Proceeding of the DOE Chemical/Hydrogen Energy Systems Contractor Review November 27-30, 1978 Washington, D. C.

摘要

NASA Hydrogen Energy Storage Technology ProjectnElectrolysis-based Hydrogen Storage Systems: Overview and Rationale of the Brookhaven National Laboratory Managed ProgramⅡ. HYDROGEN PRODUCTION/WATER ELECTROLYSISnDevelopment Status of Solid Polymer Electrolyte Water Electrolysis for Large Scale Hydrogen GenerationnSelection and Evaluation of Materials for Advanced Water ElectrolyzersnOptical Investigation of the Oxides of Iridium in Relation to Their Electrocatalytic ActivitynAdvanced Alkaline Electrolysis SystemnEnergy Losses Occurring in and New Electrode Concepts for Alkaline ElectrolyzersnHydrogen/Halogen Energy Storage SystemnEconomics and Market Potential of Hydrogen ProductionnCost/Benefit Analysis of Alternative Hydrogen ProductionnⅢ. HYDROGEN PRODUCTION/THERMOCHEMICAL PROCESSESnAssessment of Thermochemical Hydrogen ProductionnStatus Report on the Westinghouse Hydrogen Production ProcessnMaterials Corrosion Studies for Sulfuric Acid VaporizernBench-Scale Investigations and Process Engineering on the Sulfur-Iodine CyclenThermochemical Hydrogen Review PanelnThe LASL Thermochemical Hydrogen Program Status on October 31, 1978nMethods for Calculation of Engineering Parameters for Gas SeparationsnThermodynamics of Thermochemical Cycles Based on the Decomposition of Sulfuric AcidnPhotocatalytic Generation of Hydrogen on Irradiation of Acidic Solutions of Dirhodium Tetrakis 1, 3 DiisonitrilopropanenDicationnⅣ. ADVANCED CONCEPTSnPotential Heat Exchange Fluids for Use in Sulfuric Acid VaporizersnHydrogen Production by Photoelectrolytic Decomposition of Water Using Solar EnergynDevelopment of a Practical Photochemical Energy Storage SystemnOxygen Production by Chemical Separation of AirnⅤ.HYDROGEN STORAGE/MATERIALSnHydrogen Compression by Metal HydridesnThe Metal Hydride Research and Development Program at Brookhaven National LaboratorynDevelopment of Hydrogen Storage Materials for Application to Energy NeedsnDevelopment of New Hydrogen Storage Systems for Automotive Hydrogen Fuel StoragenMechanisms of Surface Poisoning of Metal HydridesnBulk Hydrogen Storage: Engineering-Scale TestsnFirst Year Performance Report, Large Diameter TiFeMn Hydrogen Storage VesselnⅥ. HYDROGEN STORAGE/APPLICATIONSnUnderground Storage of Hydrogen An Assessment of Hydrogen Compressor Technology, Energy Storage and Transmission SystemsnMicrocavity Systems for Automotive ApplicationsnHydrogen Storage Devices for AutomobilesnComparative Advantage and Applications Study of Hydrogen Storage TechniquesnHydrocarbon Entrapment of Light Energy of the Sun (HELEOS): A Complementary Method to Thermal Energy Storage for Building HeatingnStatus Report on the HYCSOS Chemical Heat Pump and Energy Conversion SystemnⅦ. TRANSPORT & CONTAINMENTnStudy of the Behavior of Gas Distribution Equipment in Hydrogen Service, Update 1978nThe Influence of Microstructure on the Resistance of Low Strength Ferrous Alloys to Gas Phase Hydrogen DegradationnHydrogen Compatability of Structural Materials for Energy Storage and TransmissionnHydrogen Embrittlement of A-106 SteelnEvaluation of Laser Welding Techniques for Hydrogen TransmissionnHydrogen from Existing Falling Water Sites: An Initial Feasibility Assessment (Summary)nDemand and Supply of Hydrogen as a Chemical Feedstock in the U.S.AnNatural Gas Supplementation with HydrogennKinetics of Hydrogen Entry from TiFe0.86 Mn0.11 HxnModeling Solid Hydrogen Storage BedsnⅨ. PROJECT SUMMARIESnSolid Polymer Electrolyte Water Electrolyzer Technology Development General Electric CompanynSelection and Evaluation