpretation of the information represented in graphical elements like graphs, tables, charts, and diagrams. CLOZE TEST AND SPOTTING ERRORS (4) Passages with numbered gaps to be used to provide training in the use of vocabulary, syntax, and reading comprehension - spotting common errors in the use of language functions and guidelines for rectifying the same. CORRESPONDENCE - Principles of official, social, and e-mail correspondence to be focused. (3)

GROUP COMMUNICATION - Group discussions and role-plays. (4)

11

LISTENING - Exercises using language laboratory. (1) TEXTBOOK 1. Monograph prepared by the Faculty, Department of English, in 2012. REFERENCE BOOKS 1. Dorothy E Zemach and Lynn Stafford Yilmaz, ―Writers at Work: The Essay‖, Cambridge University Press,

Cambridge, 2008. 2. AyshaViswamohan, ―English for Technical Communication‖, Tata Mc-Graw – Hill Publishing Company Ltd., New

Delhi, 2008. 3. Mark Ibboston,‖Cambridge English for Engineering‖, Cambridge University Press, UK, 2011. 4. E. Suresh Kumar and P. Sreehari, ―A Handbook for English Language Laboratories‖, Osmania University,

Hyderabad, 2011.

17AE107/17CE107/17CS107/17EC107/17IT107/17ME107: Engineering Practices 0021

CA : 50 Marks

JOB: ANY TWO JOBS OF THE FOLLOWINGS.

i. Carpentry shop Any marketable job involving at least one joint like T-Joint, Mortise and Tennon joint, Dovetail joint. Assignment on

• Study of joints in door panels, wooden furniture ii. Tin Smithy Shop

Any one sheet metal manufacturing component like tray, scoop, funnel etc. Assignment on :

• Write a procedure on manufacturing of any one job. iii. Machine shop

Simple turning operations on lathe machine at least six operations. Turning - Facing, chamfering and step turning, Grooving, Taper turning and knurling Assignment on

• Study of construction features of Head stock, Tail stock, Apron gear box. iv. Welding shop

Any two types of joints like T-Joint, but joint, lap joints etc. Assignment on

• Study on types of joints used in Industrial trusses .

DEMONSTRATION ON (a) Smithy operations like the production of ‗S‘ Type hook. (b) Foundry operation like mould preparation for flange.

ASSIGNMENT

1. Safety in workshop e.g fire safety, electric shock, machine protection etc. 2. Write a procedure of any one job manufacturing. 3. To Study and practice the various operations that can be performed

in Lathe, drilling, milling machines etc. .

12

17CS108/17EC108/17IT108/17AE207/17CE207/17ME207: Physics Laboratory 0021

CA : 40 Marks FE : 60 Marks

LIST OF EXPERIMENTS (ANY EIGHT EXPERIMENTS)

1. Determination of velocity of ultrasonic waves in liquid using ultrasonic interferometer 2. (a)Measurement of sound pressure level

(b)Determination of absorption coefficient of sound of given material 3. Determination of wavelength of monochromatic light source using Newton‘s Ring 4. Determination of wavelength of spectral lines by using a plane diffraction grating 5. Verification of Malus law for polarization of light 6. Determination of wavelength and beam divergence of He Ne laser beam 7. Study of V-I characteristics of Solar Cell 8. Determination of numerical aperture of an optical fiber 9. Working of a Fuel Cell.

17AE108/17CE108/17ME108/17CS207/17EC207/17IT207: Chemistry Laboratory 0021


LIST OF EXPERIMENTS (ANY EIGHT EXPERIMENTS)

1. To determine the hardness of water by EDTA Method. 2. To determine Chemical Oxygen Demand of a water sample.

3. To determine average molecular weight of a polymer by end-group analysis.

4. To synthesis and characterize polystyrene.

5. To perform proximate analysis of coal.

6. To determine gross calorific value of a fuel sample by calorimetry method.

7. To perform electroplating of nickel on copper.

8. To study the corrosion of a metal.

9. To perform volumetric analysis using a pH meter.

10. To determine density of a liquid fuel.

17AE109/17CE109/17CS109/17EC109/17IT109/17ME109: C Programming Laboratory 0042


LIST OF EXPERIMENTS GROUP A: Essential Prerequisites (Compulsory)

1. Use of Eclipse Editor for creating C projects. (1 hr) 2. Using Eclipse Write ―Hello World‖ program in C. (1hr)

GROUP B: BASIC C Programming (At least 12)

1. Write a C program to accept the length of three sides of a triangle and to test and print the type of triangle as equilateral, isosceles or right angled or none. (2hrs)

2. Write a C program to reverse a given Integer. (1 hr) 3. Write a C program to check whether the given no. is palindrome. (1 hr) 4. Write a C program to display multiplication table of given no. (2 hrs) 5. Write a C program to compute GCD of two given integers. (2 hrs) 6. Write a C program to find maximum & minimum element from the array. (2 hrs) 7. Write a C program to compute addition, subtraction & multiplication of two matrices. (2 hrs) 8. Write a C program to compute the factorial of given positive integer using recursive function. (2hrs)

13

9. Write a C program to sort n integers using bubble sort. (2 hrs) 10. Write a C program to accept a string and to display the following :( 2 hrs)

a. Total number of characters in the string b. Total number of vowels in the string c. Total number of occurrence of particular character in the string

11. Write a C program to carry out following operations on strings using library functions (2 hrs) a. To concatenate a string S2 to string S1 b. To find the length of a given string c. To compare two strings S1 and S2 d. To copy a string S2 to another string S1

12. Write a C program to accept a string and replace all the vowels in the string with *. (2 hrs) 13. Write a C program with function to swap values of two elements (call by reference). (2 hrs) 14. Write a C program to store information of 10 students using structure. (2 hrs) 15. Write a C program to merge two files. (2 hrs)

TEXTBOOK 1. Donald E. Knuth, ―The Art of Computer Programming‖, Vols. 1, Addison-Wesley, ISBN-13: 978-0201485417,

ISBN-10: 0201485419 2. T. E. Bailey, ―Program design with pseudo code‖, Brooks/Cole Publisher, ISBN-10:0534055745, ISBN-13: 978-

0534055745 3. Brian W. Kernighan, Dennis M. Ritchie, ―The C Programming Language‖, Prentice Hall, ISBN 0131103628,

Second Edition. REFERENCE BOOKS 1. Lamey Robert, ―Logical problem solving‖, Prentice Hall, ISBN: 9780130618825 2. Herbert Schildt, ―C/C++ Programmer's Reference‖, McGraw-Hill, ISBN-13: 978-0072127065, ISBN-10:

0072127066 3. Henry Mullish , Herbert L. Cooper, ―The Spirit of C‖, Thomson Learning, ISBN 0314285008 4. Carlo Ghezi, Mehdi Jazayeri, ―Programming Language Concepts‖, John Wiley and Sons, ISBN 0471104264, Third

Edition 5. CDAC: BOSS GNU/Linux User's Manual

7AE201/17CE201/17CS201/17EC201/17IT201/17ME201: Differential Equations and Calculus 3 2 0 4


DIFFERENTIAL EQUATIONS (9) Definition, Order and Degree of D.E. Formation of DE. Solution of variables separable DE. Exact DE. Linear and reducible to these types APPLICATION OF DIFFERENTIAL EQUATION (9) Application of DE to Orthogonal trajectories. Newton‘s law of cooling , Kirchhoff‘s law of electrical circuits, Motion under gravity, Rectilinear motion, Simple Harmonic motions, One Dimensional conduction of heat , Chemical Problem.

PARTIAL DIFFERENTIATION AND APPLICATIONS (9) Partial Derivatives, Euler‘s Theorem on Homogeneous functions, Implicit Function, Total derivatives, Change of Independent Variables.Jacobian and their applications, Maxima and Minima of function of two variables, Lagrange‘s undermined multipliers. INTEGRAL CALCULUS AND TRACING OF CURVES (9) Differentiation under integral sign, Error Function, Cartesian, polar and parametric curves. Rectification of curves. MULTIPLE INTEGRATION (9) Double and triple Integrations, Applications to area, Volume, mean and root mean square values. Mass, centre of gravity and M.I.

TEXT BOOKS

14

1. Erwin Kreyszig, ―Advanced Engineering Mathematics‖, Wiley Eastern Ltd, 10th edition . 2. Maurice D. Weir, Joel Hass, Frank R. Giordano, ―Thomas‘ Calculus‖, Pearson Education, 12th edition, .

REFERENCES 1. Calculus for Scientists and Engineers by K.D Joshi, CRC Press. 2. A Course in Calculus and Real Analysis (1st edition) by SudhirGhorpade and BalmohanLimaye, Springer-Verlag,

New York. 3. Advanced Engineering Mathematics by C.R. Wylie, McGraw Hill Publications, New Delhi. 4. Advanced Engineering Mathematics (7th edition) by Peter V. O‘ Neil, Thomson. Brooks / Cole, Singapore. 5. Differential Calculus by Shanti Narayan, S. Chand and company, New Delhi 6. Differential Equation with Applications By George Simmons

17AE203/17CE203/17CS203/17EC203/17IT203/17ME203: Materials Engineering 3 1 0 4


ELECTRONIC AND PHOTONIC MATERIALS (9) Electronic Materials: Fermi energy and Fermi–Dirac distribution function – Variation of Fermi level with temperature in intrinsic and extrinsic semiconductors – Hall Effect – Superconducting Materials: Normal and High temperature superconductivity – Applications. Photonic Materials: LED – LCD – Photo conducting materials – Photo detectors CRYSTAL STRUCTURE (9) Crystal geometry and Crystal Imperfections: Unit Cell, Crystal structure, Bravais lattice, atomic packing, coordination number, radius ratio, crystal structures of metallic elements, crystal directions and planes, Miller indices, Polymorphism or Allotropy. Crystal structure and correlated properties. Diffusion processes; Crystallization: Mechanism of crystallization MAGNETIC AND DIELECTRIC MATERIALS (9) Magnetic Materials: Classification of magnetic materials based on spin – Hard and soft magnetic materials – Magnetic bubbles and their applications – Magnetic thin films Dielectric Materials: Polarization mechanisms in dielectrics – Frequency and temperature dependence of polarization mechanism – Dielectric loss –Piezoelectric, pyro electric and ferroelectric materials and their applications. MATERIALS CHARACTERIZATION (9) X-ray diffraction, Principles of Scanning Electron Microscope(SEM) , Tunnelling Electron Microscope (TEM), Atomic Force Microscopy(AFM), Fourier transform Infrared spectroscopy (FTIR) – Ultraviolet and visible spectroscopy (UV-Vis) – Thermo gravimetric Analysis (TGA) – Differential Thermal Analysis (DTA). MODERN ENGINEERING MATERIALS (9) Modern Engineering Materials: Smart materials – Chromic materials (Thermo, Photo and Electro) – Rheological fluids – Metallic glasses – Ceramics Bio-materials: Classification of bio-materials (based on tissue response) –Comparison of properties of some common biomaterials – Biosensor. Nanomaterials: fullerenes – Graphene – Carbon nanotubes- Potential uses of nanomaterials in electronics, robotics, computers, sensors, sports equipment, Medical applications of nanomaterials. TEXT BOOKS 1. William D Callister ,"Material Science and Engineering", John Wiley and sons, New York, 2013. 2. Thiruvadigal.J.D, Ponnusamy,S..Sudha.D. and Krishnamohan M., ―Materials Sciences‖, Vibrant Publication,

Chennai, 2013. 3. Rajendran.V, ―Materials Science‖,Tata McGraw- Hill,New Delhi,2011.

15

REFERENCES 1. Rolf.E. Hummel, ―Electronic Properties of Materials‖, 4th ed., Springer, New York, 2011. 2. Dennis.W. Prather, ―Photonic Crystals: Theory, Applications, and Fabrication‖, John Wiley & Sons, Hoboken,

2009. 3. James R. Janesick, ―Scientific Charge-Coupled Devices‖, Published by SPIE - The International Society for

Optical Engineering, Bellingham, Washington, 2001. 4. SeverialDumitriu, ―Polymeric Biomaterials‖ Marcel Dekker Inc, CRC Press, Canada 2001. 5. T.Pradeep, ―A Text Book of Nanoscience and Nanotechnology‖, Tata McGraw Hill, New Delhi, 2012. 6. Sam Zhang, ―Materials Characterization Techniques‖, CRC Press, 2008. 17AE204/17CE204/17CS204/17EC204/17IT204/17ME204: Object Oriented Programming in C++ 3 0 0 3


INTRODUCTION (9) Introduction to Algorithms, Complexities and Flowchart, Introduction to Programming, Categories of Programming Languages, Program Design, Programming Paradigms, Characteristics or Concepts of OOP, Procedure Oriented Programming VS object oriented Programming. Introduction to C++: Character Set, Tokens, Precedence and Associativity, Flow chart, Program Structure, Data Types, Variables, Operators, Expressions, Statements and control structures,I/O operations.Objects interaction, Classes, Hierarchies of classes,Inheritance,Polymorphism,Abstract classes. Array, Functions Objects, Objects as software modules PROGRAMMING IN C++ (10) Identifying objects and classes, Representation of objects, Modeling, objects and classes, Relationships. Data Types: Properties of structured and non-structured data types and Objects, variables, constants,Derived and abstract data types, declaration, type checking. Binding and binding times, type conversion,scalar data type, composite data types, Implementation and Storage representation of data types and control flow statement.Association between objects, aggregate components of objects. Storage Management: Memoryallocation, Dynamic allocation,New and delete Operator.

OBJECT ORIENTED PROGRAMMING IN C++ (10) Object oriented programming languages, Class declarations, Object declarations, Mandatory profiles, Message sending, Association, Recursive association, Many to many association,Argumentpassing.Object& Classes, Scope Resolution Operator, Constructors & Destructors, Friend Functions, Inheritance: Types of Inheritance,Inherited methods, Redefined methods,The protected interface, Abstract base classes, Public and protected properties, Private operations, Disinheritance, Multiple inheritance.Polymorphism, Overloading Functions & Operators,

VIRTUAL FUNCTION AND EXCEPTIONAL HANDLING (10) Virtual functions. Pointers to objects, ‗this‘ pointer, Pointers to derived class, virtual function, rules for virtual function, pure virtual function, abstract class, virtual destructors, early and late binding, container classes Templates : Introduction, Function template and class template, overloading function template, Introduction to Standard Template Library (STL), containers, iterators and algorithms. Namespaces: Introduction, Rules of

namespaces .Exception Handling: Introduction, Exception handling mechanism: try, catch and throw, Multiple Exceptions, Exceptions with arguments STUDY OF C++ (6) Study of C++ as object oriented programming language, Managing Console I/O Operations: Introduction, C++ streams, stream classes, unformatted I/O, formatted I/O and I/O manipulators File I/O: Introduction, Classes for file stream operations, file operations.

16

TEXT BOOKS 1. Deitel and Deitel, ―C++ How to Program‖, Sixth Edition, Prentice Hall,2007.(UNIT 1,2,3) 2. Herbert Schildt, ―Java The complete reference‖, Eighth Edition, McGraw Hill Professional, 2011.(UNIT 4,5)

REFERENCE BOOKS 1. Balagurusamy E., ―Object oriented programming with C++‖,Fifth Edition, Third Reprint, Tata McGraw–Hill

Education , 2011. 2. Ira Pohl, ―Object Oriented Programming using C++‖, Pearson Education, Second Edition, Reprint 2004. 3. Lippman S. B., JoseeLajoie, Barbara E. Moo, ―C++ Primer ‖, Fourth Edition, Pearson Education, 2005. 4. ISRD Group, ―Introduction to Object–oriented programming throughJava‖,Tata McGraw–Hill Publishing Company

Ltd., 2007.

17AE205/17CE205/17ME205: Engineering Mechanics

CA : 40 Marks

FE : 60 Marks

No. of Total Lectures = 45 Hours

STATICS OF PARTICLES

(9) Forces – Systems of forces - Force systems, Resolution and composition of forces, Resultant of Concurrent forces in plane and space- Moment of a force, Couple, Varignon‗s theorem, Equivalent force couple system, Resultant of parallel and general force system.

STATICS OF RIGID BODIES (9) Free body diagram, Equilibrium of concurrent, parallel and general forces, Types of beams, simple and compound beams, type of supports and reaction. Friction - Laws of friction-coefficient of friction-problems involving dry friction - wedge & ladder friction.

APPLICATION OF STATICS (9) Roof trusses - Method of joints, Method of sections & Tension Coefficient method.

CENTROID, CENTRE OF GRAVITY AND MOMENT OF INERTIA (9) Centroids of areas, composite areas, determination of moment of inertia of plane figures, polar moment of inertia-radius of gyration – mass moment of inertia of simple solids.

