03320nam 2200541Ia 450 991077803370332120230721022252.01-60741-217-9(CKB)1000000000786404(EBL)3018328(SSID)ssj0000336799(PQKBManifestationID)11283171(PQKBTitleCode)TC0000336799(PQKBWorkID)10283418(PQKB)10037881(MiAaPQ)EBC3018328(Au-PeEL)EBL3018328(CaPaEBR)ebr10660189(OCoLC)429910914(EXLCZ)99100000000078640420090504d2009 uy 0engurcn|||||||||txtccrDistributed energy systems[electronic resource] /Shin'ya ObaraNew York Nova Science Publishers, Inc.c20091 online resource (76 p.)Includes index.1-60692-543-1 ""DISTRIBUTED ENERGY SYSTEMS""; ""NOTICE TO THE READER""; ""CONTENTS""; ""OPERATION PLAN OF A COMBINED FUEL CELL CO-GENERATION USING GENETIC ALGORITHM""; ""INTRODUCTION""; ""FUEL CELL, SOLAR MODULES, AND GEO-THERMAL HEAT PUMP COMBINED SYSTEM""; ""Scheme of Combined System""; ""Relational Expression""; ""Energy Supply Path""; ""ENERGY BALANCE AND OBJECTIVE FUNCTION""; ""Objective Function of System""; ""Multi-objective Optimization""; ""ANALYSIS RESULTS""; ""Results of Optimization""; ""Equipment Capacity""; ""Objective Function and Characteristics of Operation Plan""; ""CONCLUSIONS""""ROUTE PLANNING OF HEAT SUPPLY PIPING IN A FUEL CELL ENERGY NETWORK""""INTRODUCTION""; ""FUEL CELL NETWORK AND ENERGY BALANCE""; ""Fuel Cell Network""; ""Heat Release Model of Hot-Water Piping""; ""Output Characteristics of the Fuel Cell""; ""Energy Balance Equation""; ""Urban Area Model and Energy Demand Pattern""; ""ROUTE PLANNING METHOD OF PIPING""; ""Route Planning Method of Piping Using the TSP (TravelingSalesman Problem [19])""; ""Analysis Flow of the Search Program of the Piping Route""; ""CASE STUDY""; ""Program Check by Shortest Route Search""""Power Generation Capacity of a Fuel Cell""""Result of Route Planning""; ""Piping Route Plan with a Solar Module""; ""CONCLUSION""; ""LOAD LEVELING OF FUEL CELL SYSTEM BY OXYGEN CONCENTRATION CONTROL OF CATHODE GAS""; ""INTRODUCTION""; ""SYSTEM DESCRIPTION""; ""System Structure""; ""Fuel Cell Performance""; ""System Operation""; ""Water Electrolysis""; ""Energy Balance""; ""Analysis Method""; ""CASE STUDY""; ""Weather Conditions in Tokyo""; ""Energy Demand Models""; ""RESULTS AND DISCUSSION""; ""Operation Planning and Fuel Cell Capacity Reduction Effect""; ""Town Gas Consumption""""Reformer and Auxiliary Machines Operation""""CONCLUSION""; ""INDEX""Distributed generation of electric powerMathematical modelsFuel cellsDistributed generation of electric powerMathematical models.Fuel cells.621.31/21Obara Shin'ya1530844MiAaPQMiAaPQMiAaPQBOOK9910778033703321Distributed energy systems3776208UNINA