Verfügbarkeit: Post-oil energy technology

Post-oil energy technology: the world's first solar-hydrogen demonstration power plant

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Bibliographische Detailangaben
1. Verfasser:	Lipták, Béla G. 1936- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Boca Raton [u.a.] CRC Press 2009
Schlagworte:	Centrales solaires Hydrogène (Combustible) Industries énergétiques - Prévision Ressources énergétiques - Prévision Power resources > Forecasting Energy industries > Technological innovations Energy industries > Forecasting Sonnenenergie Wasserstoffenergietechnik
Online-Zugang:	Inhaltsverzeichnis Klappentext
Beschreibung:	Includes one folded leaf
Beschreibung:	XIX, 571 S. Ill., graph. Darst.
ISBN:	9781420070255 1420070258

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Datensatz im Suchindex

_version_	1804139114244603904
adam_text	ENERGY POST-OIL ENERGY TECHNOLOGY Demonstrating the feasibility of a clean, renewable global energy future, Post-Oil Energy Technology: The World s First Solar-Hydrogen Demonstration Power Plant describes the detailed design of the first 1,000 megawatt solar power plant with hydrogen storage. In this timely book, author Béla Lipták explains how a solar-hydrogen economy is technically feasible and cost-effective. He first outlines existing conservation technologies and renewable energy processes as well as evolving technologies, such as energy- free homes, roof shingle solar collectors, and reversible fuel cells. He goes on to discuss energy optimization techniques that could reduce the energy consumption of industrialized countries by twenty-five percent and that of third-world countries by even more. Lipták also shows that we already have the know-how—optimizing large solar power plants, providing solar energy storage in hydrogen, and operating reversible electrolyzers —to build a full-sized renewable energy demonstration plant. With global energy consumption quadrupling in the last fifty years and atmospheric carbon dioxide reaching the highest level ever recorded, now is the time to prevent further damage to the planet and to protect future generations from the collapse of human civilization. This book provides the facts about renewable energy, proving that it can slow and eventually stop global warming, stabilize our climate, eliminate the possibility of energy wars, and improve the world s economy. All that we need are leaders who will start this, the 3rd industrial revolution. Describes the technical design of this new type of plant Looks at how to solve the energy crisis, eliminate global warming, reduce starvation, and enrich the economy Presents a pragmatic and realistic strategy of transitioning from a fossil fuel- and nuclear-based economy to an economy based on clean, renewable solar hydrogen Incorporates process control and optimization techniques for energy conservation Contents The Author ..................................................................................................xv Introduction .............................................................................................xvii 1 The Case for Renewable Energy Processes .....................................1 1.1 Global Trends .........................................................................................1 1.1.1 Global Energy Reserves and Trends .......................................2 1.1.2 Traditional Energy Sources and Costs ...................................3 1.1.2.1 Oil and Natural Gas ....................................................7 1.1.2.2 Coal ..............................................................................13 1.1.2.3 Nuclear ........................................................................15 1.2 Global Warming ..................................................................................19 1.2.1 Greenhouse Gases ...................................................................20 1.2.2 The Carbon Dioxide Cycle .....................................................21 1.2.3 Consequences of Carbon Emissions .....................................23 1.2.4 Ice Caps and Glaciers ..............................................................25 1.2.5 Ocean Currents and Hurricanes ...........................................27 1.2.6 Advanced Strategies to Reduce Carbon Emissions ............29 1.2.6.1 Taxation or Cap-and-Trade .......................................30 1.2.6.2 Sequestering, Carbon Capture and Conversion into Methanol........................................32 1.2.7 Energy Politics, Economics, and the Lobbies ......................33 1.2.7.1 The United Nations ...................................................35 1.2.7.2 United States ...............................................................37 1.2.7.3 Europe .........................................................................42 1.2.74 Asia ..............................................................................43 1.2.7.5 OPEC Countries .........................................................44 1.2.8 Transportation Trends ............................................................45 1.2.8.1 Biofuels and Multifuel Vehicles ...............................46 1.2.8.2 Hybrid Cars ................................................................47 1.2.8.3 Electric Cars ................................................................48 1.2.8.4 Fuel Cells vs. Batteries ...............................................49 1.2.8.5 Hydrogen Fuel Cell Cars ..........................................49 1.2.8.6 Hydrogen 1С Engine ..................................................52 1.2.8.7 Hydrogen Filling Stations .........................................53 1.3 Non-Solar Renewable Technologies .................................................54 1.3.1 Ethanol, Biofuels, Biodiesel, and Bioplastics .......................54 1.3.1.1 Ethanol......................................................................... 