KINEMATICS OF PARTICLES (9)

Introduction-plane, rectilinear motion-time dependent motion-rectangular coordinates - projectile motion.

KINETICS OF PARTICLES (9) Equation of motion-rectilinear motion - Newton‘s II law – D‘Alembert‘s principle- Energy - potential energy - kinetic energy - conservation of energy- Work done by a force - work energy method.

REFERENCE BOOKS 1. Beer F P and Johnson E R, ―Vector Mechanics for Engineers, Statics & Dynamics‖, Tata McGraw Hill

Publishing Co. Ltd., New Delhi, 2009. 2. Rajasekaran S and Sankarasubramanian G, ―Engineering Mechanics-Statics and Dynamics‖, Vikas Publishing

House Pvt. Ltd., New Delhi, 2006. 3. Bhavikatti S S, ―A Text book of Engineering Mechanics‖, New Age International (P) Ltd., New Delhi.

17

4. Bansal R K, ―Engineering Mechanics‖, Laxmi Publications (P), New Delhi, 2008.

17AE206/17CE206/17CS206/17EC206/17IT206/17ME206: Professional Communication 3 024

CA : 100 Marks No. of Total Lectures = 40 Hours

LANGUAGE TRAINING, SOFT SKILLS (4+4+4+4)

Reading Comprehension: Critical, inferential, analytical, and interpretative Reading tasks – reading texts from different genres- assessment components modeled on IELTS, TOEFL, & GRE examinations.

Language Focus – Writing: Context based Syntax, vocabulary, and special language functions like idioms and phrases, connectives, style, Tone, and emphasis techniques- academic and professional writing- describing visual information like graph/table/chart/diagram- drafting letters, emails, mini- reports

Professional Communication –Oral Skills: Principles of presentations- group discussions, role plays, mock interviews-receiving instructions.

group communication, interviewing, and making talking about some visual information- giving and

Soft Skills: Intrapersonal communication- developing self-concept, handling Perceptual differences, Demonstrating Positive attitude, body language Interpersonal Skills- Team spirit, Body Language, Business etiquette, Negotiation skills. SEMINAR PRESENTATION AND TECHNICAL REPORT WRITING (12+12)

Writing Coherent Project Report: Overview structure of reports, gatheringinformations - synopsis / abstract - title – headings – table of contents – list of figures – list of tables – list of appendices – chapters – structured paragraphs – inferences, conclusions – figures – tables – flow charts – complete design (headers and footers).-Plagiarism. Each student will be required to submit a technical report based on the guidelines provided by the department.

Project Presentation: Each student will be required to make one technical presentation for minimum 15 minutes duration in this course. Individual topics will be assigned to the students by the department.

REFERENCE BOOKS 1. Monograph prepared by Faculty, Department of English, 2013. 2. Sureshkumar E. ,Sreehari P. and Savithri J. ,‖Communication Skills and Soft Skills: An Integrated Approach‖,

Dorling Kindersley (India) Pvt. Ltd., India, 2011. 3. Roger Gower, ―Real Writing with Answers‖, Cambridge University Press, Cambridge, 2008. 4. Sheryl Lindell-Roberts, ―Technical Writing for Dummies‖, Hungry Mills, Inc, 2001. 5. Arora V. N. and Laxmi Chandra, ―Improve Your Writing‖, Oxford University Press, New Delhi,2008.

17AE208/17CE208/17CS208/17EC208/17IT208/17ME208: C++ Programming Laboratory 0042


LIST OF EXPERIMENTS (AT LEAST 12) 1. A) Write a C++ program to print the given number in reverse order. Use functions with return type and without

return type for reversing the number.Ex: given number is 2345 , output should be 5432 B) Write a C++ program to find the sum of factorial of a given number using recursive function.

2. The customers of the Maharashtra State Electricity Board are charged depending on the number of units

consumed. The electricity tariff is calculated as follows:

18

In addition to above every person has to pay Rs75 as service charge per month. Write a program in C++ using control structures to calculate the Electricity bill.

3. Design a base class with name,date of birth,blood group and another base class consisting of the data members

such as height and weight.Design one more base class consisting of the insurance policy number and contact

address.The derived class contains the data members‘ telephone numbers and driving license number. Write a

menu driven program to carry out the following things: i. Build a master table ii. Display iii. Insert a new entry iv. Delete entry v. Edit vi. Search for a record

4. Write a C++ program to explain virtual function (polymorphism) by creating a base class c_polygon which has

virtual function area(). Two classes c_rectangle and c_traingle derived from c_polygon and they have area() to calculate and return the area of rectangle and triangle respectively.

5. Write a program to explain class template by creating a template T for a class named pair having two data

members of type T which are inputted by a constructor and a member function get-max() return the greatest of two numbers to main. Note: the value of T depends upon the data type specified during object creation.

6. Write a C++ program that creates an output file, writes few records into it, closes the file and open it again as an input file and read the information from the file.

7. Write a C++ program to DrawingLine using DDA algorithm Also Draw patterns such as simple, dash, dash dot,

thick. 8. Write a C++ program to DrawingLine usingBresenhamAlgortihm.Also Draw patterns such as simple, dash, dash

dot, thick. 9. Write a C++ program to Circle Drawing using DDA, Midpoint circle drawing Algorithms. 10. Writea C++ program to Circle Drawing using BresenhamAlgorihtms with key board/Mouse interface. 11. Write a C++ program to Polygon filling using i) Non Recursive Seed Fill / Flood Fill with implementation of inside

test 12. Write a C++ program to Polygon filling using Scan Line algorithm with Pattern Filling 13. Write a C++ program to2 D Clipping using i) Line Clipping – Cohen Sutherland Outcode Method 14. Write a C++ program to2 D Clipping using Sutherland Hodgman Polygon Clipping. 15. Write a C++ program 2 D Transformations to Implement Simple Translation ii) Scaling, rotation about origin. 16. Write a C++ program 2 D Transformations to Implement Scaling, Rotation about arbitrary point

TEXTBOOKS 1. S. Harrington, ―Computer Graphics‖, 2nd Edition, McGraw-Hill Publications, 1987, ISBN 0 – 07 – 100472 – 6. 2. D. Rogers, ―Procedural Elements for Computer Graphics‖, 2nd Edition, Tata McGraw-Hill Publication, 2001, ISBN

0 – 07 – 047371 – 4. 3. Deitel and Deitel, ―C++ How to Program‖, Sixth Edition, Prentice Hall, 2007.(UNIT 1,2,3) 4. Herbert Schildt, ―Java The complete reference‖, Eighth Edition, McGraw Hill Professional, 2011.(UNIT 4,5)

19

REFERENCE BOOKS 1. J. Foley, V. Dam, S. Feiner, J. Hughes, ―Computer Graphics Principles and Practice‖, 2nd Edition, Pearson

Education, 2003, ISBN 81 – 7808 – 038 – 9. 2. 2. D. Hearn, M. Baker, ―Computer Graphics – C Version‖, 2nd Edition, Pearson Education, 2002, ISBN81 – 7808 –

794 – 4. 3. 3. D. Rogers, J. Adams, ―Mathematical Elements for Computer Graphics‖, 2nd Edition, Tata McGraw-

Hill Publication, 2002, ISBN 0 – 07 – 048677 – 8

17BTCE301 : Building Planning and CAD 3 0 2 4

CA : 40 Marks FE : 60 Marks L T P C

I. INTRODUCTION (3+8)

Importance of building drawing for Civil Engineering in construction & estimation. Abbreviations & graphical symbols

used in Civil Engineering Drawing as per IS: 962. Layout of sheet for civil engineering drawing, Requirements of

drawing as per plan sanctioning authorities

II. LINE PLAN & WORKING DRAWINGS OF THE BUILDING CONCEPTS (4+8)

Developing working drawings of the building from the given line plan with details. Concept of site plan, block plan and

layout plan. Concept of site plan, block plan and layout plan. Concept of foundation plan, importance and use.

Developing working drawing and foundation plan for load bearing and framed structures. Plumbing & electric plan.

III. PLANNING OF RESIDENTIAL BUILDING (3+8)

Introduction, general principles of planning viz. aspect, prospect, roominess, privacy, grouping, circulation, ventilation,

furniture requirement. Orientation of buildings, requirement of the owner for various building types- bungalow,

apartment, detached house etc.

IV.BUILDING RULES AND BYE LAWS (4+6)

For residential buildings, Types of public building and their requirements, planning of public building. Line plans of

different public buildings such as schools, commercial market, primary health centre, workshop, college building, post-

office. Perspective drawing, Staircase planning & drawing.

V. LABORATORY WORK (1+15)

AUTOCAD: Understanding basic concepts such as Absolute, relative & world Co-ordinates. Drawing units, layers, line

types, object snapping, filters. Various drawing commands, use of object snaps & filters. Drawing basic entities. Editing

commands- Dimensioning commands, Text commands, Modify commands viewing the drawing different views, view

ports, zooming in & out, panning, saving & printing in different scales.

TERMWORK:

A) Working Drawings of any one type of building (either residential or public). Individual

project to be planned. Submission of working drawing on 1:50 or suitable scale. 1. Plan, Typical floor plan/s (by hand), Elevation (by hand), Sectional Elevation (by hand) Axonometric view (on

tracing paper), Water Supply and Drainage layout. (On tracing paper) B) Line plans of any two public buildings (on graph papers). C) Two point perspective for any small object on construction field like steps, pedestal, flower bed, bench ETC

D) AutoCAD drawing for residential bungalow including Plan , Elevation, section with electric layout. E) Report on applications of Architectural software (such as AutoCAD, Report should contain the details like ------

20

Name, Year of release, Developer, Updations from the year of release, Application areas, A small

application and its printout , Architecture of software , Compatibility with other software , Cost

(free or paid) , licensed year.

F) Compilation of the documents required from commencement to completion of the building

by the concerned local body i.e.Muncipal Corporation or nearest Municipality

G) To Study and summary in own words about the D.C.Rules of own or nearest city.

• Prerequisite: - 1. NBC-2005 2. DC RULES 3. Income group concepts (Plot areas, Dimensions etc) 4. Green

building concepts

TEXT BOOKS:

1. Shah, Kale & Patki, Building Planning & Drawing, Tata McGrawHill plubication. 2. N. Kumara Swamy; A. Kameswara. Rao; Building, planning and drawing, Charotar Publications. 3. Dr. S. V. Deodhar; Building Science and Planning , Khanna Publication. 4. M.G.Shaha, C.M.Kale; Principles of Building Drawing; Macmillan

REFERENCES:

1. NBC-2005 ( or latest edition ) 2. ―I.S. 962 – 1989 Code for Practice for Architectural and Building Drawings‖. 3. ―Civil Engineering Drawing‖.-- M. Chakraborty, DC Rules of local body

17BTCE302: Geotechnical Engineering – I 4 0 0 4


I INTRODUCTION (10 hours)

History/ Introduction to Geotechnical Engineering and its applications formation

of soil, Complexity o f s o i l s t r u c t u r e , m a j o r s o i l d e p o s i t s of and

purpose.

to Civil Engineering. Origin and India.

Introduction to soil exploration

Index Properties of soil: Phase diagram, weight -volume relationships, Index properties of soil– determination and their significance. classification of soil- IS and Unified, Plasticity chart and there importance. Field i d e n t i f i c a t i o n

o f s o i l s .

II. FLOW THROUGH POROUS MEDIA (10 hours) Soil water, permeability definition and necessity of its study, Darcy‘s law, assumption and validity, coefficient of permeability and its determination (Laboratory and field), factors affecting permeability, Permeability of stratified

soil deposits. Seepage and Seepage pressure, critical hydraulic gradient, Laplace equation (no derivation), assumptions and limitations, quick sand condition. Flow Net, properties and uses, Method of drawing flow nets for sheet pile and earthen dam.

III. COMPACTION OF SOIL (10 hours) Definition, compaction tests- Standard and Modified Proctor. Factors affecting compaction, Effect of compaction on soil properties. Field compaction equipment for different types of soil, Placement water content, Proctor needle. Stress Distribution in Soils: Geostatic stress, Boussinesq‘s theory with assumptions for point load and circular load (with numerical), Pressure Distribution diagram on a horizontal and vertical plane, Pressure bulb and its significance. Westergaard‘s theory, equivalent point load method, Approximate stress distribution method.

21

IV.SHEAR STRENGTH OF SOIL AND ITS DETERMINATION (10 hours) Shear strength concept, Mohr-Coulomb theory. The effective stress principle- Total stress, effective stress and

neutral stress and concept of pore water pressure. Peak and Residual shear strength, factors affecting shear

strength. Stress-strain behavior of sands and clays. Measurement of Shear parameters- Direct Shear test, Triaxial

Compression test, Unconfined Compression test, Vane Shear test and their suitability for different types of soils,

advantages and disadvantages. Different drainage conditions for shear tests. Sensitivity and thixotropy of Clay.

V.EARTH RETAINING STRUCTURES (10 hours) Earth Pressure- Introduction, Rankine‘s state of Plastic Equilibrium in soils- At rest, active and passive conditions. Rankine‘s Theory- Earth pressure on Retaining wall due to submerged backfill, Backfill with uniform surcharge, backfill with sloping surface, layered backfill. Coulomb‘s Wedge theory. Rebhann‘s and Culmann‘s graphical method of determination of earth pressure. Geoenvironmental engineering: Introduction, subsurface contamination, contaminant transport, effects of subsurface contamination, Control and remediation, Soil- A geochemical trap, detection of polluted zones, Monitoring effectiveness of designed facilities.

TEXT BOOKS: 1. Soil Mechanics and Foundation Engg.- Punmia B.C. (2005), 16th Edition Laxmi Publications Co. , New Delhi. 2. Principles of Soil Mechanics and Foundation Engineering-Murthy V.N.S. (1996), 4th Edition, UBS Publishers and Distributors, New Delhi. 3. Geotechnical Engineering; Braja, M. Das (2002), Fifth Edition, Thomson Business Information India (P)

Ltd., India REFERENCES BOOKS: 1. Foundation Analysis and Design- Bowles J.E. (1996), 5th Edition, McGraw Hill Pub. Co. New York. 2. Geotechnical Engineering- Donold P Coduto Phi Learning Private Limited, New Delhi 3. Geotechnical Engineering- Shashi K. Gulathi & Manoj Datta. (2009), ― Tata Mc Graw Hill.

17BTCE303: Mechanics of Solids 3 1 0 4


I. SIMPLE STRESSES AND STRAINS (10)

Concept of stresses and strains, Stress and strain due to axial force, Stress-Strain diagram for elastic, plastic and brittle materials, limit of proportionality-Hooke‘s law, Factor of safety,Stepped bars, uniformly varying sections, compound and composite bar,Stresses and strains due to change in temperature

VOLUMETRIC STRESSES AND STRAINS: Concept of volumetric stress and strain, Lateral strain, Poisson‘s ratio, bulk modulus and shear modulus, shear stress and shear strain, Relationship between elastic constants, Hoop and Longitudinal stresses in thin cylindrical and spherical shells under internal pressure – changes in dimensions and volume. II PRINCIPAL STRESSES AND STRAINS (10)

Concept of principal planes and principal stresses, State of stress at a point, Normal and tangential stresses and their planes, Principal Stress and their planes ,Plane of maximum shear stress, Analytical method and Mohr‘s circle method. Combined effect of axial stress, bending moment, shear and torsion. TORSION: Theory of torsion and assumptions made in torsion theory, Derivation of torsion formula, Polar moment of inertia, and stresses in solid and hollow circular shafts, Power transmitted by shafts, twisting moment diagrams, expression of strain energy for axially loaded member under gradual, sudden and impact loads. Concept of equivalent bending and equivalent twisting moments III SHEAR FORCE AND BENDING MOMENT (10)

MIT SCHOOL OF ENGINEERING, PUNE Department of Civil Engineering Concept of shear force and bending moment, Relationship between load, shear force and bending moment, shear force and bending moment diagrams for cantilever, simply supported and overhanging beams under concentrated loads, uniformly distributed loads, uniformly varying loads and concentrated moment - Maximum bending moment and point of contra flexure. THEORIES OF ELASTIC FAILURE: Maximum shear stress theory, Maximum strain energy theory Maximum principal stress theory, Maximum principal strain theory, simple problems based on above theory. IV MOMENT OF INERTIA (10) Concept and determination of Moment of Inertia for various standard and composite cross-sections. FLEXURAL STRESS IN BEAMS: Concept of simple or pure bending, assumptions made bending theory, Derivation of flexural formula, Bending stress distribution diagram for various cross sections, section modulus, Moment of Resistance of cross-section, Strain energy due to bending. SHEAR STRESS IN BEAMS: Concept of Shear and Complimentary shear, Derivation of shear stress formula, shear stress distribution diagram for various cross sections, maximum and average shear Stress for various cross-sections. COLUMNS AND STRUTS (8)

Concept of short column and long column, Behaviour of axially loaded short and long column, Concept of buckling of columns and stability, crippling load by Euler‘s theory for different end conditions, Limitations of Euler‘s formula, buckling load by Rankine‘s formula, safe load on columns, Direct and bending stresses for eccentrically loaded short column and other structural components such as retaining walls, dams, chimneys, etc. Concept of core of section for various sections, Resultant stress distribution diagrams due to axial loads, uni-axial bending, and bi-axial bending. TEXT BOOKS: 1. Strength of Materials by R. Subramanian, Oxford University Press. 2. Bansal R K ―Strength of Materials‖, Laxmi Publications, New Delhi, 2010 REFERENCES:

1. Punmia B C, Ashok Jain and Arun Jain ―Strength of Materials and Theory of Structures‖ – Vol.1, Laxmi Publications, New Delhi, 2001. 2. Elements of Strength of Materials by Timoshenko and Young, East-West Press Ltd. 3. Mechanics of Materials by Beer and Johnston, McGraw Hill Publication. 17BTCE304 : Concrete Technology 4 0 0 4


I CEMENT (8)

Composition and properties of cement - Tests on Physical properties of cement - consistency - setting time - soundness - strength. Other types of cements - composition, properties and uses - BIS specifications. Heat of hydration, Chemical and Physical Processes of Hydration. Chemical Composition, Physical Characteristics,

Chemical and Physical Processes of Hydration and Interaction, Effects on Properties of Concretes.

