Curriculum Vitae Dr. Sanjay Professor

Mechanical Engineering Department N.I.T. Jamshedpur

E-mail- sanjay.me@nitjsr.ac.in , ritsanjay@yahoo.com Phone: +91-943073551 (M) Fax: +91-657-2373813 Address for Communication :

Dr. Sanjay Professor

Mechanical Engineering Department National Institute of Technology Jamshedpur

Jamshedpur-831014, Jharkhand., India Date of Birth: July 01, 1969

Areas of Interest: Thermodynamics of Energy Conversion Systems

Gas Turbines based Power Utilities

Energy-Exergy-Emission analysis of Power Cycles

Inspection of Process Machines and equipments

Welding Inspection, Non-Destructive Testing(X-Ray, Ultra-sonic, MPI)

Reliability Analysis of Plant & Machinery Educational Qualifications:

Schooling: Examination/Degree Year Subjects/Discipline

School / College Institution/Board

Xth- ICSE 1985 Hindi, English, St. Joseph’s

College, Allahabad

CICSE Board, New Delhi Science, Math,

His&Geoaphpy XII th- ISCE 1987 Hindi, English, St. Joseph’s

College, CICSE Board, New Delhi

Physics,

Chemistry, Math

Page 2 Curriculum Vita of Prof. Sanjay

University: Examination/Degree Year Subjects/Discipline % Marks, Institution/University

Division

B.E. 1993 Mechanical Engineering 66%, I

st (Class) Gulbarga University, Gulbarga

M.E. (Design of Process Machines) 1998

Mechanical

Engineering 69%, Ist (Class) M.N.R.E.C.Allahabad

(Allahabad University)

Ph.D. 2005 Mechanical Engg- Thermal

N.A

Uttar-Pradesh Technical University,

Lucknow Ph.D. Thesis: “Thermodynamic Analysis of Gas/Steam Combined Cycle and Cogeneration

Plants”.

M.Eng. Thesis: “Software Development for Design of Steam Surface Condenser”

Employment Details:

Summary of Employment details

S.No Position Held Employer Period

(approx)

Remarks

1. Professor National Institute of

Technology, Jamshedpur

Since March

2008 and

continuing

Joined as Assistant

Professor(2000),

promoted to Associate

Professor in 2006 and

further promoted to

Professor

2. Inspection

Engineer

Tata Projects Ltd., Hyderabad 1.5 years Third party

inspection of eqpt.

worth approx.

US$ 400000

3. Senior

Engineer,

Inspection

Triveni Engg. And Ind. Ltd.

New Delhi

2.5 Years Inspection of Steam

turbines

4. Engineer

(Petroleum

Pipelines)

Punj Lloyds Ltd., New Delhi 1 Year Inspection of cross-

country buried

petroleum pipeline

worth US$ 100000

5. Assistant

Engineer

Syner India Ltd. New Delhi 1 Year Started working

from August 1993

Courses Lectured: (a) U.G. Level: Internal Combustion Engines, Gas Turbines, Refrigeration, Air-conditioning,

Page 3 Curriculum Vita of Prof. Sanjay

Combustion, Production Planning and Control, CAD, CAM, Computer Programming Internet

Technology, Engineering Drawing, Engineering Graphics. (b) P.G. Level: I.C. Engines, Advanced Energy Conversion, Programming in High Level Languages,

CAD, CAM, Direct Energy Conversion Systems

RESEARCH/SCHOLARLY ACTIVITIES:

Research Papers:

Engaged in cutting edge academic research work and have published 40+ papers with the

prestigious ASME International, Elsevier journals, Wiley journals and many other

prestigious international level journals.

Details of Publications in Refereed Journals / Conference Proceedings:

Papers in International Journals (SCI/Scopus):

Summary of Indexing Status of Published Research Articles (AS ON Dec 2017):

S.

No.

Name of the Journal Publisher

No. of

articles

Indexing Status

Science

Citation

Indexed

(SCI)

Scopus

Indexed

Science

Citation

Indexed-

Extended

(SCI-E )

1 ENERGY ELSEVIER 9 YES YES YES 2 Journal of the Energy Engineering ASCE 1 YES YES YES 3 International Journal of Hydrogen

