Topics Preferred:
Group 1:
MOHAN KUMAR (2011MET3327)
ANAND KUMAR (2011MET3300)
TOPICS:
1.HIGHER EFFICIENCY TARGETING IN A STEAM POWER PLANT BY USING PINCH TECHNOLOGY(U.P.B. Sci. Bull., Series D, Vol. 71, Iss. 4, 2009)
2.EXERGY ANALYSIS VERSUS PINCH TECHNOLOGY (ECOS 96).
3.Application of pinch technology in heat recovery system optimization of coated paper machine (june 2011)
4.Possibilities to implement pinch analysis in the steel industry – a case study at SSAB EMEA in Luleå (2011-sweden).
Group 2: Pratyush k Shakya
TOPIC: THE PINCH DESIGN METHOD FOR HEAT EXCHANGER NETWORK
Group 3:
ShivendraYadav(2008me10543)
RajatGupta(2008me10532)
Aman (2008me10486)
TOPIC: Method for Non-thermodynamically Constrained Heat Exchanger Networks.
Group 4:
ArpitKhandelwal 2009ME10566
Kshitij Jain 2009ME10588
PulkitGoel 2009ME10609
TOPIC:
1.UTILITY MINIMIZATION IN HEAT EXCHANGER NETWORK SYNTHESIS
2.RETROFITTING OF HEAT EXCHANGER NETWORKS
3.TOTAL COST TARGETTING
Group 5:
AshutoshGaurav(2009ME10569)
Deepak Goel(2009Me10574)
ArpitGupta(2009ME10565)
TOPIC: Effect of baffles on heat exchanger
Group 6: Suman Kumar and Santanu Paul.
(2010MET3025) (2010MET3016)
TOPIC: Optimization of heat exchanger networks and pinch technology.
Group 7:
ShyamdeoRanjan (2004me10525)
Sunil kumar (2006me10523)
TOPIC: Heat exch.network & pinch point technology.
Group 8:
shikharupadhyay 2011met3316
mohd. Ateeque 2011met3302
raja ram 2011met3691
TOPIC:
1.Synthesis of multipass heat exchanger networks based on pinch technology .
2.AN OPTIMIZATION APPROACH FOR EVOLUTIONARYSYNTHESIS OF HEAT EXCHANGER NETWORKS.
Group 9:
Nikhil Kumar Singh 2011MET3344
NipunArora 2011MET3306
AnkurSachdeva 2010MET3030
TOPIC:
- OPTIMIZATION OF CHP SYSTEMS USING PINCH TECHNOLOGY
- HIGHER EFFICIENCY TARGETING IN A STEAM POWER PLANT BY USING PINCH TECHNOLOGY
Group 10:
Sambhav Jain
AmitAgarwal
Deepak
TOPIC:
Application of Pinch Technology in Heat Recovery System Optimization.
Heat exchanger network retrofit optimization involving heat transferenhancement
Group 11:
KHATKE ASHISH 2009ME10587
SATWINDER SINGH 2009ME10622
YOGESH CHOUDHARY 2009ME10636
TOPIC: METHODS FOR HEATEXCHANGER NETWORK ENERGY EFFICIENCY ASSESSMENT
Group 12:
MayurSelokar & SUNIL
2011MET3328 2011MET3338
TOPIC:
- A new approach in pinch technology considering piping costs in total cost targeting for heat exchanger network.
- Multiobjective synthesis of heat exchanger networks minimizing the total annualcost and the environmental impact.
- Synthesis of multipass heat exchanger networks based on pinch technology
Group 13:
2011MET3608 MajVishal Kumar
2011MET3319 PankajAsija
TOPIC:
1.Supply and target based superstructure synthesis of heat
and mass exchanger networks
2.A novel approach for synthesis of cost-optimal heat exchanger
Networks
3.Total cost target for heat exchanger networks considering
Simultaneously pumping power and area effects
Group 14:
Mohammed Ilyash 2011MET3314PerwezSiddiqui
TOPIC:
1. Higher efficiency improvement in steam power plant using pinch technology.
2. Targeting the optimum steam system for power generation.
3. A double pinch criteria for regenerative Rankine cycles.
4. Energy recovery and environmental concerns addressed through exergy-pinch analysis.
Group 15:
Vinod Kumar Singh, Vijay Duaand GauravRakheja
TOPIC:
- A new approach in pinch technology considering pipingcosts in total cost targeting for heat exchanger network
- Detailed equipment design in heat exchanger networks synthesis and optimization
- Multiobjective synthesis of heat exchanger networks minimizing the total annualcost and the environmental impact
Group 16:
NeerajSarna- 2009ME10598
VineetAgarwal 2009ME10634
Akash Gupta 2009ME10555
TOPIC:
1. Water Pinch Analysis
2. Heat exchanger network optimisation for oil industry
3. Hydrogen Pinch Analysis
Group 17:
NibhaKumari, MeenuMilani.
TOPIC: Multi-period design of heat exchanger networks
Group 18:
SrijanChandrakar
SandeepChandraker
ShrikantGajbhe
Topic:
- OPTIMIZATION OF CHP SYSTEMS USING PINCH TECHNOLOGY
- Efficient design of feedwater heaters network in steam power plants using pinch technology and exergy analysis