II AGGREGATES (7)

Classification –Characteristics affecting Concrete Properties - Tests on aggregates– sand BIS specifications.

Aggregates: Review of Types; Elementary Mineralogy and Petrology; Sampling and Testing; Effects on Properties of

Concretes

Admixtures:Review of Types and Classification, Chemical Composition, Effects on

1

MIT SCHOOL OF ENGINEERING, PUNE Department of Civil Engineering

Properties of Concretes.

III MIX DESIGN (10)

Basic considerations - Factors in the choice of mix proportions - quality control and quality assurance - IS method -

correction for moisture content and bulking. Numerical Problems on Mix design. Under water concrete- mix design

and construction practices.

IV CONCRETE STAGES (7)

FRESH CONCRETE: Workability - factors affecting workability - Tests - Segregation - Bleeding - Batching and mixing of concrete - compaction of concrete - Methods of compaction. HARDENED CONCRETE: Factors affecting strength - curing – methods of curing - shrinkage - factors affecting shrinkage - Creep - Factors influencing creep.

TESTING OF HARDENED CONCRETE: Compression test - flexure test – split tension test - accelerated strength

test - stress strain characteristics - Determination of modulus of Elasticity - In situ strength determination - Rebound

Hammer test - Test cores - Electro dynamic method – pulse velocity method.

V DURABILITY OF CONCRETE (8 )

Permeability - Chemical attack on concrete - Quality of water - marine atmosphere - air entrained concrete - Thermal

properties of concrete - Resistance to abrasion and cavitation - Fire resistance. Alkali-activated cements-

opportunities and challenges.

TEXT BOOKS:

1. Gambhir, M.L., Concrete Technology, Tata McGraw Hill, 2004.

2. Nevile, Properties of Concrete, Longman Publishers, 2004.

3. Shetty, M.S., Concrete Technology, Theory & Practice, S.Chand and Co, 2004.

REFERENCES

1. Santakumar A.R., Concrete Technology, Oxford University Press, New Delhi, 2007.

2. P.K.Mehta and Paulo J.M.Monteiro, "Concrete: microstructure, properties and materials", The McGraw-

Hill Companies 17BTCE305 : Applied Geology 3 1 0 4


I INTRODUCTION (10)

INTRODUCTION: Geology and its role in the field of civil engineering. Earth: Its internal structure and composition. History: Principles of stratigraphy, Geological time scale, physical divisions of India.

GEODYNAMICS: Earthquakes- seismic waves, seismograph, causes, effects, seismic zones, shield areas and

seismic resisting structures. Coastal zones, coastal landforms, continental shelf, continental rise, continental slope,

abyssal plain, mid-oceanic ridges, trenches, tsunamis.

II MINERALOGY (10 )

MINERALOGY: Description and identification of Rock forming minerals and Ores, based on physical and special

properties; Quartz and its varieties; Feldspar group; Mica group; carbonate group; Hornblende, Augite, Olivine,

Asbestos, Kaolin, Talc, Gypsum, Garnet, Corundum. Magnetite, Hematite, Limonite, Pyrite, Chalcopyrite, Pyrolusite,

Psilomalane, Chromite, Galena, Bauxite.

2


III PETROLOGY (10)

PETROLOGY: Rocks as fundamental units and building materials of the earth crust and their engineering applications: As building stones, road metals and stones for decoration, pavement, cladding, roofing, flooring, concreting and foundation engineering. Igneous rocks: Origin, classification (chemical and textural), mode of

occurrence; Identification and description of Granite, Syenite, Diorite, Gabbro, Dunite; Pegmatite, Porphiries, Dolerite;

Rhyolite, Basalt and Pumice. Sedimentary rocks: Origin, classification, primary structures and description of

Sandstones, Conglomerate, Breccia, Shale, Limestones and Laterite. Metamorphic rocks: Kinds of metamorphism,

description of Gneiss, Quartzite, Marble, Slate, Phyllite and Schists.

IV GEOMORPHOLOGY (8)

Epigene and Hypgene geological agents; rock weathering and its types; Soil formation, types, erosion and remedial measures; Geological action of rivers with different drainage patterns; Geological action of wind.

ENGINEERING GEOLOGY: Geotechnical investigations for civil engineering projects: Study of toposheets and

geological maps, importance of lithological and structural features studies for the construction of Dams, Reservoirs,

Tunnels, Bridges and Highways, Land slides; causes, effects and remedial measures.

V ROCK MECHANICS & GEOMATICS (10)

Stress, strain and deformational effects on different rocks; Out crop, Dip, strike and escarpment, Joints, faults, folds

and unconformities their effects on civil engineering structures; Introduction to remote sensing (RS), geographical

information system (GIS) and global positioning system (GPS); land sate imageries.

HYDRO & ENVIRONMENTAL GEOLOGY: distribution of ground water in the earth crust; properties of water bearing geological formation: Aquifers and their types; selection of sites for well locations and; geophysical investigations for

ground water exploration. Impact of quarrying, mining and dams on Environment. Quality of ground water in different

geological terrain.

TEXT BOOKS:

1. Text book of Geology by P.K. Mukerjee, World Press Pvt. Ltd. Kolkatta.

2. Text of Engineering and General Geology by Parbin Singh, Published by S. K. Kataria and Sons, New Delhi.

3. A text book of Engineering Geology by Chenna Kesavulu, Mac Millan India Ltd.

REFERENCE BOOKS:

1. Structural Geology (3rd Ed.)By M. P. Billings, Published by Prentice Hall of India Pvt. Ltd.

New Delhi 2.Environmental Geology by K. S. Valdiya, Tata Mc Graw Hills.

3. Ground water assessment, development and management by K.R.Karanth, Tata Mc Graw Hills 16

17BTCE311: Geotechnical Laboratory 0 0 2 1


3


LIST OF EXPERIMENTS 1. Identification of gravel type, sand type, silt type and clay types soils, Tests for determination of Specific gravity (for coarse and fine grained soils) and Water content (Oven drying method).

2. Grain size analysis of soil sample (sieve analysis). 3. In situ density by core cutter and sand replacement methods. 4. Consistency Limits – Liquid Limit (Casagrande and Cone Penetration Methods), plastic limit and shrinkage limit. 5. Standard Proctor Compaction Test and Modified Proctor Compaction Test. 6. Coefficient of permeability by constant head and variable head methods. 7. Strength Tests a. Unconfined Compression Test

b. Direct Shear Test. c. Triaxial Compression Test. d. Laboratory vane shear test.

8. Free Swell Index and Swell Pressure Test.

17BTCE312: Concrete Technology Laboratory 0 0 4 2

CA : 40 Marks FE : 60 Marks L T P C Experiments:

1. Tensile properties of materials 2. To study the behavior of the given material under Compressive load 3. To determine the shear strength of the given standard specimen under single and double shear. 4. To Conduct Bending Test on Wood Under two point loading 5. To determine the modulus of rigidity and torsional shear stresses developed 6. To determine the Impact strength (Specific impact factor) through Izod test 7. To determine the Impact strength (Specific impact factor) through Charpy test. 8. To determine the Rockwell hardness number of the given Specimen using ―Rockwell Hardness tester‖ 9. To determine the Brinell hardness number of the given Specimen using Brinell hardness tester 10. Tests on Fine aggregates – Moisture content, Specific gravity, Bulk density, Sieve analysis and Bulking 11. Tests on Coarse aggregates – Absorption, Moisture content, specific gravity, Bulk density and Sieve analysis 12. Workability tests Vee bee, compaction factor, flow table and slump cone.

TEXT BOOKS:

1. Testing of Engineering Materials, Davis, Troxell and Hawk, International Student Edition – McGraw Hill Book Co . New Delhi.

2. Mechanical Testing of Materials‖, Fenner, George Newnes Ltd. London. 3. ―Experimental Strength of Materials‖ , Holes K A, English Universities Press Ltd. London.

REFERENCE BOOKS: 1. ―Testing of Metallic Materials‖ , Suryanarayana A K, Prentice Hall of India Pvt. Ltd. New Delhi. 2. Relevant IS Codes

3. ―Material Testing Laboratory Manual‖ , Kukreja C B- Kishore K. Ravi Chawla Standard Publishers

& Distributors 1996. 4. Concrete Manual, M.L.Gambhir –Dhanpat Rai & Sons- New Delhi.

4


17BTCE320 : Mini-Project-I 0 0 4 2 CA : 100 Marks L T P C

i. Projects related to respective subjects are to be taken.

17BCE401: Engineering Mathematics 3 1 0 4


I LINEAR DIFFERENTIAL EQUATION (9) Review of first order differential equations, linear differential equations, and homogeneous higher order linear differential equations, non-homogeneous higher order linear differential Equations with constant coefficients (method of undetermined coefficients and method of variation of parameters). II VECTOR CALCULUS (9) Vector differentiation, gradient, divergence and curl, line and surface integrals, path Independence, statements and illustrations of theorems of Green, Stokes and Gauss. III TRANSFORM TECHNIQUE (9) Laplace Transform: its properties, Unit step function, Dirac delta functions, Convolution Theorem, periodic functions, solving differential equations using Laplace transform. Fourier Transform: Definition and Problems, Inverse Fourier Transform, Fourier integral representation

IV PDE (9) Partial differential equations with separation of variables, boundary value problems:Vibrations of a string, one dimensional heat equation. V NUMERICAL DIFFERENTIATION AND INTEGRATION (9) Picard‘s methods, Taylor series method, Euler‘s method, modified Euler‘s method. Runge-Kutta method. Predictor – Corrector methods-Milne‘s method. Newton-Cortes Formula. Trapezoidal Rule. Simpson One –Third Rule, Simpson Three-Eight Rule. TEXT BOOKS

1. Maurice D. Weir, Joel Hass, Frank R. Giordano,―Thomas‘ Calculus‖, Pearson Education, 12th

ed.

2. Erwin Kreyszig,―Advanced Engineering Mathematics‖,Wiley eastern Ltd, 10th

ed.

3. Ronald E, Walpole, Sharon L. Myers, Keying Ye, ―Probability and Statistics for Engineers and Scientists‖,

Pearson Prentice Hall, 8th

ed., 2007. REFERENCE BOOKS 1. Calculus for Scientists and Engineers by K.D Joshi, CRC Press. 2. A Course in Multivariate Calculus and Analysis by SudhirGhorpade and BalmohanLimaye, Springer Science and

Business Media. 3. Differential Equations with Applications and Historical notes by George Simmons, Tata Mc-Graw Hill publishing

company Ltd, New Delhi.


17BTCE402 : Building Construction 4 0 0 4


L T P C

I. Types of building No of Lect. – 9, Marks: 12

Types of building, load bearing, framed structure, steel structure, and timber structure, composite structure. Components: Various parts of building, sub structure and super structure. Plinth, sill, floor, and roof level, plinth

height, plinth protection, cornice, coping and their function. II. Foundation: No of Lect. – 9, Marks: 12

Purpose and classification, advantages and disadvantages of each and circumstances under which each is used. Trial pit- its importance & significance Factor considered for selection of foundation. Lineout of Load Bearing & Framed Structure Buildings. Precautions to be taken while giving lineout. Scaffolding, shoring, under pinning and strutting, their types, purposes and precautions III. Masonry, Framed Structure & Formwork No of Lect. – 9, Marks: 12 Masonry: Principle of masonry construction, types of masonry, types of wall (load bearing, partition, timber partition,

glass partition etc.) Brick and brick masonry: Various types of bond in brick masonry, reinforced brick masonry, precautions to be taken

in masonry construction, composite masonry, solid and hollow blocks used for masonry, cavity wall, etc. R.C.C. framed structure, column, beam, footing, slab and their connections, general requirements and details. Formwork: Function of form work, form erection, oiling and stripping of form, requirements of form and form work,

material used for form work IV. Lintels, Doors windows, & circulation No of Lect. – 9, Marks: 12 Lintels: Types of lintel, detailing of R.C.C. lintel, precast lintel and stone lintel. Doors and windows: Type of each and circumference under which each is used, minimum area of window opening

for different climatic conditions, various material used for doors and window, fixtures and fastening used. I.S. notations for doors and windows Circulation: Horizontal and vertical, stair and staircase planning and design, types of staircase as per shape and

material used, type of circulation. Lifts, ramps & escalators. V. Floors, Roofs, Finishing & Building Services No of Lect. – 9, Marks: 12 Floor: Ground floor, upper floor, mezzanine floor, design and constructional requirements, various types of floor

finishes used, advantage and disadvantages, special flooring Roofs: Flat & Pitched roofs, Steel trusses: Types, Methods of connections, connecting materials.. Plastering & Painting: purpose, types, suitability of plastering & painting. Building Services: Plumbing, Sanitation, firefighting, Air conditioning & Acoustics.

. REFERENCE BOOKS

1. Building Construction by Rangwala- Published by Charotar Publishing House ISBN-13 9789380358482, ISBN-10 9380358482. 2. Building Construction by Sushil Kumar- Published by Standard Publishers Distributors, Publication Year2010, ISBN-13 9788180141683, ISBN-10 8180141683, Edition 19. 3. Building Construction by S.P. Bindra, S.P. Arora, Published by Dhanpat Rai Publications, Publication Year 2010, ISBN-13 9788189928803, ISBN-10 8189928805. 4. Building Construction by Ashok Kr. Jain, B. C. Punmia, Arun Kr. Jain, Published by Laxmi Publications, Publication Year 2009, ISBN-13 9788131804285, ISBN-10 8131804283, Edition 10thEdition.

17BTCE403 : Theory of structures- I 4 0 0 4


I SLOPE AND DEFLECTION OF DETERMINATE BEAMS (10 )

Concept of slope and deflection, derivation of formula for slope & deflection for standard cases, governing differential equation, Slope and deflection of beams by Macaulay‘s method, moment area method and conjugate beam method. STRAIN ENERGY METHOD: Castigliano‘s first theorem to determine slope and deflection of Determinate beams and frame. II ANALYSIS OF INDETERMINATE STRUCTURE: (10)

6

MIT SCHOOL OF ENGINEERING, PUNE Department of Civil Engineering Analysis of Propped cantilever, fixed beams by first and second principle, analysis of continuous by Clapeyron theorem. STRAIN ENERGY METHOD: Analysis of Propped cantilever and fixed beams, continuous beam by Castigliano‘s second theorem. III ANALYSIS OF PLANE TRUSSES (10)

Concept of energy theorem, principle of least work, Analysis of Determinate and indeterminate truss by unit load method. FINITE DIFFERENCE METHOD: Deflection problems of determinate beams by central difference method.