56 1.3.1.2 Biodiesel ......................................................................57 1.3.2 Wind Turbines ..........................................................................58 1.3.2.1 Wind Turbine Installations .......................................60 vii viu Contents 1.3.3 Ocean Energy ...........................................................................61 1.3.4 Geothermal Energy .................................................................64 1.3.5 Fuel Cells.................................................................................. 66 1.3.5.1 Fuel Cell Designs .......................................................67 1.3.5.2 Alkaline and Phosphoric Designs ...........................73 1.3.5.3 Proton Electrolyte Membrane ..................................73 1.3.5.4 Reversible Fuel Cells (RFCs) .....................................74 1.3.6 Energy Conservation ..............................................................75 1.4 Solar Energy .........................................................................................77 1.4.1 Insolation: Global and the United States ..............................78 1.4.2 Area Required to Meet Global Needs ..................................79 1.4.3 Solar Energy Storage ...............................................................81 1.4.3.1 Storage by Net Metering .......................................82 1.4.3.2 Storing as Chemical Energy .....................................82 1.4.4 Solar Collector Designs ..........................................................83 1.4.4.1 Thermal Solar Collector Designs (SEGS and DSG) .............................................................................83 1.4.4.2 The Combined-Cycle Plant (ISCCS) ........................87 1.4.4.3 Photovoltaic (PV) Collectors .....................................87 1.4.4.4 Flat Collectors and Roof Shingles ............................89 1.4.4.5 Ultrathin-Film Nanowire Designs ..........................90 1.4.4.6 Large-Scale PV Installations ....................................91 1.4.4.7 Solar Updraft Towers ................................................93 1.4.4.8 Stirling Solar Power Generators ...............................94 1.4.4.9 Solar Satellites .............................................................96 1.4.4.10 Floating Solar Islands ................................................96 1.4.5 Operating and New Solar Power Plants ..............................97 1.4.6 Solar Collector Costs, Efficiencies, and Suppliers ...............99 1.4.7 Estimated Solar System Costs ..............................................102 1.5 Hydrogen Technology ......................................................................104 1.5.1 Properties of Hydrogen ........................................................105 1.5.2 Hydrogen Generation ...........................................................106 1.5.3 Solar-Hydrogen Production Efficiency ..............................107 1.5.4 Electrolysis of Water to Produce Hydrogen .......................109 1.5.5 Oxyhydrogen (HHO) Process ..............................................112 1.5.6 Hydrogen Compression ........................................................113 1.5.7 Liquefaction of Hydrogen ....................................................115 1.5.8 Liquefaction Plants ................................................................ И6 1.5.9 Transportation and Storage ..................................................119 1.5.10 Hydrogen-Assisted Fossil Power Plants ............................121 1.5.11 Efficiencies of Fossil and Hydrogen Fuels .........................122 1.5.12 Hydrogen Generation and Handling Costs ......................123 1.6 Renewable Energy Economy ...........................................................124 1.6.1 Zero-Energy Homes ..........................................................125 1.6.2 Zero-Energy Home Costs .....................................................127 1.6.3 The Solar-Hydrogen Demonstration Plant .......................130 Contents ix 1.7 Costs and Efficiencies .......................................................................133 1.7.1 Overall Costs of Energy ........................................................136 1.8 Conclusion ..........................................................................................138 2 Control and Optimization of Energy Conservation and Renewable Energy Processes ........................................................141 2.1 Introduction .......................................................................................141 2.2 Boiler Control and Optimization ....................................................142 2.2.1 Excess Air Optimization ......................................................144 2.2.2 Multivariable Envelope Control ..........................................147 2.3 Building Conditioning Optimization ...........................................149 2.3.1 Self-Heating Buildings ..........................................................152 2.3.2 Elimination of Chimney Effects ..........................................153 2.4 Chiller and Heat Pump Optimization ...........................................155 2.4.1 Minimum Cost of Operation ...............................................157 2.4.2 Reconfiguration and Storage ...............................................159 2.4.3 Cooling Towers ......................................................................161 2.5 Compressor Optimization ...............................................................162 2.5.1 Centrifugal Compressor Control ........................................164 2.5.2 Surge Control .........................................................................166 2.5.3 Optimized Load Following .................................................167 2.5.4 Multiple Compressor Optimization ...................................168 2.6 Control and Optimization Theory ................................................171 2.6.1 Basics .......................................................................................171 2.6.2 Degrees of Freedom and Loop Gain ..................................173 2.6.3 Feedforward Control ............................................................175 2.6.4 Process Reaction Curves .......................................................177 2.6.5 Proportional Control .............................................................179 2.6.6 Integral Control Mode ..........................................................181 2.6.7 Derivative Control Mode ......................................................182 2.6.8 PID Control .............................................................................184 2.6.9 Digital and Sample-and-Hold Algorithms ........................185 2.6.10 Open-Loop PID Tuning ........................................................187 2.6.11 Closed-Loop PID Tuning ......................................................191 2.6.12 Tuning by Computer .............................................................194 2.6.13 Cascade Control .....................................................................194 2.6.14 Digital Configuration of Cascade Control .........................197 2.6.15 Ratio Control ..........................................................................198 2.6.16 Model-Based Controls ..........................................................200 2.6.17 Model-Free Adaptive and Artificial Neural Network Control ....................................................................................204 2.6.18 Adaptive and Optimizing Controls ....................................207 2.7 Control Valves ....................................................................................211 2.7.1 Selection and Characteristics ...............................................211 2.7.2 Distortion and Rangeability ................................................215 2.7.3 Valve Gain and Stability .......................................................217 Contents 2.7.4 Positioners ...............................................................................219 2.7.5 Self-Diagnosing and Flow-Sensing Smart Valves .............220 2.7.6 Sizing of Control Valves .......................................................221 2.7.7 Applications — High Pressure ..............................................221 2.7.8 Applications — Noise .............................................................225 2.7.9 Applications — High Temperature ......................................227 2.7.10 Applications — Cryogenic .....................................................229 2.7.11 Applications — Cavitation .....................................................232 2.8 Cooling Tower Optimization ..........................................................236 2.9 Distillation Optimization ................................................................238 2.9.1 The Process .............................................................................239 2.9.2 Column Variables and Their Pairing ..................................241 2.9.3 Composition Control .............................................................242 2.9.4 Pressure Control ....................................................................244 2.9.5 Minimizing Pressure and Vapor Recompression .............244 2.9.6 Maximizing Feed Flow and Preheat ..................................246 2.9.7 Reflux Controls ......................................................................247 2.9.8 Maximized Recovery or Constant Separation ..................248 2.9.9 Controlling Two Products ....................................................251 2.9.10 Multiple Product and Multivariable Controls ...................252 2.9.11 Model-Based and ANN Control ..........................................253 2.9.12 Profitability-Based Optimization ........................................255 2.10 Distribution of Liquids or Gases .....................................................257 2.11 Fan and Blower Optimization ........................................................259 2.12 Fuel Cell Controls ..............................................................................262 2.12.1 Fuel Cell Characteristics .......................................................263 2.12.2 Oxidant and Fuel Flow Metering ........................................264 2.12.3 Temperature and Auxiliary Controls .................................267 2.12.4 Safety and Shutdown Controls ............................................269 2.12.5 Reversible Fuel Cell (RFC) Controls ...................................270 2.13 Geothermal Controls ........................................................................272 2.13.1 Direct and Indirect Geothermal Pumping ........................272 2.13.2 Binary Cycle Geothermal Heat Pumps (GHPs) .............273 2.13.3 Flash Steam Systems .........................................................275 2.14 Heat Exchanger Optimization ........................................................276 2.14.1 Degrees of Freedom, Gain, Time Constants ......................276 