Description
Book SynopsisThis book, a distillation of information only touched upon in other books, is aimed at undergraduate and postgraduate students, scientists, engineers and industrialists with an interest in the field.
Table of ContentsChapter 1: Background; Chapter 2: Operation Analysis of a Compound Energy System -Exhaust Heat Use Plan when Connecting Solar Modules to a Fuel Cell Network; Chapter 3: Operation of Compound Energy System -Fuel Cell Network System Considering Reduction in Fuel Cell Capacity; Chapter 4: Power Independent House Using PEFC -Operation Plan of a Combined Fuel Cell Cogeneration, Solar Module, and Geo-Thermal Heat Pump System; Chapter 5: PEFC / Engine Generator Compound Energy System (1) -CO2 Discharge Characteristic of PEFC / Hydrogen-Gas-Engine Hybrid Cogeneration; Chapter 6: PEFC / Engine Generator Compound Energy System (2) -Power Generation Efficiency of an Independent Microgrid Composed of Distributed Engine Generators; Chapter 7: PEFC / Green Energy Compound System (1) -Operation Planning of a PEFC and Photovoltaics with Prediction of Electricity Production Using GA and Numerical Weather Information; Chapter 8: PEFC / Green Energy Compound System (2) -Overall Efficiency of a PEFC with a Bioethanol Solar Reforming System for Individual Houses; Chapter 9: PEFC / Green Energy Compound System (3) -Fuel Cell microgrid with Wind Power Generation; Chapter 10: Solar Cell / Diesel Engine Compound System with Production-of-Electricity Prediction; Chapter 11: Dynamic Characteristics of Power for PEFC Compound System; Chapter 12: Performance Analysis and Assessment of Compound Energy Systems Using Exergy Analysis Method