IV ANALYSIS OF ARCHES (10)

a) Three hinged arches: Concepts arches, types of arches, analysis of parabolic arch and semi-circular arches with supports at same and different levels, determination of horizontal thrust, radial shear and normal thrust for parabolic and circular arch. b) Two hinged arches: Analysis of parabolic and semi-circular arches with supports at same Level, determination of horizontal thrust, radial shear and normal thrust V STUDY OF INFLUENCE LINE DIAGRAM (8)

a) Influence line diagram for Determinate Beams: Influence line diagram for reaction, shear force and bending

moment to simply supported, overhanging and cantilever beams. b) Influence line diagram for Truss: Influence line diagram for axial force in members of truss. c) Muller Breslau’s principle: Beams with one degree of indeterminacy only. TEXT BOOKS:

1. Punmia B C, Jain A K and Jain A K. ―Strength of Materials and Theory of Structures‖ – Vol.2, Laxmi Publications, New Delhi, 1992. 2. Structural Analysis Vol-1, third edition, By S.S. Bhavikatti, Vikas publishing House, PVT, LTD. REFERENCES:

1. Basic Structural Analysis by C. S. Reddy, Second Edition, Tata Mc Graw Hill. 2. Structural Analysis by R. C. Hibbler, sixth edition, Pearson Education. 3. Intermediate Structural Analysis by C K Wang, Tata McGraw Hill.

17BTCE404 : Fluid Mechanics- I 4 0 0 4


I FLUID PROPERTIES AND FLUID STATIC (8) Fluid – definition, Fundamental concepts, fundamental definitions (system, control volume), fluids and solid - Units and dimensions – Physical Properties of fluids - density, specific weight, specific volume, specific gravity, temperature, viscosity, compressibility, vapor pressure, capillarity and surface tension - Fluid statics: concept of fluid static pressure, absolute and gauge pressures - pressure measurements by (various types of manometers, mechanical gauges, pressure transducers)- forces on planes – center of pressure – bouncy and floatation - Archimedes‘ Principle, buoyant forces, stability and equilibrium, metacenter of floating bodies, determination of metacentric height – analytical and experimental methods , determination of metacenter relative to center of buoyancy (concept), conditions of equilibrium of submerged and floating bodies. II FLUID KINEMATICS AND DYNAMICS (8) Examples of fluid motion, classification of fluid flow – stream line, streak line, path line, linear motion, angular motion, different types of flow, Continuity equation (three dimensional and one dimensional) – velocity potential function and stream function – flow net properties and its uses, basic potential flows – uniform, source, sink, vortex, Objectives of fluid dynamics, analysis of fluids in motion, complex fluid flows (intro), conservation of linear momentum (intro),

7

MIT SCHOOL OF ENGINEERING, PUNE Department of Civil Engineering equations of motions – Euler‘s equation, Bernoulli‘s equation and its applications – Venturimeter, Orificemeter, limitations of Bernoulli‘s equation

III FLOW THROUGH PIPES (8) Viscous flow (Reynold's experiment) - Laminar and turbulent flow - Reynold's number - critical flow - Navier-Stoke equations of motion - shear stress and pressure gradient - Laminar flow between parallel plates - Couette flow - Hagen Poiseuille equation for flow through circular pipes. Turbulence - semi empirical theories - Darcy - Weisbach's equation - pipe roughness -friction factor - Moody's diagram- Major and minor losses of flow in pipes - Pipes in series and in parallel - Equivalent length - Introduction to water hammer phenomena.

IV BOUNDARY LAYER (8) Ideal fluid flow - Boundary layer – definition- boundary layer on a flat plate – thickness and classification – displacement, energy and momentum thickness – Boundary layer separation and control - Uniform flow- source - sink- doublet - combination of flow patterns - uniform flow and source- flow around cylinder - flow with circulation - lift. Boundary layer - displacement and momentum thickness - development of flow in circular pipes - Von Karman momentum equation - Laminar and turbulent boundary layers on flat plates - Drag in flat plates, cylinders and spheres - Drag coefficients - Boundary layer control. V DIMENSIONAL ANALYSIS, SIMILITUDE AND MODEL ANALYSIS (8) Objectives, experiment and model study, dimensional analysis, dimensional homogeneity, importance of DA, Results from DA, Methods of DA, Applications of DA, Similitude: three conditions and similarity, Model Study: Purpose, types of models (distorted models), scale effect, design of a physical model – designing of physical model (site visit) TEXT BOOKS: 1. Modi P.N and Seth "Hydraulics and Fluid Mechanics including Hydraulic Machines", Standard Book House New Delhi. 2003 2. Ramamirtham, S., "Fluid Mechanics and Hydraulics and Fluid Machines", Dhanpat Rai and Sons, Delhi, 2001. 3. Bansal, R.K., ―Fluid Mechanics and Hydraulics Machines‖, 5th edition, Laxmi Publications Pvt. Ltd, New Delhi, 2008. REFERENCES: 1. Streeter, V.L., and Wylie, E.B., ―Fluid Mechanics‖, McGraw Hill, 2000. 2. Fox W.R. and McDonald A.T., Introduction to Fluid Mechanics John-Wiley and Sons, Singapore, 1995. 3. Jain A. K. "Fluid Mechanics", Khanna Publishers, 2010 4. Natarajan, M.K. Principles of Fluid Mechanics, Oxford & IBH Publishing Co, 1994. 5. Jagdish Lal, Hydraulics and Fluid Mechanics, Tata McGraw Hill, 2001.

17BTCE405 : Automated Surveying 3 1 0 4


I Fundamental Principle of Surveying (8)

Introduction :Compass and Chain Traversing, Levelling Applications and Curves, Theodolite Surveying and Tacheometry

Geodetic Surveying, Surveying Astronomy ,SBPS

Principle and Classification of triangulation system,Orders of triangulation- Triangulation figures- Station marks and signals- marking signals- Introduction to SBPS, SBPS systems Segments of SBPS.

II Remote sensing ,GIS & GPS (8) Remote sensing and GIS and GPS : Introduction, advantages over conventional system, Necessity, importance

Different applications ,function Applications of GIS Digital Image processing, its objectives. Introduction to LIDAR &

Underground utility Survey.

8

MIT SCHOOL OF ENGINEERING, PUNE Department of Civil Engineering III Trignometric Levelling, Modern Surveying Instruments (8) a) Trignometric Levelling - Terrestrial refraction, Angular corrections for curvature and refraction, Axis Signal correction, Determination of Difference in Elevation. b)Introduction, Electromagnetic spectrum, Electromagnetic waves and their properties, phase, phase comparison,

Modulation, Types [E.D.M.].,Total Station and its uses.

IV Triangulation Adjustment (8)

Kinds of errors, Laws of weights, Determination (MPV) ,Method of Least Squares, Indirect observations, Probable

error and its determination,Method of correlates. Station and figure adjustment of Geodetic Quadrilateral without

central station. Spherical triangle, Calculations of spherical excess and sides of spherical triangle.

V Aerial Photogrammetry and Hydrographic Surveying (8)

Object ,Elements of photogrammetery ,Classification , Mirror stereoscope, Introduction to digital photogrammetry

Hydrographic Surveying :Objects, applications, Establishing controls, Shore line survey, Sounding, Sounding

Equipment,Methods of locating soundings .

17BTCE411 : Fluid Mechanics Laboratory 0 0 2 1


Experiments:

1. Measurement of viscosity by Redwood viscometer.

2. Measurement of pressures using different pressure measuring devices (including transducers /state of arts digital instruments also).

3. Determination of stability of floating bodies using ship models. 4. Experimental verification of Bernoulli‘s theorem with reference to loss of energy 5. Calibration of Venturimeter / Orifice meter. 6. Drawing flow net by electrical analogy for flow below weir (with & without sheet pile)

7. Plotting the pattern of laminar flow using Reynolds apparatus or Heleshaw‘s

apparatus / Transition of Laminar and turbulent flow through pipes. 8. Determination of, minor loss in a pipe system/friction factor for a given pipe. 9. Flow around a Circular Cylinder/ airfoil 10. Study of Uniform Flow Formulae of Open channel/ Velocity Distribution in Open Channel Flow. 11. Calibration of Standing Wave Flume / Venturi flume or Study of Hydraulic Jump as Energy Dissipater. 12. Impact of Jet on flat plate and curved vane 13. Characteristics of a Pelton Wheel/Francis Turbine 14. Characteristics of a Centrifugal Pump

TEXT BOOKS:

1. Jagdish Lal, Hydraulics and Fluid Mechanics, Tata McGraw Hill, 2001. 2. Ven Te Chow, "Open Channel Hydraulics", McGraw Hill, New York, 2009. 3. Khurmi, R.S., Text Book of Hydraulics and Hydraulic Machine, S. Chand & Co, 2003. 4. Natarajan, M.K. Principles of Fluid Mechanics, Oxford & IBH Publishing Co, 1994.

REFERENCE BOOKS:

9


1. Modi P.N and Seth "Hydraulics and Fluid Mechanics including Hydraulic Machines", Standard Book House New Delhi. 2003

2. Fox W.R. and McDonald A.T., Introduction to Fluid Mechanics John-Wiley and Sons, Singapore, 1995. 3. White, F.M., ―Fluid Mechanics‖, Tata McGraw Hill, 5th Edition, New Delhi, 2003.

17BTCE412 Automated Survey Laboratory 0 0 2 1


It shall consist of the following practicals and project. (Any 12)

1. Determination of elevation of various points with dumpy level by collimation plane method and rise & fall

method

2. Measurement of bearings of sides of traverse with prismatic compass and computation of correct included

angle

3. Study of Theodolite. Measurement of horizontal and vertical angles with 1‖ theodolite.

4. Determination of elevation of inaccessible objects by Trigonometrical leveling. 5. Practical based on various special functions available in a total station such as

remote elevation measurements, remote distance measurements and co-ordinate stake out .

6. Establishing control station using single or dual frequency GPS receiver 7. Study and use of nautical sextant and measurement of horizontal angles 8. Solution to three point problem by analytical method 9. Study of Aerial photograph and finding out the scale of the photograph. 10. Determination of Air Base distance using mirror stereoscope. 11. Determinat on of differential elevation by differential parallax 12. Study and applications of different RS data products available with National Remote

Sensing Centre (NRSC) 14.Use of RS images and visual interpretation 15.Use of interface and tools in GIS software such as GRAM++ or QGIS or equivalent

software. Project:(any one)

1. Adjustment of Geodetic Quadrilateral without central station by method of correlates 2. Field survey (500 sq.m.) using Differential GPS (Control as well as mapping).

17BTCE420 : MINI PROJECT – II 0 0 4 2


1. Site visit to hydropower station/research institute 2. Assignment on GVF computation using any programming language/ MATLAB

TEXT BOOKS:

1. Jagdish Lal, Hydraulics and Fluid Mechanics, Tata McGraw Hill, 2001. 2. Ven Te Chow, "Open Channel Hydraulics", McGraw Hill, New York, 2009. 3. Khurmi, R.S., Text Book of Hydraulics and Hydraulic Machine, S. Chand & Co, 2003. 4. Natarajan, M.K. Principles of Fluid Mechanics, Oxford & IBH Publishing Co, 1994.

REFERENCE BOOKS:

1. Modi P.N and Seth "Hydraulics and Fluid Mechanics including Hydraulic Machines", Standard Book House New Delhi. 2003

2. Fox W.R. and McDonald A.T., Introduction to Fluid Mechanics John-Wiley and Sons, Singapore, 1995. 3. White, F.M., ―Fluid Mechanics‖, Tata McGraw Hill, 5th Edition, New Delhi, 2003.

10


17BTCE501 : Fluid Mechanics- II 3 1 0 4


I UNIFORM FLOW (8)

Open Channel Flow - Classification - Terminology - velocity distribution in open channels - Chezy, Manning and other formulae - Best hydraulic section - specific energy - specific force - hydraulic jump and its characteristics - types – Velocity measurement with Pitot tube, Prandtl Pitot tube and current meter - discharge measurement in pipe flow - venturimeter, mouthpiece, orificemeter, nozzlemeter, bendmeter and rotameter - discharge measurement in open channel flow - All types of notches and weirs, venturiflume - critical depth meter - basic principles. II NON-UNIFORM FLOW (8) Gradually varied flow - Dynamic equations of gradually varied and spatially varied flows - Water surface flow profile classifications: Hydraulic Slope, Hydraulic Curve - computation of surface profiles - Profile determination by Numerical method: Direct step method and Standard step method, Graphical method – Applications Application of the energy equation for RVF - Critical depth and velocity - Critical, Sub-critical and Super-critical flow - Application of the momentum equation for RVF - Energy dissipation - Surges and surge through channel transitions. Introduction to CFD. III HYDRAULIC MACHINERY (8) Impact of jet on a stationary vertical plate, stationary inclined plate, and stationary curved plate, moving vertical and inclined plates, moving curved plate and on series of moving flat and curved vanes fixed on the periphery of circular rim. IV TURBINES (8) Turbines - classification- impulse turbines - Pelton wheel - Reaction turbines - Francis and Kaplan Turbines - draft tubes - Governing of a Francis turbine - Performance of turbines - specific speed and their significance. V PUMPS (8) Centrifugal pump - description and working - Head, discharge and efficiency of a centrifugal pump - pressure rise in the pump - minimum starting speed of a pump - cavitation - priming - multistage pumps - characteristic curves. Reciprocating pump - Description and working - types - discharge and slip - power required to drive the pump - Indicator diagram - Air vessel - work done against friction with and without air vessels. Working principle and use of the following hydraulic pumps and machines - Deep well pumps - submersible and jet pumps, special pumps - Gear pump - screw pump, sewage pump, miscellaneous machines - Hydraulic press - hydraulic accumulator - Hydraulic ram.

TEXT BOOKS: 1. Jain. A.K., "Fluid Mechanics", Khanna Publishers, Delhi, 2010. 2. Modi P.N. and Seth S.M., "Hydraulics and Fluid Mechanics", Standard Book House, New Delhi, 2002. 3. Subramanya K., "Flow in open channels", Tata McGraw Hill, New Delhi, 2000. REFERENCES: 1. Ven Te Chow, "Open Channel Hydraulics", McGraw Hill, New York, 2009. 2. Bansal, R.K., A text book of Fluid Mechanics and Hydraulic Machines, Laxmi Publications (P) Ltd., New Delhi, 2002. 3. Nagaratnam, S., Fluid Machines and Systems, Tata McGraw Hill, 1989.

17BTCE502 : Theory of Structure-II 4 0 0 4


I SLOPE DEFLECTION METHOD: ( 10) a) Beams: Slope-deflection equations, equilibrium equation of slope-deflection method, Analysis of beams with and without joint translation and rotation. (Unknowns not more than three) b) Frames: Analysis sway and non-sway rigid jointed rectangular portal frames. (Unknowns not more than three)

II MOMENT DISTRIBUTION METHOD: (10)

11

MIT SCHOOL OF ENGINEERING, PUNE Department of Civil Engineering a) Beams: Stiffness factor, carry over factor, distribution factor, Analysis of beams with and without joint translation and yielding of support, application to Non-sway rigid jointed rectangular portal frames, shear force and bending moment diagram. . (Unknowns not more than three)

b) Frames: Analysis sway and non-sway rigid jointed rectangular portal frames. (Involving not more than three unknowns) III FLEXIBILITY METHOD (10)

a) Beams and Frames: Concept of flexibility method, flexibility matrix, flexibility method to beams and rigid jointed rectangular portal frames. (Unknowns not more than three) b) Trusses: Analysis to pin jointed plane trusses. (Unknowns not more than three) IV STIFFNESS METHOD: (10)

a) Beams: Concept of concepts of stiffness method, stiffness matrix, application of stiffness method to beams. (Unknowns not more than three) b) Frames: Analysis of rigid jointed rectangular portal frames. (Unknowns not more than three) V INRODUCTION TO FINITE ELEMENT METHOD (8)

Introduction, discretization of structure, elements-1D, 2D, 3D, isoperimetric and axisymmetric, Pascals triangle, direct stiffness method. Simple numerical by FEM TEXT BOOKS:

1. Punmia B C, Jain A K and Jain A K. ―Strength of Materials and Theory of Structures‖ – Vol.2, Laxmi Publications, New Delhi, 1992. 2. Structural Analysis Vol-1, third edition, By S.S. Bhavikatti, Vikas publishing House, PVT, LTD. REFERENCES:

1. Basic Structural Analysis by C. S. Reddy, Second Edition, Tata Mc Graw Hill. 2. Structural Analysis by R. C. Hibbler, sixth edition, Pearson Education. 3. Intermediate Structural Analysis by C K Wang, Tata McGraw Hill.

17BTCE503 : Public Health Engineering 4 0 0 4


I WATER SUPPLY: (08 )

Water demands and domestic use, variation in demands; population forecasting by various methods ,basic needs and factors affecting consumption; design period.

Sources of water: Surface & Ground water Sources, Quality of water, drinking water standards, Physical, Chemical and Bacteriological analysis of water.

Collection and conveyance of water: Intake works, conveyance of water, Economic size of rising main, friction formula

Pumping stations: Classification of pumps, selection of pumps, location of pumping station, head discharge characteristics, pump in series and pumps in parallel operation.