of Materials for Advanced Water Electrolyzers (2 projects) Brookhaven National LaboratorynOptical Investigation of Oxides of Ruthenium and Iridium in Relation to Their Electrocatalytic Activity Brooklyn College, City University of New YorknAdvanced Alkaline Water Electrolyzer Development Teledyne Energy SystemsnSelection and Evaluation of Materials for Advanced Alkaline Water Electrolyzers University of VirginianHydrogen/Halogen Energy Storage System Brookhaven National LaboratorynEconomics and Market Potential of Hydrogen Production Hittman Associates, IncorporatednCost Benefit Analysis of Financial Incentives Applied to Alternate Hydrogen Production Technologies Booz, Allen & Hamilton IncnAssessment of Thermochemical Hydrogen Production Institute of Gas TechnologynSulfur Cycle Hydrogen Production Process Westinghouse Electric CorporationnMaterials Development for Thermochemical Cycles Lawrence Livermore LaboratorynSulfur/Iodine Thermochemical Cycle General Atomic CompanynAssessment of Thermochemical Cycles University of KentuckynThermochemical Process for Hydrogen Production University of California, Los Alamos Scientific LaboratorynSulfuric Acid Decomposition Task Jet Propulsion LaboratorynSupporting Research and Technology Task Jet Propulsion LaboratorynHydrogen Produced by Solar Radiation Task California Institute of TechnologynHydrogen Produced by Solar Radiation Task EIC CorporationnPhotochemical Energy Storage Task University of GeorgianOxygen Production by Chemical Separation of Air Energy Concepts CompanynThe Development of Metal Hydride Systems for Hydrogen Compressor ApplicationsnDenver Research InstitutenHydrogen Storage Materials Development Brookhaven National LaboratorynAdvanced Hydrides Technical Support Brookhaven National LaboratorynDevelopment of Hydrogen Storage Materials for Application to Energy Needs Denver Research InstitutenDevelopment of New Hydrogen Storage Systems for Automotive Hydrogen Fuel Storage Air Products & Chemicals, IncnMetallurgical Studies of Hydrogen Storage Alloys The International Nickel Co., IncnHydrogen-Technology Advanced Component Test System (HYTACTS) Brookhaven National LaboratorynMetal Hydride Storage Vessel for Hydrogen Homestead Billings Energy CorporationnUnderground Storage of Hydrogen Institute of Gas TechnologynAn Assessment of Hydrogen Compressor Technology for Energy Storage and Transmission Systems University of MiaminHydrogen Storage Using Glass Microspheres for Automotive ApplicationsnEnergy Storage Systems for Automobile Propulsion Lawrence Livermore Laboratory and Brookhaven National LaboratorynHydrogen Compatibility of Structural Materials for Energy Storage and Transmission Sandia Laboratories – LivermorenHydrocarbon Entrapment of Light Energy of the Sun (HELEOS): A Complementary Method to Thermal Energy Storage for BuildingnHeatingnHYCSOS Chemical Heat Pump and Energy Conversion System Based on Metal HydridesnStudy of the Behavior of Gas Distribution Equipment in Hydrogen ServicenThermal Processing Task NASA-Ames Research CenternEffect of Stress State on Hydrogen Embrittlement Virginia Polytechnic InstitutenEvaluation of Laser Beam Welding Techniques Pratt & Whitney Aircraft GroupnWorkshop - Supply and Demand of Hydrogen As Chemical FeedstocknBlending of Hydrogen Into Natural Gas Distribution Systems Public Service Electric and Gas CompanynKinetics of Hydrogen Entry from TiFe0.86 Mn0.11 HxnHydride-Bed Heat-Transfer Modeling Study Oak Ridge National LaboratorynFeTi Storage Systems for Bulk Hydrogen Storage Foster Wheeler Energy CorporationnSecretariat for IEA Activity on Electrolytic Hydrogen Production Brookhaven National Laboratory