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IFET COLLEGE OF ENGINEERING LESSON PLAN Format No.3b
Sub Code : ME2034Sub Name: Nuclear engineering Branch: Mechanical Engineering Semester : VIIUnit : ITitle: NUCLEAR PHYSICS
LP Rev. No: 02
Date: 28.4.2014
Page:01 of 06
Objective: To impart knowledge on basic nuclear physics namely atom, nucleus, binding energy, radio activity, models of nucleus.
SessionNo
Topics to be covered Period / Hours
Page. No Text/ Ref
Teaching Method
L T1 Introduction to nuclear physics -
protons, neutrons and electrons1 17-19 T(1) 1 GB/PPT
2 Isotopes, isobars, isotones, isomers, binding energy for fission and fusion
1 22-26 T(1) 1 GB/PPT
3Einstein's theory of relativity, Mass - Energy relationship, equivalence of mass and energy
130-33 ,37
T(1) 1 GB/PPT
4 Radioactivity - alpha decay, gamma radiation, beta decay
1 39,639T(1) 1 GB/PPT
5Nuclear models - liquid drop model, independent particle model, the shell model
1 639T(1) 1 GB/PPT
6Vibration model, the rotational model, the Nilsson model, the generalized shell model
1 639T(1) 1 Innovative Methodology
7 Neutron interactions 1 8-19R(2) 2 GB/PPT
8 Neutron cross section, cross sections for mixtures
1 30T(1) GB/PPT
9 Reaction rate, average cross section 1
42-
45T(1),133-
142T(1)
1 GB/PPT
Evaluation : IA –I and Model Exam
IFET COLLEGE OF ENGINEERING LESSON PLAN Format No.3b
Sub Code : ME2034Sub Name: Nuclear engineering Branch: Mechanical Engineering Semester : VIIIUnit – IITitle: NUCLEAR REACTIONS AND REACTION MATERIALS
LP Rev. No: 02
Date: 28.4.2014
Page:02 of 06
Objective: To impart knowledge on nuclear fission and fusion, nuclear fuel cycles, uranium production and purification.Session
NoTopics to be covered Period / Hours Page. No Text
/ Ref Teaching MethodL T
10 Mechanism of nuclear fission 1 160-161T(1) 1 GB/PPT
11 Mechanism of nuclear fusion 1 164-172T(1) 1 GB/PPT
12 Chain reactions 1 178T(1) 1 Innovative Methodology
13 Critical mass and composition 1 187-200T(1) 1,2 GB/PPT
14 Nuclear fuel cycles 1 104-132T(1) 1 GB/PPT15 Uranium production 1 104-132T(1) 1 GB/PPT16 Uranium purification 1 229T(1) 1 GB/PPT17 Other nuclear fules - Zirconium 1 246-248T(1) 1 GB/PPT18 Vane and Piston motors 1 251-260T(1) 1 GB/PPT
Evaluation : IA –I and Model Exam
IFET COLLEGE OF ENGINEERING LESSON PLAN Format No.3b
Sub Code : ME2034Sub Name: Nuclear engineering Branch: Mechanical Engineering Semester : VIIUnit – IIITitle: REPROCESSING
LP Rev. No: 02
Date: 28.4.2014
Page:03 of 06
Objective: To gain the knowledge on nuclear fuel reprocessing, spent fuel characteristics, solvent extraction equipment.
SessionNo
Topics to be covered Period / Hours Page. No Text/ Ref
Teaching MethodL T
19 Nuclear fuel reprocessing – introduction
1 278 T(1) 1 GB/PPT
20 Separation technologies - water and organic solvents
1 280 T(1) 1 GB/PPT
21 Pyro processing 1 291 T(1) 1 Innovative Methodology
22 Spent fuel characteristics - spent fuel decay heat
1 300 T(1) 1 GB/PPT
23 Fuel composition, long time radioactivity
1 555 T(1) 1 GB/PPT
24 Spent fuel corrosion, disposal 1 556 T(1) 1 GB/PPT
25 Role of solvent extraction in reprocessing
1 397 T(1) 1 GB/PPT
26 Solvent extraction equipment - mixture settlers
1 408 T(1) 1 GB/PPT
27 Columns, centrifugal contactors 1 408 T(1) 1 GB/PPTEvaluation : IA –I and Model Exam
IFET COLLEGE OF ENGINEERING LESSON PLAN Format No.3b
Sub Code : ME2034Sub Name: Nuclear engineering Branch: Mechanical Engineering Semester : VIIUnit – IVTitle: NUCLEAR REACTOR
LP Rev. No: 01
Date: 28.4.2014
Page:04 of 06
Objective: To impart knowledge on fast breeding reactors, reactor shielding and fusion reactors.