II TREATMENT OF WATER: (08)

12

MIT SCHOOL OF ENGINEERING, PUNE Department of Civil Engineering Necessity, Layout of water treatment plant, aeration, two film theory of gas transfer, types of aerators, theory of

coagulation and flocculation, , Design of mechanical flocculator , Theory of settling, Design of sedimentation tank,

filtration process, Hydraulics of flow through porous media, classification of filters. Design of rapid sand filter.

III DISINFECTION : (08 )

Methods of disinfection, physical & chemical disinfecantants, factors affecting disinfection, chemistry of chlorination.

Water softening- Lime soda process, recarbonation, ion exchange.

Miscellaneous treatments :removal of colour, taste and odour, iron and manganese.

IV ADVANCE WATER TREATMENT (08 )

Introduction to Packaged WTP, Microfiltration, Reverse Osmosis, Ultraviolet Light, desalination and

demineralization

Water distribution System: Different distribution system and their components ,ESR design ,Wastage of water

detection and prevention.

V ENVIRONMENTAL POLLUTION (08)

Sources, causes and effects of Soil pollution , Water pollution, Noise pollution

Air Pollution: Definition, Sources, Classification of air Pollutants, National ambient ,air quality standards, Lapse rate, Inversion, Plume behavior, Acid rain, Vehicular emission and its standards.

Basics of Environmental pollution: Algal blooms ,Carbon footprint ,Green house effect, Hazardous waste ,Incineration ,Landfill ,Oil spill.

TEXT BOOKS:-

1.Water Supply Engineering- Environmental Engg. (Vol. – I) by B.C. Punmia, Ashok Jain, Arun Jain, Laxmi Publications, New Delhi.

2. Environmental Engg. - A design Approach by Arcadio P. Sincero and Gregoria P. Sincero, Prentice Hall of India, New Delhi.

3. ―Environmental Engg.‖ By Howard S. Peavy, Donald R. Rowe & George Tchobanoglous, McGraw Hill, International Edition

4. Water Supply Engineering- Environmental Engg. (Vol. – I) by S.K. Garg, Khanna Publishers, Delhi.

REFERENCES:-

1. Water Supply and Sewerage by Steel EW and McGhee, Terence J.; McGraw Hill. 2. Manual of Water Supply and Treatment (3rd ed)- Ministry of Urban Development, New Delhi, 1991. 3. Water Treatment plant Design – American Society of Civil Engineering, McGraw-Hill Publisher, 1997. 8.

Water Supply and Sewerage - Steel and McGhee, McGraw Hill NY, latest ed

Water Quality and Treatment Handbook -American Water Works Association, McGraw-Hill Pub. 1999.

13


17BTCE504 : Transportation Engineering I 4 0 0 4


I HIGHWAY PLANNING AND ALIGNMENT (8) Different modes of transportation, historical Development of road construction, Highway Development in India,

Classification of roads, Road pattern, Highway planning in India, Highway alignment, Engineering Surveys for

alignment, Highway project.

II GEOMETRIC DESIGN OF HIGHWAYS (8) The highway crosses sectional elements, Sight Distance, Types of sight distances, Design of horizontal alignments,

Super elevation, Widening of Pavements on horizontal curves, transition Curves, Design of Vertical alignments,

Gradients, summit and Valley Curves.

III HIGHWAY MAINTENANCE AND PUBLIC TRANSPORTATION (8)

The importance of highway drainage, Surface Drainage, Subsurface drainage, Road construction in water logged

area, maintenance of various roads, History and present state of public transportation, the role of public

transportation in urban development, transit systems, route development.

IV TRAFFIC ENGINEERING (8) Traffic characteristic, traffic studies and analysis, traffic operation, traffic regulation, traffic control devices, design of intersection, design of parking facility, highway lighting, traffic planning, fundamentals of traffic flow.

V BRIDGE ENGINEERING (8) Types of bridges, suitability of different types of bridges for various spans, segmental bridges, continuous bridges,

arch bridges, cable suspended bridges, selection of bridge site, approaches, economical span of a typical bridge,

Discharge and Linear water way calculations, scour depth, IRC formula & IRC Specifications for Road Bridges,

Standards live loads, other forces on bridges, general design considerations.

TEXT BOOKS:

1. Principles of Highway Engineering and Traffic Analysis (4th

edition)- F. L. Mannering, Scott S. Washburn, Wiley India.

2. Principles and practices of Highway engineering– Dr. L.R. Kadiyali, Khanna Publishers Delhi.

3. Essentials of Bridge Engineering– D. Johnson and Victor, Oxford and IBH publishing co. Pvt. Ltd. , New Delhi.

4. Bridge engineering– S. Ponnuswamy, Tata Mc Graw Hill publishing co. Ltd. New Delhi. REFERENCE BOOKS:

1. A Course in Highway Engineering– S.P. Bindra, Dhanpat Rai and Sons, Delhi. Principles of Transportation Engineering, G.V. Rao Tata MacGraw Hill Publication

2. Principles and practice of Bridge Engineering, S.P. Bindra, Dhanpatrai and Sons, Delhi. 3. Bridge engineering– Rangawala, Charotar Publishing House, Anand, 388 001.

Codes: 1. I.S. 1201 TO 1220-1978, IS 73, IS 2386 PART I toV 2. I.R.C. 58, IRC37 3. Specifications for Road and Bridge works (MORTH)- IRC, New Delhi.

Hand Books: 1. Handbook of Road Technology_Lay M.G., Gorden Breach Science Pub.Newyork 2. Civil Engineering Handbook- Khanna S.K.

e-Resources: 1. www.nptel.iitm.ac.in/courses/iitkanpur 2. www.cdeep.iitb.ac.in/nptel

14


17BTCE505 : Project Management 3 1 0 4


I MANAGEMENT PROCESS (8) Roles.management theories . Social responsibilities. planning and strategic management strategy implementation . Decision making: tools and techniques — Organizational structure . Human resource management- motivation performance- leadership. II CONSTRUCTION PROJECTS: (8) Classification of Construction projects, Construction stages, Resources- Functions of Construction Management and its Applications .Preliminary Planning- Collection of Data-Contract Planning — Scientific Methods of Management: Network Techniques in construction management – Bar chart, Gant chart, CPM, PERT- Cost & Time optimization. III RESOURCE PLANNING (8) Planning for manpower, materials,costs, equipment. Labour,Scheduling .Forms of scheduling – Resource allocation. Budget and budgetary control methods IV CONTRACT (8) types of contract, contract document, specification, important conditions of contract — tender and tender document – Deposits by the contractor – Arbitration . negotiation – M.Book – Muster roll -stores. V MANAGEMENT INFORMATION SYSTEM : (8) Labour Regulations: Social Security – welfare Legislation – Laws relating to Wages, Bonus and Industrial disputes, Labour Administration – Insurance and Safety Regulations – Workmen‘s Compensation Act -other labour Laws – Safety in construction : legal and financial aspects of accidents in construction . occupational and safety hazard assessment. Human factors in safety. legal and financial aspects of accidents in construction . occupational and safety hazard assessment

TEXT BOOKS:

1. Ghalot, P.S., Dhir,D.M., Construction Planning and Management, Wiley Eastern Limited 2. Punmia,B,C., Project Planning and Control with PERT and CPM, Laxmi Publications, new delhi

REFERENCES:

1. Construction Management And Planning by: sengupta, b. /guha, h. tata mcgraw-hill publications. 2. Chitkara,K.K., Construction Project Management, Tata McGraw Hill Publishing Co, Ltd., New Delhi

17BTCE511 : Transportation Laboratory 0 0 2 1


Laboratory shall consist of the following:

Practicals: I. Tests on Aggregate (Any Six) :

1. Aggregate Impact Value Test 2. Aggregate Crushing Strength Test 3. Los Angeles Abrasion Test 4. Shape Test (Flakiness Index and Elongation Index) 5. Specific Gravity and Water Absorption Test by basket method 6. Stripping Value Test 7. Soundness Test

II. Tests on Bitumen (Any Five + No. 8 compulsory): 1. Penetration Test

15


2. Ductility Test 3. Viscosity Test 4. Softening Point Test 5. Flash Point & Fire Point Test 6. Specific Gravity Test 7. Bitumen Extraction Test 8. Marshall Stability Test

TEXT BOOKS



2. Highway engineering– S.K. Khanna and C.E.G. Justo, Nem Chand and Brothers, Roorkee Savitribai Phule Pune University Board of Studies in Civil Engineering B.E. Civil 2012 Course (w.e.f. June, 2015).


REFERENCE BOOKS:


2. Highway Engineering– Rangawala, Charotar publishing House, Anand 388001 (Gujrat)

3. Principles of Transportation Engineering– Partha Chakraborty ,Animesh Das, Prentice Hall of India Pvt. Ltd., New Delhi.

17BTCE512 : Public Health Engineering Laboratory- I 0 0 4 2


LIST OF EXPERIMENTS

Part A: Water Quality (Any 10)

1. Determination of turbidity. 2. Determination of pH and alkalinity 3. Determination of hardness. 4. Determination of chlorides. 5. Determination of residual chlorine. 6. Determination of coagulant dose - jar test. 7. Disinfection Dosage 8. Determination of MPN 9. Determination of Sodium 10. Determination Potassium present in water using flame photometer. 11. Determination of NOX,SO2 12. Determination of Ambient noise level

Part B: Water Quality (compulsory)

1. Site visit report to water treatment water treatment plants. 2. Design of WTP using software.

TEXT BOOKS:-

1.Water Supply Engineering- Environmental Engg. (Vol. – I) by B.C. Punmia, Ashok Jain, Arun Jain, Laxmi Publications, New Delhi.

2. Environmental Engg. - A design Approach by Arcadio P. Sincero and Gregoria P. Sincero, Prentice Hall of India, New Delhi.

REFERENCES :-

16


3. ―Environmental Engg.‖ By Howard S. Peavy, Donald R. Rowe & George Tchobanoglous, McGraw Hill, International Edition

4. Water Supply Engineering- Environmental Engg. (Vol. – I) by S.K. Garg, Khanna Publishers, Delhi

17BTCE520 : Mini Project –III 0 0 4

2


1. Technical visits to 1) Bridge site/Airport and 2) Hot mix Plant with detailed report.

TEXT BOOKS



2. Highway engineering– S.K. Khanna and C.E.G. Justo, Nem Chand and Brothers, Roorkee Savitribai Phule Pune University Board of Studies in Civil Engineering B.E. Civil 2012 Course (w.e.f. June, 2015).


REFERENCE BOOKS:


2. Highway Engineering– Rangawala, Charotar publishing House, Anand 388001 (Gujrat)

3. Principles of Transportation Engineering– Partha Chakraborty ,Animesh Das, Prentice Hall of India Pvt. Ltd., New Delhi.

17BTCE601 : Design of RCC Elements 3 2 0 4


I INTRODUCTION TO DESIGN METHODS: (12)

Concept of Elastic method, ultimate load method and limit state method – Advantages of Limit State Method over other methods – Design codes and specification – Limit State philosophy as detailed in IS code Design of beams by working stress method. II LIMIT STATE DESIGN FOR FLEXURE: (12)

Analysis and design of singly and doubly reinforced rectangular and flanged beams - Analysis and design of one way, two way and continuous slabs subjected to uniformly distributed load for various boundary conditions. III LIMIT STATE DESIGN FOR BOND, ANCHORAGE SHEAR & TORSION: (12)

Behaviour of RC members in bond and Anchorage - Design requirements as per current code, Behaviour of RC beams in shear and torsion - Design of RC members for combined bending shear and torsion IV DESIGN OF COLUMNS: (12)

Types of columns – Braced and unbraced columns – Design of short Rectangular and circular columns for axial, uniaxial and biaxial bending. V DESIGN OF FOOTINGS: (12)

17

MIT SCHOOL OF ENGINEERING, PUNE Department of Civil Engineering Design of axially and eccentrically loaded rectangular pad and sloped footings, Design of isolated column footing for axial load, uni-axial bending and bi-axial bending. TEXT BOOKS 1. Comprehensive Design of R.C. Structures by Punmia, Jain and Jain – Standard Book

House, New Delhi. 2. Illustrated Reinforced Concrete Design by Dr. V.L.Shah and Dr. S.R. Karve ‗Structures

Publications, Pune 411009 3. Reinforced Concrete Design by Varghese, PHI, and New Delhi

REFERENCE BOOKS

1. ‗RCC Analysis and Design: Sinha, S, Chand and Co. New Delhi. 2. Design of Reinforced Concrete Structures---Subramanian--- Oxford University Press 3―Illustrated Design of Reinforced Concrete Buildings (G+3) by Dr. V.L.Shah and Dr. S.R. Karve ―Structures Publications, Pune 411009 17BTCE602 : Waste Water Engineering 4 0 0 4


I DOMESTIC SEWAGE: (08 )

Quantity estimation, Sewerage systems, ultimate disposal of sewage and disposal standards. Sewer materials, choice of materials, Sewage conveyance - Sewer types and appurtenances. Velocity in sewers, Design of circular sanitary sewers. Storm water sewers - Storm water estimation by rational method, testing of sewer pipes, Pumping of sewage and types of pumps. II WASTE WATER TREATMENT: (08 )

Characteristics of waste water, flow sheet of conventional waste water treatment plant. Preliminary treatment: screens, grit chambers. Primary treatment - Sedimentation - rectangular and circular sedimentation tanks. Secondary treatment – filtration, design of trickling filter. Activated sludge process - design parameters, secondary clarifier. Tertiary Treatments for sewage, III AEROBIC AND ANAEROBIC (08)

Aerobic and anaerobic digestion, reactor types (such as UASB, Hybrid reactor) & factors affecting anaerobic digestion and sludge drying beds (excluding design) Sludge treatment, Sludge digestion and softening, and disposal methods - septic tanks- design parameters and working principles.

IV WASTEWATER TREATMENT (08)

Indian standards for disposal of treated wastewaters on land and in natural streams, Agricultural irrigation,

Ground water recharge, Treated wastewater reclamation and reuse, Introduction to duckweed pond, vermiculture

and root zone technology for wastewater treatment, Special treatments, Recent technologies of treatment.

V POLLUTION FROM MAJOR INDUSTRIES (08)

Study on wastewater generation points, wastewater characteristics, process flow sheets, treatment scheme for tannery, sugar, textile, steel, distillery, paper/ pulp and oil refinery industry wastewater.

Introduction to different treatment technologies of industrial waste water

18


TEXT BOOKS: 1. G.S. Birdi, Water Supply and Sanitary Engineering, Dhanpat Rai & Sons; 2002. 2. Garg, S.K., ―Environmental Engineering Vol. I & II‖, Khanna Publishers, New Delhi, 1994. 3. BC Punnia, ―Environmental Engineering Vol. I & II‖, Lakshmi Pub., 2002. 4. Peavy H.S, Rowe D.R and Tchobanoglous G, ――Environmental Engineering ― Tata McGraw Hill Publications,

New Delhi, 1985 REFERENCES:

1. .Metcalf & Eddy, M.C. ―Wastewater Engineering – Treatment & Reuse‖, Tata McGraw Hill Publications, New Delhi, 2003

2. ―Manual on Sewerage and Sewage Tretment‖, CPHEEO, Ministry of Urban Development, GoI, New Delhi 1993. 3. G.M. Fair, J.C. Geyer and D. Okun, ―Water and waste Engineering‖, vol. II, John Wiley & sons, Inc., New York.

1968 4. Fair, G.M. & Geyer, J.C. ―Water supply and Wastewater Disposal‖, John Wiley & Sons. 5. Dr. P.N. ModiVol I – Environmental Engineering II – Standard Publication. 6. Dr. A.G. Bhole – Design of Water Treatment Plant, IWWA, Nagpur centre.

17BTCE603 : Foundation Engineering 4 0 0 4


I SUB-SURFACE EXPLORATION (10)

Planning and stages in sub-surface exploration, depth and spacing of exploration, Methods of exploration, Test pit,

Trenches, Geophysical methods: Seismic refraction and Electrical resistivity method, Boring: Auger boring, Shell and

Auger, Wash boring and Rotary drilling, Types of soil sample: disturbed and undisturbed soil samples, Features of

sampler affecting soil disturbance, standard penetration test, static and dynamic cone penetration test, bore log

report.

II BEARING CAPACITY (10)

Introduction to Bearing capacity, its definition, types of shear failure, Bearing capacity of shallow foundation on

homogeneous deposits, Methods: Terzaghi‘s, Skempton‘s and BIS methods, Effect of water table on bearing

capacity, Plate load test, Bearing capacity from in-situ tests - SPT, SCPT and plate load test, methods of improving

bearing capacity of soil.