Energy ELSEVIER 3 YES YES YES

4 Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy

IMech, UK, SAGE

2 NO YES YES

5 Journal of the Energy Institute ELSEVIER 4 NO YES YES 6 International Journal of Thermal

Sciences ELSEVIER 1 NO YES YES

7 Arabian Journal of Science and Engineering

SPRINGER 2 NO YES YES

8 Journal of Energy in Southern Africa SPRINGER 1 NO YES YES 9 INTERNATIONAL JOURNAL OF

ENERGY RESEARCH WILEY 2 NO YES YES

10 Journal of Engineering, Design and Technology

EMERALD 1 NO YES NO

11 SAE Technical Paper SAE INTL. 4 NO YES NO 12 Applied Thermal

Engineering ELSEVIER 2 NO YES YES

13 Energy Procedia ELSEVIER 1 NO YES NO

14 Journal of Cleaner Production

ELSEVIER 1 YES YES YES

TOTAL 34 (Thirty four)

Page 4 Curriculum Vita of Prof. Sanjay

ResearchGate Score: 28.58

i10 index : 10

h-index : 10

Details of Research Article Published Cited/Year

Influence of different means of turbine blade cooling on the thermodynamic performance of

combined cycle

Sanjay, O Singh, BN Prasad

Applied Thermal Engineering 28 (17-18), 2315-2326

92 2008

Energy and exergy analysis of steam cooled reheat gas-steam combined cycle

Sanjay, O Singh, BN Prasad

Applied Thermal Engineering 27 (17-18), 2779-2790

88 2007

Comparative performance analysis of cogeneration gas turbine cycle for different blade

cooling means

Sanjay, O Singh, BN Prasad

International Journal of Thermal Sciences 48 (7), 1432-1440

55 2009

Energy and exergy analysis of intercooled combustion-turbine based combined cycle power 25 2013

Page 5 Curriculum Vita of Prof. Sanjay

plant

Sanjay, BN Prasad Energy 59, 277-284

Thermodynamic assessment of impact of inlet air cooling techniques on gas turbine and

combined cycle performance

AK Mohapatra, Sanjay International Journal ENERGY http://www.sciencedirect.com …

20 2014

Comparative evaluation of gas turbine power plant performance for different blade cooling

means

Sanjay, O Singh, BN Prasad

Proceedings of the Institution of Mechanical Engineers, Part A: Journal of …

19 2009

Thermodynamic modelling and simulation of advanced combined cycle for performance

enhancement

Sanjay, O Singh, BN Prasad

Proceedings of the Institution of Mechanical Engineers, Part A: Journal of …

18 2008

Computational analysis of IR-SOFC: Transient, thermal stress, carbon deposition and flow

dependency

C Tushar, Sanjay, International Journal of Hydrogen Energy 41 (24), 10212–10227

13 2016

Comparative analysis of inlet air cooling techniques integrated to cooled gas turbine plant

AK Mohapatra, Sanjay

Journal of the Energy Institute, an Elsevier Journal 88 (Issue 3), 344–358

11 2015

Analysis of parameters affecting the performance of gas turbines and combined cycle plants

with vapor absorption inlet air cooling

AK Mohapatra, Sanjay,International Journal of Energy Research 38 (2), 223-240

11 2014

Computational analysis of IR-SOFC: Thermodynamic, electrochemical process and flow

configuration dependency

C Tushar, Sanjay International Journal of Hydrogen Energy 41 (2), 1259–1271

10 2016

Investigation of the effect of air film blade cooling on thermoeconomics of gas turbine based

power plant cycle

MK Sahu, Sanjay, ENERGY 115, 1320-1330

8 2016

Page 6 Curriculum Vita of Prof. Sanjay

Comparative exergoeconomic analysis of basic and reheat gas turbine with air film blade

cooling

MK Sahu, Sanjay, Energy 132, 160-170

6 2017

Energy and Exergy Analysis of Brayton-Diesel Cycle

Sanjay, A Mukul, Rajay, Proceedings of the 2009 World Congress on Engineering, London 2 (1),

1-6

6 2009

Thermodynamic assessment of advanced SOFC-blade cooled gas turbine hybrid cycle

T Choudhary, Sanjay, International Journal of Hydrogen Energy 42, 10248-10263 5 2017

Thermodynamic analysis of effect of blade cooling methods on air humidifier integrated gas

turbine cycle

AK Mohapatra, Sanjay, L Prasad, Journal of the Energy Institute 85 (2), 61-69

5 2011

Exergoeconomic investigation of power utility based on air film blade cooled gas turbine cycle

MK Sahu, Sanjay, Applied Thermal Engineering 122, 738–746 4 2017

Application of CAD and Reverse Engineering Methodology for Development of Complex

Assemblies

Sanjay, Anjani Kumar, Abdul Afeez, Journal of Engineering, Design and Technology 11 (3)