2.14.2 Tuning the Control Loop ......................................................277 2.14.3 Liquid-Liquid Heat Exchangers .........................................278 2.14.4 Heating with Steam ...............................................................280 2.14.5 Condenser and Vaporizer Controls ....................................281 2.14.6 Advanced and Optimizing Controls ..................................282 2.15 Hydrogen Process Optimization ....................................................285 2.15.1 Electrolyzer Controls ............................................................285 2.15.2 Hydrogen Compression ........................................................287 2.15.3 Hydrogen Liquefaction Optimization ................................289 Contents xi 2.16 Power Plant Optimization ...............................................................292 2.16.1 Cogeneration and Combined Cycle.................................... 292 2.16.2 Level and Steam Temperature Controls.............................294 2.16.3 Gas Turbine and Electric Generator Controls...................296 2.17 Pumping Station Optimization .......................................................299 2.17.1 Pump Curves, NPSH, and Cavitation................................299 2.17.2 Pumping Station Optimization ...........................................302 2.17.3 Calculating the Savings ........................................................306 2.18 Solar Collector Farm Controls .........................................................307 2.18.1 Solar Hot Water System Controls ........................................307 2.18.2 Combination Hot Water and Electricity Controls ............308 2.18.3 Photovoltaic Collector Controls ...........................................310 2.18.4 Solar Plant Optimization Algorithms ................................311 2.18.5 Thermal Plant Optimization ...............................................312 2.18.6 Monitoring and Reconfiguration ........................................313 2.19 Steam Turbine Optimization ...........................................................314 2.19.1 Designs, Applications, and Governors ...............................315 2.19.2 Steam Turbine Optimization ...............................................317 2.19.3 Extraction (Two-Stage) Turbine Optimization ..................318 2.19.4 Interaction, Decoupling and Safety ....................................321 3 Sensors and Analyzers for Renewable Energy Processes .........325 3.1 Introduction .......................................................................................325 3.2 Analyzers ...........................................................................................326 3.2.1 Analyzer Selection ................................................................326 3.2.2 Analyzer Sampling ...............................................................329 3.2.2.1 Filtering and Separation .........................................331 3.2.2.2 Probe Cleaners and Homogenizers .......................332 3.2.2.3 Stack Gas Sampling .................................................333 3.2.3 Air-Quality Monitoring ........................................................334 3.2.3.1 Single-Source Sensors .............................................335 3.2.3.2 Static and Automatic Air Monitoring ...................337 3.2.4 Calorimeters ...........................................................................338 3.2.5 Carbon Dioxide ......................................................................339 3.2.6 Coal Analyzers .......................................................................341 3.2.7 Colorimeters and Shade Detectors ......................................343 3.2.8 Combustibles ..........................................................................344 3.2.9 Fiber-Optic Probes .................................................................347 3.2.10 Hydrocarbon Analyzers .......................................................347 3.2.11 Infrared and Near-Infrared Analyzers ..............................349 3.2.12 Mass Spectrometers ..............................................................352 3.2.13 Moisture, Humidity, Dew Point ..........................................354 3.2.14 Moisture in Industrial Materials .........................................357 3.2.15 Odor Detection .......................................................................361 3.2.16 Open Path Spectrophotometry ............................................362 xji Contents 3.2.17 Oxygen in Gases ....................................................................365 3.2.18 Raman Analyzers ..................................................................369 3.2.19 Sulfur Oxide Analyzers ........................................................372 3.2.20 Ultraviolet Analyzers ...........................................................374 3.2.21 Water Quality Monitoring ....................................................377 3.3 Anemometers .....................................................................................380 3.4 Btu and Heat Rate Measurement ....................................................382 3.5 Electric Meters and Peak Shedding ................................................385 3.6 Energy Management Systems .........................................................389 3.7 Explosion Suppression .....................................................................392 3.8 Fire, Flame, and Smoke Detectors ..................................................395 3.9 Flowmeters ........................................................................................396 3.9.1 Application