III FOUNDATION (10)

Types of foundation, contact pressure distribution below isolated footing, types and proportioning of combined

footing, types and application of mat foundation, floating foundation, Settlement: total and differential settlements,

causes and methods of minimizing settlement, concept of liquifaction. Consolidation - Introduction, spring analogy, Terzaghi‘s consolidation theory, Laboratory consolidation test, Determination of coefficient of consolidation- Square

root of time fitting method and logarithm of time fitting method. Time factor. Rate of settlement and its applications in

shallow foundation. Introduction of Normal consolidation, Over consolidation and preconsolidation pressure.

IV FOUNDATION TYPES (10)

Types and function of pile, factors influencing the selection of pile, carrying capacity of single pile in cohesionless and

cohesive soil, static formula, dynamic formulae (Engineering News and Hileys), Capacity from in-situ tests (SPT and

SCPT), Negative skin friction, Carrying capacity of Pile group, Pile load test, Under-reamed pile, Introduction to well

foundation and Diaphragm wall.

V INTRODUCTION TO SLOPES (8)

Introduction to slopes, Infinite and finite slopes, types of failure, causes of failure, Procedure for slip circle method and

method of slices, Indroduction to dewatering, scope and necessity of ground improvement in Geotechnical

Engineering, drainage: ground water lowering by well points deep wells, vacuum and electro-osmotic methods,

19

MIT SCHOOL OF ENGINEERING, PUNE Department of Civil Engineering stabilization by thermal and freezing techniques. Soil Reinforcement: Basic components and Mechanism of reinforced soil. Geosynthetics: type‘s, functional properties and requirements. Geosynthetic applications in Civil Engineering.

TEXT BOOKS:

1. Soil Mechanics and Foundation Engineering- Punmia B.C. (2005), 16th Edition Laxmi Publications Co , New Delhi.

2. Ranjan, G. and Rao, A.S.R. (2000), ‗Basic and Applied Soil Mechanics‘, New Age International Publishers, New Delhi.

3. Geotechnical Engineering; Braja, M. Das (2002), Fifth Edition, Thomson Business Information India (P) Ltd., India

REFERENCE BOOKS

1. Bowles, J.E. (1997). ‗Foundation Analysis and Design‘, The McGraw Hill Co., New York.

2. Principles of Soil Mechanics and Foundation Engineering-Murthy V.N.S. (1996), 4th

Edition, UBS Publishers and Distributors, New Delhi.

3. Singh, Alam (1992),‘ Modern Geotechnical Engineering‘, CBS Publishers, New Delhi.

4. Tomlinson, M.J. (1986), ‘Foundation Design and Construction‘, ELBS/Longman, Harlow.

5. Venkatramaiah, C. (1995., ‗Geotechnical Engineering‘, New Age International Publishers, New Delhi.

17BTCE604 : Transportation Engineering II 3 1 0 4


I INTRODUCTION TO RAILWAY: (8)

Permanent way components,Cross Section of Permanent Way Function of Various Components like Rails, Sleepers and Ballast, Gauge Creep of Rails – Theories related to Creep – Sleeper density. II GEOMETRIC DESIGN OF RAILWAY TRACK: (8) Gradients – Grade Compensation – Cant and Negative Super elevation – Cant Deficiency – Degree of Curve, Points and Crossing, Rail Joints & Welding of Joints, Railway station & yards, Signalising & interlocking. III AIRPORT ENGINEERING: (8) Airport Site selection – Runway Orientation – Basic Runway Length – Corrections for Elevation, Temperature – Airport Classification – Runway Geometric design – Factors Controlling Taxiway Layout – Terminal Area – Apron – Hangar – Blast Considerations, Typical Airport Layouts – Wind rose diagram – Runway Lightening system & Marking. IV PORT AND HARBOUR ENGINEERING : (8) Requirements of Port and Harbour, Classification of Port & Harbour, Features of a Harbour, Planning of Harbour, Breakwaters, Dry docks, Jetties, Aprons, Transit shed and Warehouses, Navigational aids, Maintenance of Port and Harbours, Inland Water Transport V INTELLIGENT TRANSPORT SYSTEMS : (8) ITS Definition, Benefits of ITS, user services, Detectors, Automatic Vehicle Location (AVL), Automatic Vehicle Identification (AVI), Introduction to ITS applications;Advanced Traffic Management systems (ATMS), Advanced Public Transportation systems (APTS), ITS architecture components and standards, Overview of ITS implementations in developed countries. TEXT BOOKS:

1. Satish Chandra and Agarwal, M.M (2007) ‗Railway Engineering‘ Oxford Higher Education, University Press New Delhi.

2. Airport Planning and Design – S.K.Khanna and M.G Arora, Nemchand Bros.

20


3. A Text book of Transportation Engineering – S.P Chandola – S Chand & Co Ltd (2001)

4. Transportation Engineering and Planning – C.S Papacostas, P.D Prevedouros. REFERENCE BOOKS:

1. A Text book of Railway Engineering – S.C.Saxena and S.Arora, Dhanpatrai and Spons, New Delhi. 2. Highway, railway, Airport and Harbour Engineering – K.P Subramanian. 3. Harbour, Dock and Tunnel Engineering – R. Srinivasan. 4. Dock and Harbour Engineering – Hasmukh P Oza, Gutam H oza.

17BTCE605 : Hydrology and Irrigation Engineering 3 0 0 3


I ENGINEERING HYDROLOGY: (9)

Definition and its applications, Hydrological Cycle, Hydrologic equation. Precipitation, Evaporation,

Evapotranspiration (Forms/Processes, factor affecting, measurement and estimation) and Infilteration indices,

Rainguage Network, Consistency test, Estimation of missing rainfall data, Preparation of Rainfall data, Hyetograph,

Mean Precipitation and Frequency analysis.

II HYDROGRAPHS: (8)

Typical flood Hydrograph, base flow separation, Unit hydrograph, S-curve hydrograph, Synthetic unit hydrograph and use of unit hydrograph.

RUN-OFF:

Factor affecting, estimation of runoff, Rainfall-Runoff co-relation Floods.

III ESTIMATION OF FLOOD AND FLOOD ROUTING (4)

Definition of flood, factors affecting flood, methods of estimation (envelope curves, empirical formulae,

rational method).Flood routing: Introduction to hydrological routing, relationship of out flow and storage,

general storage equation, flood control techniques, Brief description of flood routing.

IV IRRIGATION ENGINEERING (8)

Introduction, need for irrigation, advantages and disadvantages of irrigation, environmental impacts of irrigation, Systems of irrigation: Surface, Sub Surface irrigation, Sprinkler.

Present status and future requirements of irrigation in India. Soil-moisture and crop-water relations, Irrigation water quality, Consumptive use of water, Principal cropping seasons, Water demand assessment, Duty and Delta. Multiple cropping and hybrid crops.

Canal Irrigation: Types of canals, Parts of a canal irrigation system, Channel alignment, Assessment of water requirements, Design of channels – regime and tractive-force concepts.

V WATERSHED DEVELOPMENT MANAGEMENT (7)

Definition, Need and scope, characterization of watershed criteria survey, Basic data collection and interpretation, Establishment of watershed research stations, Erosion control

21

MIT SCHOOL OF ENGINEERING, PUNE Department of Civil Engineering Reservoir -definition, need, Classification of reservoirs, General principles of design, site selection, spillways, elevation – area - capacity - storage estimation, sedimentation - life of reservoirs – rule curve. TEXT BOOKS:

1. B. C. Punmia : Irrigation & Water Power Engg. 2. S. K. Garg : Irrigation & Water Power Engg. 3. Birdi G.S., DAS, R.C. : Irrigation Engg., Dhanpatrai & Sons.

REFERENCES: 1. Murthy, J.V.S., ―Watershed Management in India‖, Wiley Eastern Ltd., New York, 1995. 2. Subramanya .K. Engineering Hydrology- Tata McGraw Hill, 19991. 3. Dr. P. N. Modi : Irrigation Water Resources & Water Power Engg.

17BTCE611 : Structural Drafting Practice 0 0 2 1


LIST OF TUTORIALS

A) Design of residential/commercial/public building consist of following elements: 1. Design and detailing of reinforcement of all slabs with details calculations 2. Design and detailing of reinforcement of all beams with details calculation 3. Design and detailing of reinforcement of columns. 4. Design and detailing of reinforcement of columns and footing. 5. Reports of two site visits. (Building under construction) B) Design the above residential/commercial/public building by analysis and design software’s Reference Books 1. ‗RCC Analysis and Design: Sinha, S, Chand and Co. New Delhi. 2. Design of Reinforced Concrete Structures---Subramanian--- Oxford University Press 3―Illustrated Design of Reinforced Concrete Buildings (G+3) by Dr. V.L.Shah and Dr.

S.R. Karve ―Structures Publications, Pune 411009

17BTCE612 : Waste Water Engineering Lab – II 0 0 4 2


Part A: Waste Water Quality (any 08 )

1. Study of laboratory equipments and instruments. 2. Determination of total solids, total inorganic solids & total volatile solids. 3. Determination of D.O. 4. Determination of B.O.D. 5. Determination of C.O.D. 6. Determination of SVI. 7. Determination of conductivity 8. Determination of phosphates 9. Determination of Nitrates by spectrophotometer 10. Determination of heavy metals like Cr6+ or Zn or Ni or Cd 11. Determination of total nitrogen by kjeldal method

Part B: Waste Water Quality (compulsory)

1. Design of WWTP using software. 2. Visit to sewage treatment plants. 3. Visit to Common effluent treatment plants.

TEXT BOOKS:

1. G.S. Birdi, Water Supply and Sanitary Engineering, Dhanpat Rai & Sons; 2002.

22


2. Garg, S.K., ―Environmental Engineering Vol. I & II‖, Khanna Publishers, New Delhi, 1994. 3. BC Punnia, ―Environmental Engineering Vol. I & II‖, Lakshmi Pub., 2002. 4. Peavy H.S, Rowe D.R and Tchobanoglous G, ――Environmental Engineering ― Tata McGraw Hill Publications,

New Delhi, 1985 REFERENCES:

1. Metcalf & Eddy, M.C. ―Wastewater Engineering – Treatment & Reuse‖, Tata McGraw Hill Publications, New

Delhi, 2003 2. Manual on Sewerage and Sewage Tretment‖, CPHEEO, Ministry of Urban Development, GoI, New Delhi

1993.

17BTCE320 : Mini-Project-IV 0 0 4 2 CA : 100 Marks L T P C 1. Projects related to respective semester subjects will be conducted

17BTCE701 : Design of Steel Structures 3 1 0 4


I INTRODUCTION: (8) Types of steel structures, Advantages and Disadvantages of steel structures, various rolled steel sections, relevant

IS specifications such as IS:800-2007, IS:808-1989, IS:875 part I to III, SP: 6(1), SP: 6(6), IS:4000-1992,

Philosophy of limit state design for strength and serviceability, partial safety factor for load and resistance, various

design load combinations. Connection: Types of connection, modes of failure of connection, Types of bolts, nut and washer assembly,

stresses in bolts, Strength of bolt. Types of welds, failure of welded joints, Throat thickness, permissible stresses,

analysis of axially and eccentrically loaded connections, and design. Advantages and disadvantages of bolted and

welded connection

II TENSION MEMBER: (10) Common sections, net effective area of bar, angle, tees and flats. Load carrying capacity, connection of section to

gusset using weld / bolts. Design strength due to yielding, rupture and block shear. Analysis and Design of

Tension members using bolted/ welded connection.

III COMPRESSION MEMBER: (10) Common sections used in trusses, effective length and slenderness ratio, permissible stresses, Buckling

classification as per geometry of cross section, buckling curves, Load carrying capacity, connection of section to

gusset using weld / bolt. Analysis and design of struts in trusses using single and double angle section,

connections of members with gusset plate by bolts and welds. Analysis and design of axially loaded column.

IV BEAM COLUMN: (10) Beams: Classification of cross section such as plastic, compact, semi-compact and slender. Laterally supported

and unsupported beams, design of simple beam, built up beams using flange plates. Curtailment of flange plates,

web buckling and web crippling. Secondary and main beam arrangement, beam to beam connections.

23

MIT SCHOOL OF ENGINEERING, PUNE Department of Civil Engineering Beam Column: Analysis and design of eccentrically loaded column providing uniaxial and biaxial bending

(check for section strength only).

V TRUSS, COLUMN BASES : (10 ) Truss: Various component of an industrial shed, Types of trusses, load calculation and combination, design of

purlins, design of members, detailing of typical joints and supports, Design of hinge and roller supports. Column Bases : Slab base, Gusseted base and moment resisting bases, Design of anchor bolts, design

of pedestal. (axial load and uni-axial bending)

Practical:

1. Four full imperial size drawing sheet showing structural detailing of 16 sketches based on syllabus. (Hand

drawn)

2. Design of industrial building including roof truss, purlin, bracings, column, column base and connections.

(Analysis of roof truss by any suitable software/manual) Three full imperial size drawing sheets. (Hand

drawn)

3. Design of building including primary and secondary beams, column, column base

and connections. One full imperial size drawing sheets.

4. Two site visits: Report should contain structural details with sketches. TEXT BOOKS:

1. Design of Steel Structures, by S. K. Duggal, Tata Mc Graw Hill publishing company Ltd., New Delhi.

2. Design of Steel Structures, Vol- I & Vol-II by Ramchandra, Standard Book House,New Delhi

3. Design of Steel Structures, by Dayaratnam, Wheeler Publishing, New Delhi.

4. Design of Steel Structures, by A.S. Arya and J.L. Ajamani, Nemchand and Bros., Roorkee. REFERENCES:

1. Design of Steel Structures, by – E.H. Gaylord and C.N. Gaylord, Mc Graw Hill, New York.

2. Design of Steel Structures, Vol- I by J.E. Lothers, Prentice Hall New Jersy

3. Steel Structures: Design and Behaviour by C.G. Salmon and J.E. Johnson, Harper and Row, New York.

4. Design of Steel Structures, by N. Subramanian by Oxford University Press, Based on the limit state

method of design as per latest Indian standard code IS: 800 (2007).

17BTCE702 : Construction Management 3 1 0 4


I Construction Project (8)

Scope, Meaning and Definition of Construction Project, Project Categories, Characteristics of Projec t, Project Life Cycle and Phases, Project Management Functions, Roles of Project Manager II Planning for Construction Projects (8) Principles of Planning, Objectives, Resource Planning, Scheduling, Productivity chart, Project tracking

24


III Project Management through Networks, (8)

AOA and Precedence Networks, CPM, Pert, Critical Path, Slack, Floats, Probability of completion, Resource smoothening and resource leveling IV Earned Value Management- (8)

Meaning and definition, Earned value, cost performance index, schedule performance index, cost variances, schedule variance, Final Cost, Final Project Duration V Crashing of networks (8)

Direct cost, Indirect Cost , Normal cost, crash cost, cost-time optimization, Use of application software for Project Management

17BTCE703 : Quantity Surveying and Estimation 4 0 0 4


I ESTIMATE OF BUILDINGS

(8) Estimate Of Buildings- Load bearing and framed structures – Calculation of quantities of brick work, RCC, PCC,Plastering, white washing, colour washing and painting / varnishing for shops, rooms, residential building with flat and pitched roof – Various types of arches – Calculation of brick work and RCC works in arches – Estimate of joineries for panelled and glazed doors, windows, ventilators, handrails etc. II ESTIMATE OF OTHER STRUCTURES

(8) Estimate of other Structures -Estimating of septic tank, soak pit – sanitary and water supply installations – water supply pipe line – sewer line – tube well – open well – estimate of bituminous and cement concrete roads –estimate of retaining walls – culverts – estimating of irrigation works – aqueduct, syphon, fall III TENDERS (8) Specification And Tenders -Data – Schedule of rates – Analysis of rates – Specifications – sources – Detailed and general specifications – Tenders – Contracts – Types of contracts – Arbitration and legal requirements. IV VALUATION

(8) Valuation- Necessity – Basics of value engineering – Capitalised value – Depreciation – Escalation – Value of building – Calculation of Standard rent – Mortgage – Lease

V REPORT PREPARATION (8)

Report Preparation -Principles for report preparation – report on estimate of residential building – Culvert – Roads – Water supply and sanitary installations – Tube wells – Open wells. TEXT BOOKS:

1. Estimating and Costing by B.N.Dutta, UBBS Publishers.. 2. Estimating and Costing by G.S.Birdie. 3. Kohli, D.D and Kohli, R.C., ―A Text Book of Estimating and Costing (Civil)‖, S.Chand &

Company Ltd. REFERENCES:

25


1. Standard Schedule of rates and standard data book by public works department. 2. I.S. 1200 (Parts I to XXV – 1974/ method of measurement of building and Civil Engineering work – B.I.S) 3. Estimation, Costing and Specifications by M.Chakraborthi; Laxmi publications. 4. National Building Code.