4 2013

Parametric Analysis of Syn-Gas Fueled SOFC with Internal Reforming

T Choudhary, Sanjay, P Murty SAE Technical Papers 3 2015

Impact of Globalization on Engineering Education in Developing Countries

O Mardam-Bey, Sanjay, S Saran, ARISER 4 (2), 99-102 3 2008

Thermodynamic Evaluation of Advanced Combined Cycle Using Latest Gas Turbine

Sanjay, O Singh, BN Prasad

International Joint Power Generation Conference 2003 Atlanta, Georgia, USA …

3 2003

Comparative Exergoeconomics of Power Utilities: Air-cooled Gas Turbine Cycle and Combined

Cycle Configurations

MK Sahu, Sanjay, Energy 139, 42-51

2 2017

Page 7 Curriculum Vita of Prof. Sanjay

Novel and optimal integration of SOFC-ICGT hybrid cycle: Energy analysis and entropy

generation minimization

T Choudhary, Sanjay International Journal of Hydrogen Energy 42 (23), 15597-15612

2 2017

CFD Modeling of SOFC Cogeneration System for Building Application

T Choudhary, M Kumar Sahu, Sanjay, Energy Procedia 109, 361-368 2 2017

Thermodynamic and Emission Analysis of Basic and Intercooled Gas Turbine Cycles

A Kumari, T Choudhary, Sanjay, P Murty, M Sahu

SAE Technical Paper, Paper #: 2015-01-2426

2 2015

Thermodynamic and Emission Analysis of Basic and Intercooled Gas Turbine Cycles

A Kumari, T Choudhary, Sanjay, P Murty, et al. SAE Technical Papers, 2 2015

Exergy analysis of effect of air/fuel ratio and compression ratio on rational efficiency of

gas/steam combined cycle

N Kumar, Sanjay, Journal of the Energy Institute, United Kingdom 86 (1), 41 - 48

2 2013

Thermoeconomic Investigation of Power Utilities: Intercooled Recuperated Gas Turbine Cycle

Featuring Cooled Turbine Blades

MK Sahu, Sanjay ENERGY 138 (C), 490-499

1 2017

Thermoeconomic Investigation of Different Gas Turbine Cycle Configurations for Marine

Application

MK Sahu, T Choudhary, Sanjay, SAE Technical Paper

1 2016

Analysis of Combined Effects of Air Transpiration Cooling and Evaporative Inlet Air Cooling on

the Performance Parameters of a Simple Gas Turbine Cycle

AK Mohapatra, Sanjay, Journal of Energy Engineering 141 (3), 04014015

1 2014

Performance analysis of an air humidifier integrated gas turbine with film air cooling of turbine

blade

AK Mohapatra, Sanjay, Journal of Energy in Southern Africa 24 (4), 71 - 81

1 2013

Combined Heat and Power through Biomass-An Overview

S Shukla, P Murty, Sanjay, SAE Technical Paper

1 2011

Page 8 Curriculum Vita of Prof. Sanjay

Investigation of effect of variation of cycle parameters on thermodynamic performance of gas-

steam combined cycle

Sanjay Energy 36 (1), 157 - 167

1 2010

Parametric analysis of effect of blade cooling means on gas turbine based cogeneration cycle

Sanjay, O Singh, BN Prasad, Journal of the Energy Institute 81 (4), 197-204 1 2008

Thermoeconomic investigation of basic and intercooled gas turbine based power utilities

incorporating air-film blade cooling

MK Sahu, Sanjay, Journal of Cleaner Production 170, 842-856 2018

Exergy and Energy Analysis of Combined Cycle systems with Different Bottoming Cycle

Configurations

Sanjay, International Journal of Energy Research 37 (8), 899 - 912 2013

IMPLEMENTATION OF AN ONLINE TEACHER ASSESSMENT/APPRAISAL IN TECHNICAL

EDUCATION INSTITUTION: A Case Study

S MANDAL, D SANJAY, R SHRIVASTAVA

The Turkish Online Journal of Distance Education 11 (4), 25-35

2010

American Society of Mechanical Engineers (ASME) Papers:

[1] Sanjay, Singh. O. Singh and Prasad. B.N, (2001), “Prediction of Performance of Simple Gas/Steam

Combined Cycle and Co-generation Plants with Different Means of Cooling”, Proceedings of

ASME’s, 36th Inter-society Energy Conversion Engineering Conference–2001, ASME Paper No.

IECEC-2001-CT-11.

[2] Sanjay, Singh. O. Singh and Prasad. B.N, (2003), “Thermodynamic evaluation of advanced

combined cycle using latest gas turbine”, Proceedings of ASME’s, Turbo-Exposition 2003, ASME

Paper No. GT2003-38096.