and Selection ....................................................399 3.9.1.1 Accuracy and Rangeability ....................................399 3.9.1.2 Safety and Cost ........................................................401 3.9.1.3 Low-Flow Applications ...........................................402 3.9.2 Cross-Correlation Flow Metering (CCFM) ........................402 3.9.3 Elbow Flowmeters .................................................................403 3.9.4 Jet Deflection Flowmeters ....................................................404 3.9.5 Laminar Flowmeters .............................................................405 3.9.6 Magnetic Flowmeters ...........................................................405 3.9.7 Mass Flowmeters ...................................................................408 3.9.7.1 Coriolis Mass Flowmeters ......................................408 3.9.7.2 Thermal Mass Flowmeters .....................................411 3.9.7.3 Indirect Mass Flowmeters ......................................412 3.9.7.4 Angular Momentum Mass Flowmeters ...............413 3.9.8 Metering Pumps ....................................................................414 3.9.9 Orifice Plates ..........................................................................416 3.9.10 Pitot Tubes ..............................................................................420 3.9.11 Polyphase Flowmeters ..........................................................421 3.9.12 Positive-Displacement Flowmeters .....................................423 3.9.12.1 PD Gas Meters ..........................................................423 3.9.12.2 Liquid PD Meters .....................................................424 3.9.13 Purge Flowmeters .................................................................426 3.9.14 Solids Mass Flowmeters .......................................................427 3.9.15 Target Flowmeters .................................................................429 3.9.16 Turbine Flowmeters ..............................................................430 3.9.17 Ultrasonic Flowmeters ..........................................................432 3.9.18 Variable-Area Flowmeters (Rotameters) ............................435 3.9.19 V-Cone Flowmeter .................................................................436 3.9.20 Venturi Tubes and Nozzles ..................................................438 3.9.21 Vortex Flowmeters ................................................................441 3.10 Leak Detectors ...................................................................................444 3.11 Level Detectors ..................................................................................445 3.11.1 Capacitance Probes ...............................................................449 3.11.2 Differential Pressure Sensors ..............................................450 Contents xiii 3.11.3 Displacement-Type Level Detectors ....................................454 3.11.4 Laser and Optical Detectors ................................................455 3.11.5 Microwave and Radar Gauges .............................................458 3.11.6 Radiation Gauges ...................................................................460 3.11.7 Tank Farm Level Monitoring ...............................................461 3.11.8 Ultrasonic Level Detectors ...................................................463 3.12 Machine Vision ..................................................................................465 3.13 Position Detection .............................................................................468 3.14 Pressure Detection ............................................................................470 3.14.1 Application and Selection ....................................................470 3.14.2 High-Pressure Sensors ..........................................................473 3.14.3 Pressure Safety Devices ........................................................478 3.14.3.1 Alarm and Interlock Switches ................................478 3.14.3.2 Pressure Regulators .................................................479 3.14.3.3 Relief Valves ..............................................................482 3.14.3.4 Rupture Disks ...........................................................483 3.15 Positioning and Proximity ...............................................................488 3.16 Temperature .......................................................................................492 3.16.1 Application and Selection ....................................................496 3.16.2 Cryogenic Temperature Sensors .........................................498 3.16.3 High-Temperature Sensors ..................................................500 3.16.4 Infrared and Fiber-Optic Thermometers ...........................501 3.16.5 Resistance Temperature Detectors (RTDs) ........................505 3.16.6 Thermistors ............................................................................508 3.16.7 Thermocouples ......................................................................510 3.17 Weather Stations and Solar Detectors ...........................................516 4 The Design of the World s First Full-Size Solar-Hydrogen Demonstration Power Plant ..........................................................521 4.1 Introduction .......................................................................................521 4.2 Solar-Hydrogen Demonstration Power Plant ..............................521 4.2.1 The Process .............................................................................522 