17BTCE711 : Structural Laboratory 0 0 2 1


General:

This laboratory is concerned with the application of theory knowledge of Advanced Design of Steel structures ,

the students are advised to follow the list of tasks.

Student should be able to

1. Analyse and design Beam with web opening.

2. Analyse and design tubular structures.

3. Analyse and design transmission structure.

4. Analyse and design Hoarding structures.

5. Analyse and design PEB structures.

TEXT BOOKS:

1. Design of Steel Structures, by S. K. Duggal, Tata Mc Graw Hill publishing company Ltd., New Delhi.

2. Design of Steel Structures, Vol- I & Vol-II by Ramchandra, Standard Book House,New Delhi

3. Design of Steel Structures, by Dayaratnam, Wheeler Publishing, New Delhi.

REFERENCES:

5. Design of Steel Structures, by – E.H. Gaylord and C.N. Gaylord, Mc Graw Hill, New York.

6. Design of Steel Structures, Vol- I by J.E. Lothers, Prentice Hall New Jersy

17BTCE712 : Quantity Surveying and Estimation Laboratory 0 0 4 2

CA : 40 Marks FE : 60 Marks L T P C PRACTICAL – Minimum 8 practical assignments based 1. Preliminary estimate using Plinth area method. 2. Detailed estimate of Load bearing structure 3. Detailed estimate of Frame structure. 4. Calculation of steel with Bar bending Schedule. 5. Detailed estimate of earthwork of road for approximate 1km length. 6. Draft Detailed specification for 8 major items. 7. Analysis the unit rate of 8 major items of work contained. 8. Draft a short tender notice for proposed work. 9. Calculation of annual and total Depreciation and book value of the end of each year. 10. Fixation of standard rent of property. 11. Market survey for material and labour rates for various items.

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12. Detailed planning and estimate of plumbing work. 13. Detailed estimate of building using estimate software. TEXT BOOK

1. Estimating and Costing by B.N.Dutta, UBBS Publishers.. 2. Estimating and Costing by G.S.Birdie. 3. Kohli, D.D and Kohli, R.C., ―A Text Book of Estimating and Costing (Civil)‖, S.Chand &

Company Ltd. REFERENCES

1. Standard Schedule of rates and standard data book by public works department. 2. I.S. 1200 (Parts I to XXV – 1974/ method of measurement of building and Civil Engineering work – B.I.S) 3. Estimation, Costing and Specifications by M.Chakraborthi; Laxmi publications. 4. National Building Code.

17BTCE001 : Special Concrete 3 0 0 3


I COMPONENTS OF MODERN CONCRETE: (8 ) Components of modern concrete and developments in the process and constituent materials: Role of constituents, Development in cements and cement replacement materials, pozzolona, fly ash, silica fume, rice husk ash, recycled aggregates, chemical admixtures. Mix proportioning of Concrete: Principles and methods. II LIGHT WEIGHT CONCRETE: (8 ) Light Weight concrete: Introduction, classification, properties, strength and durability, mix proportioning and problems. High density concrete: Radiation shielding ability of concrete, materials for high density concrete, mix proportioning, properties in fresh and hardened state, placement methods. III FERRO CEMENT: (8 ) Ferro cement: Ferrocement materials, mechanical properties, cracking of ferrocement, strength and behaviour in tension, compression and flexure, Design of ferrocement in tension, ferrocement constructions, durability, and applications. IV FIBRE REINFORCED CONCRETE: (8) Fibre reinforced concrete: Fibre materials, mix proportioning, distribution and orientation, interfacial bond, properties in fresh state, strength and behaviour in tension, compression and flexure of steel fibre reinforced concrete, mechanical properties, crack arrest and toughening mechanism, applications. V HIGH PERFORMANCE CONCRETE: (8 ) High Performance concrete: constituents, mix proportioning, properties in fresh and hardened states, applications and limitations. Ready Mixed Concrete-QCI-RMCPC scheme requirements, Self Compacting Concrete, Reactive powder concrete, and bacterial concrete.

TEXT BOOKS:

1. Neville A.M, ―Properties of Concrete‖ Pearson Education Asia, 2000 2. P. Kumar Mehta, Paul J.N. Monterio, CONCRETE:Microstructure, Properties and Materials‖, Tata

McGraw Hill 3. A.R.Santhakumar, (2007) ―Concrete Technology‖-Oxford University Press,New Delhi, 2007 4. Gambhir ―Concrete Technology‖ TMH. 5. Short A and Kinniburgh.W, ―Light Weight Concrete‖- Asia Publishing House, 1963

27


REFERENCES:

1. Aitcin P.C. ―High Performance Concrete‖-E and FN, Spon London 1998 2. Rixom.R. and Mailvaganam.N., ―Chemical admixtures in concrete‖- E and FN, Spon London 1999 3. Rudnai.G., ―Light Weight concrete‖- Akademiaikiado, Budapest, 1963 http://qcin.org/CAS/RMCPC

17BTCE002 : Architechtural Planning 3 0 0 3


I PLANNING FOR RESIDENTIAL BUILDINGS (8) Introduction to building planning, Vastu shastra and architecture, Room planning, Living area, Drawing room, Office room, Guest room, Recreation room, Entrance Foyer, Bed room, bathroom and water closets, Service area, Kitchen, Storage, Garage, hostels, motels, Guest house. II PLANNING FOR MISCELLANEOUS BUILDINGS (PART I) (6)

Educational buildings, academic administrative block, common academics, General amenities, library, hospitals,

recreational buildings, sports theater, multiplex, swimming pool, gymnasium, community centre, rural housing,

religious buildings.

III PLANNING FOR MISCELLANEOUS BUILDINGS (PART II) (8)

Office buildings, Merchandise buildings, stores, shopping centers, shopping malls, markets, Industrial buildings,

buildings for record storage, museum and art galleries, railway stations, bus stations, television stations, radio

stations, Municipal buildings.

IV DEVELOPMENT PLANS, FORMULATION &

EVALUATION (8)

Scope and content of Regional Plan, Master Plan, Detailed Development Plan, Structure Plan, Sub Regional Plan, DCR planning and developments of industrial estates, SEZ, Development strategies, formulation and evaluation.

V SUSTAINABLE URBAN AND TRANSPORT PRINCIPLES

(6)

Urban Environmental Sustainability, Urban Sustainable Development, Methods and Tools for Sustainable Appraisal,

Sustainable Transportation - Principles, indicators and its implications Environment and Resources - Economic

Benefits of Sustainable Transportation

TEXT BOOKS:

1. Goel S.L Urban, ―Development and Management‖, Deep and Deep publications, New Delhi,2002. 2. Deodhar S.V., ―Building Science and Planning‖, Anna publishers, 2011.

REFERENCES:

1. CMDA, ―Second Master Plan for Chennai‖, Chennai 2008. 2. Singh V.B, ―Revitalized Urban Administration in India‖, Kalpaz publication, Delhi 2001. 3. Joe Ravetz, ―City Region 2020– Integrated Planning for a Sustainable Environment‖, 2000.

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4. Sustainable Transportation and TDM– Planning the balances, ―Economic, Social and Ecological objectives‖, Victoria Transport Policy Institute, 2007.

17BTCE003 : Construction Techniques and Equipment 3 0 0 3


I CONSTRUCTION EQUIPMENT

(8) economical considerations – earthwork equipment – Trucks and handling equipment – rear dump trucks – capacities of trucks. and handling equipment – calculation of truck production – compaction equipment – types of compaction rollers.

II FORM WORK (8)

Form work for R.C.C. Wall, slab, beam and column, centering for arches of large spans and dams, design features for temporary works, slip formwork, False work for Bridges.

III EARTHWORK

(8) Hoisting and earthwork equipment – hoists – cranes – tractors – bulldozers – graders – scrapers– draglines – clamshell buckets.

IV CONCRETING EQUIPMENT

(8) crushers jaw crushers – gyratory crushers – impact crushers – selection of crushing equipment – screening of aggregate – concrete mixers – mixing and placing of concrete – consolidating and finishing.

V CONSTRUCTION METHODS

(8) Earthwork – piling – placing of concrete – form work – fabrication and erection – quality control and safety engineering. TEXT BOOKS:

1. Construction Engineering and Management By S.Seetharaman 2. Construction Equipment and Its Management By S C Sharma 3. Construction Equipment By Jagdish Lal 4. Construction equipment and its planning and application By Mahesh Verma Metropolitan Book Co.,

REFERENCE BOOKS:

1. Building Construction by B.C.Punamia 2. Building Construction by S.C.Rangwala 3. Building Construction by Gurucharan Singh

17BTCE004 : Solid waste Management 3 1 0 4


I SOLID WASTE MANAGEMENT :

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MIT SCHOOL OF ENGINEERING, PUNE Department of Civil Engineering Solid waste management and organization, Public health and ecological impacts Sources, types, Quantity and

composition sampling physical, Chemical and Biological properties, integrated solid waste management, hierarchy of

waste management options, different methods for generation rates. Storage: movable bins, fixed bins. Collection:

home to home collection, community bin system.

II WATER TRANSPORT:

Collection, transportation optimization of routes, handcart, tri-cycle, animal cart, tripper truck, dumper placer, bulk refuse carrier, railroad transport, water transport, conveyors, layout of routes tools and Equipment, Transfer station, Volume reduction. size reduction equipment‘s, screening equipment‘s , densification.

III METHOD OF DISPOSAL:

Scientific method of disposal, Sanitary landfill, Site selection criteria, landfill layout, landfill sections, Occurrence of

gases and leachate in landfills: composition and characteristics, generation factors, initial adjustment phase,

transition phase, acid formation phase, methane formation phase, maturation phase of gases and leachate

Composting Incineration, anaerobic digestion.

IV WASTE MANAGEMENT I:

Electronic waste and Biomedical waste, Overview of solid waste management practices in India.Future processing method, pyrolysis, refuse derived fuel.

V WASTE MANAGEMENT II

Hazardous Waste Management Definition of Hazardous waste, U.S.E.P.A. classification, global scenario, episodes.

Hazardous waste (management and handling) rules, 1989 and Indian scenario. Sources of Hazardous waste,.

Sampling and analytical procedures. industrial waste management; reduction, Recycle, Reuse, Recovery and

Reporting; hazardous waste managemen

TEXT BOOKS:

1. Solid waste Management in Developing Countries – A.D. Bhide, B.B. Sudresan

2. Municipal Refuse Disposal – Institute of American Public Health Aoosication, Interstate Printer

and Publisher inc-Tanvil Elinoy. 3. Tchobanoglous, G., Theisen, H., & Vigil, S.A; Integrated Solid Waste Management: McGraw Hill, New York

REFERENCES:

1. Manual on Municipal solid Waste Management, CPHEEO, Govt. of India. 2. Guidelines for Management and Handling of Hazardous wastes MOEF (1991), Govt. of India. 3. Datta, M; Waste Disposal in Engineered Land fills, Narosa Publishers, Delhi. 4. Waste Management ―Asian and Pacific Center for Transfer of Technology (N.D.) India‖, September 1993.

17BTCE005 : OPERATIONS RESEARCH TECHNIQUES IN CONSTRUCTION 3 1 0 4

CA : 40 Marks FE : 60 Marks L T P C I SYSTEM CONCEPTS :

(8)

System Concepts, system parameters and objectives, system classification, system cycle, open and closed systems. Use of Operations Research in Civil Engineering and Managerial Decision making process.Identification of Civil

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MIT SCHOOL OF ENGINEERING, PUNE Department of Civil Engineering Engineering, Systems and their methods of analysis. Introduction to Optimization Techniques and their application in

Engineering Planning, Design and Construction. Various models; Objective function and constraints, convex and

concave functions, regions and sets,Mathematical representation of a system. Optimization techniques, various

models, objectives functions and constraints, convex and concave functions, regions and sets.

II LINEAR PROGRAMMING: (8)

Linear programming, two phase method, method of Big M, dual. Sensitivity analysis. Allocation problems,

Transportation problem, Assignment problem, Formulation of Linear optimization models, Civil engineering

applications. Simplex method, special cases in simplex method, Method of Big M, Two phase method, duality,

sensitivity analysis.

III NON-LINEAR PROGRAMMING

(8)

Non-Linear programming : unconstrained programming, One dimensional search techniques Dichotomous, Fibonacci and Golden section. Transportation Model and its variants, Assignment Model and its variants.

Multivariable problems, unconstrained, Gradient techniques, steepest ascent/descent technique, Newtons method, DFP method.

Games Theory.

IV CONSTRAINED OPTIMIZIATION

(8)

Constrained optimiziation Lagrangian multiplier technique, Kuhn Tucker‘s conditions. Penalty functions method. Dynamic programming: Multi stage decision processes, Principle of optimality, Recursive

equation, Application of D.P.Decision theory. Dynamics programming, principle of optimality. Stochastic methods : Queuing theory, simulation, sequencing. Capitalization, Annuity, Selection of project based on Benefit-cost Analysis. Gradient techniques, steepest ascent/decent technique, Newton‘s Method,Lagrange Multiplier Technique.

V NON-LINEAR PROGRAMMING (8)

Non-Linear programming: Single variable unconstrained optimization –Local & Global optima, Uni-modal Function- Sequential Search Techniques: Dichotomous, Fibonacci, Golden Section methods. Games Theory and its application

to construction Management. Replacement models.

TEXT BOOKS:

1. Engineering Optimazation Theory & Practice – S.S. Rao., Wiely. 2. Engineering Optimization—Methods and Applications—Ravindran,Wiely 3. Operations Research by J.K.Sharma

REFERENCE BOOKS:

1. Principles of Construction Management by R.Pilcher 2. Operations Management by E.S.Buffa 3. Principles of Operations Management by H.M.Wangner 4. Principles of Operation Research – Wagner, Prentice Hall.

17BTCE006 : HUMAN VALUES & PROFESSIONAL ETHICS 3 1 0 4

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I HUMAN

VALUES (08) Course Introduction – Need, Basic Guidelines, Content and Process for Value Education Understanding the need,

basic guidelines, content and process for Value Education Morals, Values and Ethics - Integrity - Work Ethic - Service

Learning - Civic Virtue - Respect for Others - Living Peacefully - caring - Sharing - Honesty - Courage - Valuing Time - Co-operation - Commitment - Empathy - Self-Confidence - Character – Spirituality- Method to fulfill the above

human aspirations: understanding and living in harmony at various levels

II ENGINEERING ETHICS (08)

Understanding Harmony in the Human Being-Senses of 'Engineering Ethics' - variety of moral issued - types of

inquiry - moral dilemmas - moral autonomy - Kohlberg's theory - Gilligan's theory - consensus and controversy -

Models of Professional Roles - theories about right action - Self-interest - customs and religion - uses of ethical

theories. Understanding harmony in the Family- the basic Module of human interaction

III ENGINEERING AS SOCIAL EXPERIMENTATION (08)

Understanding values in human-human relationship-Understanding the harmony in the society-Engineering as

experimentation - engineers as responsible experimenters - codes of ethics - a balanced outlook on law -Visualizing a

universal harmonious order in society- the challenger case study.

IV SAFETY, RESPONSIBILITIES AND RIGHTS (08)

Understanding the harmony in the Nature- self-regulation in nature-Safety and risk - assessment of safety and risk -

risk benefit analysis and reducing risk - the three mile island and case studies. Collegiality and loyalty - respect for

authority - collective bargaining - confidentiality - conflicts of interest - occupational crime - professional rights -

employee rights - Intellectual Property Rights (IPR) - discrimination.

V GLOBAL ISSUES

(08) Natural acceptance of human values Definitiveness of Ethical Human Conduct At the level of individual: as socially

and ecologically responsible engineers, technologists and managersMultinational corporations - Environmental ethics - computer ethics - weapons development - engineers as managers-consulting engineers-engineers as expert

witnesses and advisors -moral leadership-sample code of Ethics like ASME, ASCE, IEEE, Institution of

Engineers(India), Indian Institute of Materials Management, Institution of electronics and telecommunication

engineers(IETE),India, etc.

TEXT BOOKS :

1. Mike Martin and Roland Schinzinger, "Ethics in Engineering", McGraw-Hill, New York, 1996. 2. Govindarajan M, Natarajan S, Senthil Kumar V. S, "Engineering Ethics", Prentice Hall of India, New Delhi, 2004.