[3] Sanjay, Singh. O. Singh and Prasad. B.N, (2004), “Thermodynamic Evaluation of Combined Cycle

using Different Methods of Steam Cooling”, Proceedings of ASME’s, Power-2004, ASME Paper

no. PWR2004-52152

Page 9 Curriculum Vita of Prof. Sanjay

[4] Sanjay, Singh. O. Singh and Prasad. B.N, (2003), “Performance enhancement of advanced

combined cycles”, Proceedings of ASME’s IJPGC-2003, ASME Paper No.: IJPGC2003-40117.

[5] Sanjay, Singh. O. Singh and Prasad. B.N, (2004), “Performance of integrated combined and

cogeneration Cycles using latest gas turbines”, Proceedings of ASME’s, Turbo-Exposition 2004,

ASME Paper No. GT2004-53312.

[6] Sanjay, Singh. O. Singh and Prasad. B.N, (2003), “Thermodynamic Performance of Complex gas

turbine cycles”, Proceedings of ASME’s IJPGC-2002, ASME Paper No.: IJPGC2002-26109.

TEACHING/COURSEWARE DEVELOPMENT:

Developed a software package/learning resource to compute the various steam

properties for the complete range in Mollier Chart with students.

Developed a software package / learning resource to compute to residual unbalance in

rotors with students.

FOREIGN TRAVEL / ASSIGNMENTS:

Presented research papers PWR2004-52152 in Baltimore USA(2004).

Presented research paper at World Congress of Engg. in U.C. Berkeley, USA(2008)

Presented research paper at World Congress of Engg. in U.C. Berkeley, USA(2014)

Presented research papers at SAE AeroTech Congress in Fort-Worth, USA (2017)

Lead a team of 12 students as Faculty Advisor to participate in SAE BAJA 2010-

Pretoria, South Africa

PROJECT / THESIS GUIDANCE:

Bachelor of Technology Project Guidance Details:

i. Design and development of statistical quality control (SQC) software, Mech. Engg. Deptt., @

MNREC Allahabad, (as an industrial co-guide)1997.

ii. Design of Steam Properties Database for Cycle Analysis of Steam Turbine Power Plant- –

(B.Mudholkar et al.), Mech. Engg. Deptt., 2002.

iii. Software development for determination of residual unbalance of rotating discs – Mech. Engg.

Deptt., (Dupan Mukharjee et al.) 2003

iv. Millimeter Scale Gas Turbine – Kartikayan et al. Mech. Engg. Deptt.,2004.

v. Micro-Gas Turbine Integrated with Fuel Cell – Sudhir Kumar et al., Mech. Engg. Deptt., 2005.

vi. Design and Fabrication of Evaporative Cooling System for Heavy Vehicles Application- (P.Poturaju

et al.)- Mech. Engg. Deptt. 2006.

Page 10 Curriculum Vita of Prof. Sanjay

vii. Experimental Investigation of Solar Passive cooling of building using alternative materials, (Ashok

Kumar et al.) Mech. Engg. Deptt. 2007.

Master of Technology (M.S level) thesis Guidance: TWENTY plus

AFFILIATIONS/MEMBERSHIPS OF PROFESSIONAL BODIES:

Member of Society of Automotive Engineers (SAE-2016) Membership No. 7007210009

Institution of Engineers(INDIA) - Member (Membership No. M-145407-7)

HONORS / DISTINCTION / RECOGNITION BY INTERNATIONAL BODIES: Invited to feature in the “Marquis Who’s Who in Science & Engineering”, published by Marquis

Who’s Who, Publ. New Jersey, USA http://www.marquiswhoswho.com/

VOLUNTARY WORK:

Reviewer of technical papers in Elsevier Journals(ENERGY, ATE, ES&T,ECM,AE etc), ASME amongst others.

REFERENCES:

Prof. N.K.Jha, Professor Mechanical Engg. Deptt. Manhattan College, Riverdale, NY 10471, USA. E-mail: njha@manhattan.edu Phone: 718-862-7441,

http://www.engineering.manhattan.edu/mechanical/faculty/jha.html

Rakesh K. Singh, Ph.D., P.E, MBA

Manager, Application Engineering and New Product Development

Rypos, Inc. 40 Kenwood Circle, Franklin, MA 02038, USA

Phone: 978.436.6556, Fax: 978.436.5745 Email: singh_rak@hotmail.com

Prof. J.N.Yadav, Prof and Head, Mechanical Engg. Department,

National Institute of Technology, Jamshedpur, INDIA

Phone: +91-657-2373155

Prof. Onkar Singh Formerly Vice-Cancellor of MMMUniversity of Tech. Gorakhpur

Prof. of Mechanical Engg. Department,

H.B.T.I, Kanpur, INDIA

Phone:+ 91- 9415114011 Email: onkpar@rediffmail.com

Prof. B.N. Prasad Prof. of Mechanical Engg. Department,

National Institute of Technology, Jamshedpur, INDIA

Phone: +91-9431344731 Email: bnprasad_fme@yahoo.co.in

Prof. S.N. Gupta (Formerly Professor of Mech. Engg., Institute of Technology, BHU, Varanasi)