4.2.2 Unique Design Features and Inventions ............................523 4.2.3 Profitability Optimization ....................................................526 4.2.4 Optimizing Control Systems ...............................................527 4.2.4.1 Solar Farm Optimization ........................................527 4.2.4.2 Boiler and Heat Storage Optimization .................529 4.2.4.3 Boiler Feedwater Optimization .............................530 4.2.4.4 Geothermal Heat Pump Optimization .................530 4.2.4.5 Electrolyzer Optimization ......................................531 4.2.4.6 H2 Liquéfier Optimization ......................................533 4.2.4.7 Methanol Converter System ...................................535 4.2.4.8 Optimized H2 Compression ...................................535 5 Conclusions .....................................................................................537 5.1 Comparing Energy Options ............................................................537 xiv Contents 5.2 Nuclear Option..................................................................................538 5.3 Breeder Reactors ................................................................................539 5.4 Costs of Converting to Renewable Energy ...................................542 5.4 Costs of Inaction ...............................................................................543 5.5 The Road to a Sustainable Future ...................................................544 5.6 Dealing with Facts ............................................................................546 Abbreviations ..........................................................................................547 Index ..........................................................................................................553
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author	Lipták, Béla G. 1936-
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discipline	Energietechnik, Energiewirtschaft Energietechnik
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id	DE-604.BV035497180
illustrated	Illustrated
indexdate	2024-07-09T21:38:56Z
institution	BVB
isbn	9781420070255 1420070258
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-017553475
oclc_num	191318223
open_access_boolean
owner	DE-703 DE-29T DE-634 DE-83 DE-91S DE-BY-TUM
owner_facet	DE-703 DE-29T DE-634 DE-83 DE-91S DE-BY-TUM
physical	XIX, 571 S. Ill., graph. Darst.
publishDate	2009
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publishDateSort	2009
publisher	CRC Press
record_format	marc
spelling	Lipták, Béla G. 1936- Verfasser (DE-588)123384842 aut Post-oil energy technology the world's first solar-hydrogen demonstration power plant Béla Lipták Boca Raton [u.a.] CRC Press 2009 XIX, 571 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Includes one folded leaf Centrales solaires Hydrogène (Combustible) Industries énergétiques - Prévision Ressources énergétiques - Prévision Power resources Forecasting Energy industries Technological innovations Energy industries Forecasting Sonnenenergie (DE-588)4055572-0 gnd rswk-swf Wasserstoffenergietechnik (DE-588)4121905-3 gnd rswk-swf Sonnenenergie (DE-588)4055572-0 s Wasserstoffenergietechnik (DE-588)4121905-3 s DE-604 Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017553475&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017553475&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA Klappentext
spellingShingle	Lipták, Béla G. 1936- Post-oil energy technology the world's first solar-hydrogen demonstration power plant Centrales solaires Hydrogène (Combustible) Industries énergétiques - Prévision Ressources énergétiques - Prévision Power resources Forecasting Energy industries Technological innovations Energy industries Forecasting Sonnenenergie (DE-588)4055572-0 gnd Wasserstoffenergietechnik (DE-588)4121905-3 gnd
subject_GND	(DE-588)4055572-0 (DE-588)4121905-3
title	Post-oil energy technology the world's first solar-hydrogen demonstration power plant
title_auth	Post-oil energy technology the world's first solar-hydrogen demonstration power plant
title_exact_search	Post-oil energy technology the world's first solar-hydrogen demonstration power plant
title_full	Post-oil energy technology the world's first solar-hydrogen demonstration power plant Béla Lipták
title_fullStr	Post-oil energy technology the world's first solar-hydrogen demonstration power plant Béla Lipták
title_full_unstemmed	Post-oil energy technology the world's first solar-hydrogen demonstration power plant Béla Lipták
title_short	Post-oil energy technology
title_sort	post oil energy technology the world s first solar hydrogen demonstration power plant
title_sub	the world's first solar-hydrogen demonstration power plant
topic	Centrales solaires Hydrogène (Combustible) Industries énergétiques - Prévision Ressources énergétiques - Prévision Power resources Forecasting Energy industries Technological innovations Energy industries Forecasting Sonnenenergie (DE-588)4055572-0 gnd Wasserstoffenergietechnik (DE-588)4121905-3 gnd
topic_facet	Centrales solaires Hydrogène (Combustible) Industries énergétiques - Prévision Ressources énergétiques - Prévision Power resources Forecasting Energy industries Technological innovations Energy industries Forecasting Sonnenenergie Wasserstoffenergietechnik
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017553475&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017553475&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT liptakbelag postoilenergytechnologytheworldsfirstsolarhydrogendemonstrationpowerplant

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