SessionNo
Topics to be covered Period / Hours
Page. No
Text/ Ref
Teaching Method
L T28 Nuclear reactors - Introduction 1 468
T(1)1 GB/PPT
29 Types of fast breeding reactors - gas cooled, sodium cooled, lead cooled
1 470 T(1) 1 GB/PPT
30 Fast breeding reactors - Design and construction
1 342 T(1) 1 GB/PPT
31 Reactor - pumps, heat exchanger 1 344 T(1) 1 Innovative Methodology
32 Reactor - steam generators, turbines 1 339 T(1) 1 GB/PPT
33 Heat transfer techniques in nuclear reactors 1 559 T(1) 1 GB/PPT
34 Reactor shielding - principle, types 1 560 T(1) 1 GB/PPT35 Fusion reactors - Introduction 1 561 T(1) 1 GB/PPT
36 Fusion reactors - working principle and types
1 562-564 T(1) 1 GB/PPT
Evaluation : IA –II and Model Exam
IFET COLLEGE OF ENGINEERING LESSON PLAN Format No.3b
Sub Code : ME2034Sub Name: Nuclear engineering Branch: Mechanical Engineering Semester : VIIUnit – VTitle: SAFETY AND DISPOSAL
LP Rev. No: 01
Date: 28.4.2014
Page:05 of 06
Objective: To impart knowledge on nuclear plant safety and nuclear waste disposal.
SessionNo
Topics to be covered Period / Hours
Page. No
Text/ Ref
Teaching Method
L T37 Nuclear plant safety - Introduction 1 320 1 GB/PPT
38 Safety systems 1 321 2 GB/PPT
39 System changes and consequences of accidents
1 571 1 GB/PPT
40 Criteria for safety 1 572 1 GB/PPT41 Nuclear waste types 1 573 1 GB/PPT
42 Nuclear waste disposal 1 577 1 GB/PPT
43 Radiation hazards - types 1 581 1 Innovative Methodology
44 Prevention of radiation hazards 1 587 1 GB/PPT45 Weapons proliferation 1 436,458 1 GB/PPT
Evaluation : IA –III and Model Exam
* GB – Green Board PPT – Power Point Presentation
Course Delivery Plan:
Week 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
Units I I I I I I I V V
Content beyond the Syllabus:
1. Fusion and Plasma Physics – MIT 2. Nuclear Systems Design Project (Fall 2011) - MIT
3. Neutron Interactions and Applications - MIT
TEXT BOOKS:
T1. Thomas J.Cannoly, “Fundamentals of nuclear Engineering” John Wiley 1978.
IFET COLLEGE OF ENGINEERING LESSON PLAN Format No.3bREFERENCES:
R1. Collier J.G., and Hewitt G.F, “Introduction to Nuclear power”, Hemisphere publishing, New York. 1987R2. Wakil M.M.El., “Power Plant Technology” – McGraw-Hill International, 1984.
Websites / Web courses: :
1. http://ocw.mit.edu/courses/nuclear-engineering/
Videos:
TOPICS FOR INNOVATIVE TEACHING:
Unit 1:
Unit 2:
Unit 3:
Unit 4:
Unit 5:
Prepared by Approved by
Signature
Name P.Kalaiselvan / K.Madheswaran Mr.V.Velmurugan
Designation Associate Professor / Assistant Prof. H.O.D / Mech
Date
IFET COLLEGE OF ENGINEERING LESSON PLAN Format No.3b
ME2034 NUCLEAR ENGINEERING L T P C
3 0 0 3OBJECTIVES:
9Basic Principles of maintenance planning – Objectives and principles of planned maintenance activity – Importance and benefits of sound Maintenance systems – Reliability and machine availability – MTBF, MTTR and MWT – Factors of availability – Maintenance organization – Maintenance economics.
9Maintenance categories – Comparative merits of each category – Preventive maintenance, maintenance schedules, repair cycle - Principles and methods of lubrication – TPM.
9Condition Monitoring – Cost comparison with and without CM – On-load testing and offloadtesting – Methods and instruments for CM – Temperature sensitive tapes – Pistol thermometers – wear-debris analysis
9Repair methods for beds, slide ways, spindles, gears, lead screws and bearings – Failureanalysis – Failures and their development – Logical fault location methods – Sequentialfault location.
9Repair methods for Material handling equipment - Equipment records –Job ordersystems -Use of computers in maintenance.
TOTAL: 45 PERIODSTEXT BOOKS:1. Srivastava S.K., “Industrial Maintenance Management”, - S. Chand and Co., 19812. Bhattacharya S.N., “Installation, Servicing and Maintenance”, S. Chand and Co.,1995REFERENCES:1. White E.N., “Maintenance Planning”, I Documentation, Gower Press, 1979.2. Garg M.R., “Industrial Maintenance”, S. Chand & Co., 1986.3. Higgins L.R., “Maintenance Engineering Hand book”, McGraw Hill, 5th Edition, 1988.4. Armstrong, “Condition Monitoring”, BSIRSA, 1988.5. Davies, “Handbook of Condition Monitoring”, Chapman &Hall, 1996.6. “Advances in Plant Engineering and Management”, Seminar Proceedings - IIPE,1996.
IFET COLLEGE OF ENGINEERING LESSON PLAN Format No.3b
This course is intended to understand the engineering design of nuclear power plants using the basic principles of reactor physics, thermodynamics, fluid flow and heat transfer. This course includes the following: Reactor designs, Thermal analysis of nuclear fuel, Reactor coolant flow and heat transfer, Power conversion cycles, Nuclear safety and Reactor dynamic behavior.
This course covers the engineering principles of nuclear reactors, emphasizing power reactors. Specific topics include power plant thermodynamics, reactor heat generation and removal (single-phase as well as two-phase coolant flow and heat transfer), and structural mechanics. It also discusses engineering considerations in reactor design.