Energy Optimization in Process Systems and Fuel Cells

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