Presently Emeritus Prof. of Mechanical Engg. Department,

IIT-BHU, Varanasi INDIA

Page 11 Curriculum Vita of Prof. Sanjay

Statement of Research Interests

Green Energy Conversion Systems: Towards new and improved energy conversion cycles

leading to optimum utilisation of fossil fuel resources

Research Background

The most effective energy conversion technology is, at present, the combined cycles using natural

gas as fuel because of their high efficiency, large output and low greenhouse gas emissions. The

combined cycle is the synergetic combination of gas turbine as topping cycle and steam turbine as

bottoming cycle. Nowadays, combined cycle is also being called “the power plant of twenty-first

century”. A high profile development of combined cycle (funded by various government agencies

worldwide) is currently in progress by major power plant manufacturing companies. At present,

combined cycle power plant employing simple (basic) gas turbine cycle and two or three pressure

level reheat steam cycle and having exhaust temperature varying from 850K to 915K yields

thermal efficiency ranging from 57 to 60% at ISO conditions. This technology leads to the

optimum utilisation of fuel burnt in the gas turbine. The current emphasis is on the development of gas turbine cycle for further enhancement in its

performance, by increasing turbine inlet temperature (TIT), compressor pressure ratio (rp,c), increased

component efficiencies, better materials, better cooling means (medium and techniques), and complex

configurations employing intercooling, reheating and recuperation. These developments require active

cooling of the hot turbine components in order to avoid a reduction of operating life due to unfavourable

combination of oxidation, creep and thermal stresses. However, the coolant flow can become so large

that the excess compressor power for compressing coolant can offset the power gains associated with

incremental increase of TIT. This necessitates the requirements of better cooling means and techniques

along with better materials.

The review of literature on combined and co-generation cycles shows that an extensive

research is needed in the direction of enhancement of performance of combined cycles. My PhD

work has focused on energy and exergy analysis of combined and cogeneration cycles using

different means of turbine blade cooling for various configurations.

The following blade cooling means had been considered: -

1. Open loop cooling

a. Internal convection and impingement air cooling

b. Internal and film air-cooling.

c. Transpiration air-cooling.

d. Internal convection steam cooling

e. Internal convection film steam cooling.

f. Internal convection transpiration steam cooling.

2. Closed loop cooling.

a. Steam cooling.

The thermodynamic analysis of selected configuration of combined and cogeneration

systems numbering fourteen, with a combination of some of the seven cooling means have been

Page 12 Curriculum Vita of Prof. Sanjay

studied by modeling the various elements of combined cycle for real situations. The models

selected/ developed for the elements include for gas, compressor, intercooler, combustor, cooled

gas turbines, recuperator, heat recovery steam generator (HRSG), and its optimization, steam

turbine, condenser, deaerator, feed-pump, etc. The optimization of HRSG has been performed to

find the correct amount of steam generated for single or multi-pressure cases by satisfying the

pinch points, minimum allowable stack temperature and minimum allowable quality of steam

turbine exhaust, For steam properties a database has been prepared using standard steam tables.

The fuel used in the analysis is natural gas. Based on the modelings, the desired parameters of

various elements have been obtained/studied, by using mass, energy and exergy balances. Based

on these modelings, governing equations have been developed for predicting the performance of

combined and cogeneration cycles.

Current and future research interests

Moving forward the areas of research interest have expanded in the following direction:

Energy, exergy and emission analysis (3-E) of gas turbine based combined cycles.

Thermodynamic analysis of biomass and natural-gas based greener energy conversion.

Thermodynamic analysis of gas turbine based cycles for sustainable energy conversion

Thermoeconomic Analysis of complex gas turbine cycles

Thermodynamic analysis of SOFC-Gas Turbine hybrid power cycles

Thermodynamic analysis of natural-gas CLC based greener energy conversion cycles.

Funding for research in this area is planned to be sought from government and other agencies funding

preliminary research in green energy conversion cycles e.g. Department of Energy in the US, Tata

Institute of Fundamental Research in India, DST, AR&DB etc.