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Energy Optimization in Process Systems and Fuel Cells

Fully revised edition covering the optimization and integration of energy systems, with a particular focus on fuel cell technology

Stanislaw Sieniutycz (Author), Jacek Jezowski (Author)

9780081025574, Elsevier Science

Paperback / softback, published 17 May 2018

812 pages
22.9 x 15.1 x 4.9 cm, 1.29 kg

Energy Optimization in Process Systems and Fuel Cells, Third Edition covers the optimization and integration of energy systems, with a particular focus on fuel cell technology. With rising energy prices, imminent energy shortages, and the increasing environmental impacts of energy production, energy optimization and systems integration is critically important. The book applies thermodynamics, kinetics and economics to study the effect of equipment size, environmental parameters, and economic factors on optimal power production and heat integration. Author Stanislaw Sieniutycz, highly recognized for his expertise and teaching, shows how costs can be substantially reduced, particularly in utilities common in the chemical industry.

This third edition contains substantial revisions and modifications, with new material on catalytic reactors, sorption systems, sorbent or catalyst regenerators, dryers, and more.

1. Brief review of static optimization methods
2. Dynamic optimization problems
3. Energy limits for thermal engines and heat pumps at steady states
4. Hamiltonian optimization of imperfect cascades
5. Maximum power from solar energy
6. Hamilton-Jacobi-Bellman theory of energy systems
7. Numerical optimization in allocation, storage and recovery of thermal energy and resources
8. Optimal control of separation processes
9. Optimal decisions for chemical reactors
10. Fuel cells and limiting performance of electro-chemo-biological system
11. Systems theory in thermal and chemical engineering. Heat integration within process integration
12. Maximum heat recovery and its consequences for process system design
13. Targeting and supertargeting in heat exchanger network (HEN) design
14. Minimum utility cost (MUC) target by optimization approaches
15. Minimum number of units (MNU) and minimum total surface area (MTA) targets
16. Simultaneous HEN targeting for total annual cost
17. Heat exchanger network synthesis
18. Heat exchanger network retrofit
19. Approaches to water network design

Subject Areas: Alternative & renewable energy sources & technology [THX], Energy conversion & storage [THRH], Materials science [TGM], Chemical engineering [TDCB], Thermodynamics & heat [PHH]

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