REFERENCES :

1. Charles D. Fleddermann, "Engineering Ethics", Pearson Education / Prentice Hall, New Jersey, 2004 (Indian Reprint) 2. Charles E Harris, Michael S. Protchard and Michael J Rabins, "Engineering Ethics - Concepts and Cases", Wadsworth Thompson Learning, Moduleed States, 2000 (Indian Reprint now available)

32

MIT SCHOOL OF ENGINEERING, PUNE Department of Civil Engineering 3. John R Boatright, "Ethics and the Conduct of Business", Pearson Education, New Delhi, 2003. 4. Edmund G

Seebauer and Robert L Barry, "Fundamentals of Ethics for Scientists and Engineers", Oxford University Press,

Oxford, 2001.

17BTCE007 : Ground Improvement Techniques 3 1 0 4


I INTRODUCTION : ( 8)

Need and objectives of ground improvement, classification of ground modification techniques , trends in ground improvement, Engineering properties of soft, weak and compressible deposits; Principles of treatment; Methods of compaction: Blasting, dynamic consolidation, pre-compression and compaction piles. II METHODS OF DEWATERING: ( 8)

open sumps and ditches, well point system, electro-osmosis, Vacuum dewatering wells; pre-loading without and with sand drains, strip drains and rope drains.

Stabilization: With admixtures like cement, lime,calcium chloride, fly ash and bitumen. Methods of soil improvement-lime stabilization and injection; thermal, electrical and chemical methods; III SOIL REINFORCEMENT: (8)

Reinforcing materials, concept of confinement, gabbion walls; Dynamic consolidation, Vibroflotation, Pre-consolidation with vertical drains, Granular piles, Soil nailing, Anchors & Thermal methods IV IMPROVEMENT OF FOUNDATION SOILS : (8)

(a) Improvement of granular soils: term used to describe degree of compactness –relative density, density ratio and degree of compaction;

Methods - Vibration at ground surface, factors influencing roller compaction; deep dynamic compaction, vibro-compaction impact at depth.

(b) Improvement of cohesive soils: preloading, or dewatering, methods of installing: sand drains, drain wicks, electrical and thermal methods. V GROUTING: ( 8)

Materials of grouting, grouting techniques and control; purpose, functions, types of grouts; soil bentonite - cement mix; Emulsions & solutions; grout injection methods; Geo-synthetics: types, functions & Classification of geo-textiles. Specific Applications: Bearing capacity improvement, reinforcement, Retaining walls, embankment etc. TEXT BOOKS:

1. ManfredR.Hansmann-Engineeringprinciplesofgroundmodification-Me.Graw-Hillpub. Co.,NewYork. 2. RobertM.Koerner-ConstructionandGeotechnicalmethodsinFoundationEngineering-

Mc.Graw-HillPub.Co.,NewYork.. 3. Winterkornand Fang - Foundation Engineering Hand Book - Van Nostrand Reinhold Co.,NewYork.

REFERENCE BOOKS:

1. Aris C.Stamatopoulos&PanaghiotisC.Kotzios-Soil Improvement by Preloading–John Wiley & Sons Inc.

Canada. 2. P.Purushothama Rao-Ground Improvement Techniques-Laxmi Publications.

17BTCE008 : Pre-Stressed Concrete 3 0 0 3

33


CA : 40 Marks FE : 60 Marks L T P C I ANALYSIS OF PRESTRESS CONCRETE: (8)

Principles of Prestressing, types and systems of prestressing, need for High Strength materials, Pretensioning and post tensioning systems, Analysis methods of losses, methods of stress calculations, and concept of cable layouts and camber, deflection (short-long term).

II TRANSFER OF PRESTRESS: (8 )

Transfer of prestressing force by bond in pretensioned members Transmission length - Factors affecting transmission length, check for transmission length, transverse tensile stresses - end zone reinforcement. Anchorage zone stresses in post-tensioned members, Calculation of bearing stress and bursting tensile forces - code provisions - Reinforcement in anchorage zone DESIGN FOR SHEAR AND TORSION: limit state shearing resistance of cracked and uncracked sections, design of shear reinforcement by limit state approach, Behaviour under torsion, design for combined torsion, shear and bending. III DESIGN OF PRESTRESS CONCRETE BEAM: (8)

Behaviour of flexural members, determination of ultimate flexural strength, Codal provisions -Design of flexural members, Design for shear, bond and torsion. Design of end blocks. Analysis and design of continuous beams - Methods of achieving continuity - concept of linear transformations, concordant cable profile Check for Deflection (short and long term deflection of uncracked and cracked members.) DESIGN OF PRESTRESS CONCRETE SLAB: Design of one way and two way post tensioned slabs IV DESIGN OF TENSION AND COMPRESSION MEMBERS: (8)

Design of tension members - application in the design of prestressed pipes and prestressed concrete cylindrical water tanks. Design of compression members with and without flexure - its application in the design piles, flagmasts and similar structures. V PRESTRESS CIRCULAR STRUCTURES (8)

Prestress circular tanks: Circular prestressing in liquid retaining tanks, analysis for stresses design of tank wall. Prestress circular pipe: Design of non-cylinder pipes. Other structures: Design of prestressed concrete columns, sleepers, poles. TEXT BOOKS:

1.Rajagopalan N, "Prestressed Concrete", Narosa Publishing House, New Delhi, 2002. 2. Krishna Raju N, "Prestressed Concrete", Tata McGraw Hill Publishing Company Ltd., New Delhi 1995 REFERENCES:

1. Lin T Y and Ned H Burns, "Design of Prestressed Concrete Structures", John Wiley and Sons, Newyork, 1982. 2. Sinha.N.C.and.Roy.S.K, ―Fundamentals of Prestressed Concrete‖, S.Chand and Co., 1998

17BTCE009 : Seismic Analysis 3 0 0 3


I INTRODUCTION: (8 )

34

MIT SCHOOL OF ENGINEERING, PUNE Department of Civil Engineering INTRODUCTION: Basic Concepts: Seismic performance of structures and structural components during

earthquakes; Ground motion parameters; Response spectrum, design spectrum . Earthquake parameters,

magnitudes, intensity, scales, classification of earthquake seismic zoning of India, seismic coefficients for different

zones, .Lessons from past earthquake: - Study of damages caused due to past, earthquakes in/ outside India and

remedial measures. comparative study of different national codes.

II INSTRUMENTATION: (8 )

Instrumentation: Earthquake recordings – principles and theory of seismograph; Various kinds of seismographs; Analog and digital recording, WWSSN, GDSM; Real time warning system; International monitoring system (IMS); Local seismological networks, strong motion networks and their engineering importance

III SEISMIC ANALYSIS OF BUILDINGS: (8 )

Seismic Analysis of Buildings: Equivalent static analysis, response spectrum analysis, mode superposition method; Time history analysis;

IV SEISMIC DESIGN OF BUILDING COMPONENTS: (8)

Seismic Design of Building Components:

Seismic resistant properties of reinforced concrete; Seismic behaviour and design of linear reinforced concrete elements; Seismic behavior of planar reinforced concrete elements, codal provisions.

V STRUCTURAL CONTROL: (8)

Structural Control: Historical development of structural control and base isolation, active control, passive control, hybrid control, semi active control; Application to new and existing buildings.

TEXT BOOKS:

1. Earthquake – Resistant Design of Building Structures-Dr. Vinod Hosur-- Wiley India 2. Lay Thorne and Wallance Terry C., ―Modern global seismology‖, Academic press. 1995 3. Bullen, K.E. and Bolt, B.A., ―An introduction to the Theory of Seismology‖, Fourth Edition, Cambridge

University Press, Cambridge.

REFERENCES: 1. Cook R D, Malkus D S, Plesha M E and Witt R J, ―Concepts and Applications of Finite Element Analysis‖,

John Wiley & Sons, 2004 . 2. Heubner K H and Thornton E A, "The Finite Element Methods for Engineers", John Wiley & Sons, 1982. 3. Kulhanek, O., ―Anatomy of Seismograms‖, Elsevier Science Publication. 1990

17BTCE010 : Disaster Management 3 0 0 3



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MIT SCHOOL OF ENGINEERING, PUNE Department of Civil Engineering Concepts and Components of Seismic Risk: Hazard, vulnerability, exposure and risk; Estimation of risk from components. Risk Estimation: Convolution of hazard, vulnerability and exposure to quantify risk, loss ratios, indoor

and outdoor casualty rates; Case studies of different projects- RADIUS, HAZUS, PAGER, GEM, EU-RISK.

II INSTRUMENTATION: (8)

Instrumentation: Earthquake recordings – principles and theory of seismograph; Various kinds of seismographs; Analog and digital recording, WWSSN, GDSM; Real time warning system; International monitoring system (IMS); Local seismological networks, strong motion networks and their engineering importance

III SEISMIC VULNERABILITY: (8 )

Seismic Vulnerability of Buildings and Lifelines: Empirical, analytical, experimental and hybrid approaches, building

typology, intensity scales, use of intensity scales for estimating seismic vulnerability, capacity spectrum method.

IV ASSESSMENT OF EXPOSURE: (8 )

Assessment of Exposure: Building stock inventory, sources of available information, census data, application of satellite imageries, stratified random sample survey, applications of GIS.

V DISASTER MITIGATION: (8)

Disaster Mitigation: Do‘s and don‘t about disaster, warning and evacuation, damage survey for designing aid

package and detailed survey for reconstruction, repair and retrofitting, post disaster surveys, survey proformas; Long

term measures- disaster resistant construction, codal practices, retrofitting cost-benefit analysis.

TEXT BOOKS:

1. Krammer, S. L., ―Geotechnical Earthquake Engineering‖, Pearson Education. 1996 2. Reiter, L. ―Earthquake Hazard Analysis, Issues and Insights‖, Columbia University Press. 2001 3. Coburn, A. and Spence R., ―Earthquake Protection‖, John Wiley and Sons, Ltd. 2002 4. McGuire, Robin K., ―Seismic Hazard and Risk Analysis‖, Earthquake Engineering Research Institute.

REFERENCES:

1. Andrew, C. and Spence, R., ‖Earthquake Protection‖, John-Wiley & Sons. 2002 2. Carter, W.N., ―Disaster Management: A Disaster Manager‘s Handbook‖, Manila, ADB. 2006 3. Sinvhal, A., ―Understanding Earthquake Disaster‖, McGraw Hill. 2011

17BTCE011 : Bridge Engineering 3 0 0 3



Introduction to bridge engineering, Definition and components of a bridge, layout and planning of a bridge, classification of bridge, preliminary data collection, Review of applicable design codes. Choice and type of a bridge hydraulic design of a bridge, Loads on bridges and force distribution traffic design. SUB-STRUCTURE AND BEARINGS: (8 )

36

MIT SCHOOL OF ENGINEERING, PUNE Department of Civil Engineering Forces acting on Piers and abutments Category of bearings – steel, rocker and roller bearings, reinforced concrete rocker roller bearings and elastomeric bearings. Different types of bearings, Design of bearings, Design of piers and abutments, Types of bridge foundations, Design of foundations. SUPERSTRUCTURE: analysis and design of right, skew and curved slabs

II REINFORCE CONCRETE BRIDGES: (8)

Classification of concrete bridges, Straight and curved bridge decks, decks of various types – slab hollow and voided slab bridge, reinforced concrete slab bridges, skew slab deck, RC tee beam and slab bridge, Continuous beam bridge, Fixed point method influence lines, Balanced Cantilever bridge, rigid frame bridge, box girder bridge, Bow string girder bridge. III PRESTRESSED CONCRETE BRIDGES: (8)

Concept of pre-tensioning and Post-tensioning, Pre-stressed concrete bridge, Analysis and design for static, moving and dynamic loading. IV STEEL BRIDGES (8)

Truss bridge, Plate Girder Bridge, box Girder Bridge, suspension bridge, cable stayed bridge Influence lines for forces in members, Analysis for static, moving and dynamic loading. V CONSTRUCTION AND MAINTENANCE: (8)

Methods of construction, short span, long span, false work for concrete bridges, inspection and maintenance of various types of bridges-Wooden Bridges, steel bridges, R.C.C. Bridges. TEXT BOOKS:

1. Raina V K ―Concrete Bridge Practice‖, Tata McGraw-Hill publishing co, New Delhi,. 2. Krishna Raju N, ―Design of Bridges‖, Oxford Publishing co Pvt. Ltd., New Delhi, 1998.

REFERENCES:

1. Ponnus wamy S, ―Bridge Engineering‖, Tata McGraw-Hill Pub co., New Delhi, 1986. 2. Johnson Victor D, ―Essentials of Bridge Engineering‖, Oxford & IBH publishing co. Pvt. Ltd., New Delhi, 1999

17BTCE012 : Economics, Business And Finance For Civil Engineering 3 0 0 3


I BASIC ECONOMIC PRINCIPLES THAT UNDERPIN CONSTRUCTION PROJECTS (08)

Supply:definition; factors affecting supply; supply curves; changes in supply Demand: definition; factors affecting

demand; demand curves; changes in demand; demand elasticity Markets: determination of the market equilibrium;

shortages and scarcity and their effect on price; price determination; changes in price; opportunity costs; consumer

choice; price mechanism; the four Ws (where, what, why and when) as applied to a construction product Types of

business: sole trader; partnership; public limited company; private limited company; partnership; housing

associations; non-profit-making organisations

II ECONOMIC RESOURCES FOR A TYPICAL CONSTRUCTION PROJECT (08)

Land: types; factors affecting price; factors affecting availability; location Capital: definition; specific capital; capital goods Labour: demographics of the working population; factors affecting availability; mobility of labour; factors affecting labour efficiency; the quality of labour; skills; incentives Entrepreneur: as risk taker; land developers;

37

MIT SCHOOL OF ENGINEERING, PUNE Department of Civil Engineering property developers; private investors; need for knowledge and foresight of the market Finance: types; availability; sources, eg EU finance, mortgages, venture capital, loans, lottery funding, reinvest profits, shares

III PLAN AND CONTROL CONSTRUCTION COSTS CONCEPT OF COST CONTROL (08)

History of cost control; need for cost control; main aims and objectives; budgeting; comparison of schemes; cost,

price and value; building cost price indices Cost planning: reasons for cost planning; cost value engineering;

budgeting; scheme appraisal; profit; sources of finance; techniques, eg elemental, comparative, approximate

quantities, cash flow forecasts Cost control techniques: standard techniques, eg cost value reconciliation, valuations,

financial statements and reports, real time costing, s-curves, coding data, resource allocated bar charts, costing

stages of construction; types of contract, eg design and build, partnering; effect of each on costs

IV FEASIBILITY STUDY FOR A SMALL CONSTRUCTION PROJECT BUDGETS: (08)

Preparation of preliminary estimates; land purchase price; cost of units; elements; measured; design costs;

construction costs; potential profit/loss Feasibility: factors relevant to a practical exercise on a given situation, eg

comparison of new scheme against historical project, floor areas, volumes, elements, price indexes, factors affecting

decision to proceed, interest rates, availability of finance, land availability, market, break-even point, cost of

borrowing, planning restrictions, brown field sites, redevelopment grants, EU grants, enterprise and action zones

V FINANCIAL MANAGEMENT: (08) Equipment economics: Equipment costs, Ownership and operating costs, Buy/Rent/Lease options, Replacement analysis.Cost estimating: Types of Estimates, Approximate estimates – Unit estimate, Factor estimate, Cost indexes, Parametric estimate, Life cycle cost.Financial management: Construction accounting, Chart of Accounts, Financial

statements – Profit and loss, Balance sheets, Financial ratios, Working capital management.

TEXT BOOKS:

1. Blank, L. T. and Tarquin,A. J.,―Engineering Economy‖, Fourth Edition, WCB/McGraw-Hill,1998. 2. Bose, D. C.,―Fundamentals of Financial management‖, 2nd ed.,PHI, New Delhi, 2010. 3. Boyer, C.B. and Merzbach, U. C.,―A History of Mathematics‖, 2nd ed., John Wiley & Sons, New York, 1989. 4. Gould, F.E.,―Managing the Construction Process‖, 2nd ed.,Prentice Hall, Upper Saddle River, New Jersey,

2002.

REFERENCES:

1. Gransberg, D. G.,Popescu, C. M. and Ryan, R. C.,―Construction Equipment Management for

Engineers,Estimators, and Owners, CRC/Taylor & Francis,Boca Raton, 2006.

2. Harris, F. , McCaffer, R. and Edum-Fotwe, F.,―Modern Construction Management‖, 6th

ed.,Blackwell Publishing, 2006.

3. Jha,K. N.,―Construction Project Management, Theory and Practice‖,Pearson, New Delhi, 2011. 4. Newnan, D. G.,Eschenbach, T. G. and Lavelle, J.P.,―Engineering Economic Analysis‖, Indian Edition, Oxford

University Press, 2010.

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s MIT SCHOOL OF ENGINEERING, PUNE · **Final Lab exam will be conducted with viva-voce of the...

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