Buch(elektronisch)1975

Hydrogen Energy: Part A

In: Springer eBook Collection

Veziroğlu, T. Nejat

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Abstract

of Part A -- Banquet Address -- 1. Primary Energy Sources -- 1.1 Is Massive Solar Energy Conversion a Practical Prospect? -- 1.2 A Tower-Top Point Focus Solar Energy Collector -- 1.3 Reliability of Low Cost Cu2S/CdS Solar Cells for Large-Scale Conversion of Solar to Electrical Energy -- 1.4 Geothermal Energy as a Resource in a Hydrogen Energy Economy -- 1.5 The Effect of Atmospheric Turbulence on Windmill Performance -- 1.6 Hydrogen: The Ultimate Energy Source -- 2. Hydrogen Production -- 2.1 Nuclear Water-Splitting and High Temperature Reactors -- 2.2 High Temperature Nuclear Reactors as an Energy Source for Hydrogen Production -- 2.3 Hydrogen Production with a High Temperature Gas-Cooled Reactor (HTGR) -- 2.4 Hydrogen Production from Decomposition of Water by Means of Nuclear Reactor Heat -- 2.5 Aqueous Homogeneous Reactor for Hydrogen Production -- 2.6 Wind Capture and Diversion Through Pneumatic Energy Recovery with Large Capacity Aerogenerators -- 2.7 Sea Thermal Power as a Hydrogen and Methanol Generator -- 2.8 Ocean Based Solar-To-Hydrogen Energy Conversion Macro System -- 2.9 Thermochemical Water Cracking Using Solar Heat -- 2.10 Photolysis of Water as a Solar Energy Conversion Process: An Assessment -- 2.11 The Technology and Economics of Hydrogen Production from Fusion Reactors -- 2.12 Economic Criteria of Selection for Closed Cycle Thermochemical Water-Splitting Processes -- 2.13 Comparative Study of Hybrid Energy Systems of Hydrogen and Electric Power -- 2.14 An Economic Perspective on Hydrogen Fuel -- 2.15 The Utilization of Solar Energy for Hydrogen Production by Cell Free System of Photosynthetic Organisms -- 2.16 An Analysis of Hydrogen Production Via Closed-Cycle Schemes -- 2.17 Hydrogen and Food Production from Nuclear Heat and Municipal Wastes -- 2.18 Hydrogen as Energy Storage Element -- 2.19 Hydrogen Opportunities in Saudi Arabia -- 2.20 On Methods for the Large-Scale Production of Hydrogen From Water -- 2.21 Electrolytic Hydrogen Generators -- 2.22 Electrolysis of Sea Water -- 2.23 Hydrogen Generation Through Static Feed Water Electrolysis -- 2.24 Hydrogen Generation by Solid Polymer Electrolyte Water Electrolysis -- 2.25 Evaluation of Multi-Step Thermo Chemical Processes for the Production of Hydrogen From Water -- 2.26 Considerations on Iron-Chlorine-Oxygen Reactions in Relation to Thermochemical Water-Splitting -- 2.27 Thermochemical Hydrogen Production Research at Lawrence Livermore Laboratory -- 2.28 Analysis of Thermo Chemical Water- Splitting Cycles -- 2.29 A Search for Thermochemical Water-Splitting Cycles -- 3. Hydrogen Storage and Transmissions -- 3.1 Pipeline Transportation of Hydrogen -- 3.2 Economics of Pipeline Transport for Hydrogen and Oxygen -- 3.3 Low Thermal Flux Glass-Fiber/Metal Vessels for LH2 Storage Systems -- 3.4 Electric Power and Fuel Transmission by Liquid Hydrogen Superconductive Pipeline -- 3.5 Optimal Location of Hydrogen Supply Centers to Minimize Distribution Costs -- 3.6 The Activation of a Lanthanum-Nickel-Five Hydrogen Absorbent -- 3.7 An Engineering-Scale Energy Storage Reservoir of Iron Titanium Hydride -- 3.8 Modeling Studies of Fixed-Bed Metal-Hydride Storage Systems -- 3.9 The Safety Characteristics of LaNi5 Hydrides -- 3.10 The Formation and Properties of Rare-Earth and Transition Metal Hydrides.