Renewable and alternative energy resources /

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Hlavní autoři: Hanif, Muhammad Asif (Autor), Nadeem, Farwa (Autor), Tariq, Rida (Autor), Rashid, Umer (Autor)
Typ dokumentu: Kniha
Jazyk:Angličtina
Vydáno: San Diego : Elsevier Science & Technology, [2022]
Témata:
alternativní energetické zdroje
energetické zdroje
environmentalismus
alternative energy sources
power resources
environmentalism
elektronické knihy
e-knihy online
electronic books
e-books online
On-line přístup:Elektronická verze přístupná pouze pro studenty a pracovníky MU
Příbuzné jednotky:Tištěná verze:: Renewable and alternative energy resources
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100 1 |a Hanif, Muhammad Asif  |4 aut 
245 1 0 |a Renewable and alternative energy resources /  |c Muhammad Asif Hanif, Farwa Nadeem, Rida Tariq, and Umer Rashid 
264 1 |a San Diego :  |b Elsevier Science & Technology,  |c [2022] 
264 4 |c ©2022 
300 |a 1 online zdroj (808 stran) 
336 |a text  |b txt  |2 rdacontent 
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505 0 |a Front Cover -- Renewable and Alternative Energy Resources -- Copyright Page -- Dedication -- Contents -- About the authors -- Foreword -- Preface -- Acknowledgments -- 1 Energy resources and utilization -- 1.1 Sources and types of energy resources -- 1.1.1 Nonrenewable energy resources -- 1.1.1.1 The hidden cost of fossil fuels -- 1.1.2 Renewable energy resources -- 1.1.2.1 History of renewable energy -- 1.1.2.2 Need of renewable energy resources -- 1.1.2.2.1 Climate change -- 1.1.2.2.2 Peak fossil oil -- 1.1.2.2.3 Greenhouse gases -- 1.1.2.2.4 Energy security -- 1.1.3 Energy policies -- 1.1.3.1 Biofuel directive -- 1.1.3.2 Kyoto protocol -- 1.1.4 Biofuels -- 1.1.5 Countries with major dependency on nonrenewable energy -- 1.1.6 Emerging technologies -- 1.1.7 Future perspective -- References -- 2 Nonrenewable energy resources -- 2.1 Nonrenewable energy resources -- 2.1.1 Coal -- 2.1.1.1 Global trends in production and trade of coal -- 2.1.1.2 Conversion of coal into electrical energy -- 2.1.1.3 Coal in production of steel -- 2.1.1.4 Liquefaction of coal -- 2.1.1.5 Use of coal in cement industry -- 2.1.1.6 Effects of coal mining on environment -- 2.1.1.7 Land disturbances caused by coal mines -- 2.1.1.8 Mine subsidence -- 2.1.1.9 Water pollution from coal mines -- 2.1.1.10 Air pollution -- 2.1.1.11 Noise pollution -- 2.1.1.12 Restoring the environment to its natural state -- 2.1.1.12.1 Rehabilitation -- 2.1.1.12.2 Overburden material classification -- 2.1.1.12.3 Land recontouring -- 2.1.1.12.4 Regeneration -- 2.1.1.13 Coal mine methane -- 2.1.1.13.1 Cleaner coal production -- 2.1.1.13.2 Coal washing -- 2.1.1.13.3 Particulate matter -- 2.1.1.13.4 Solutions to acid rain -- 2.1.1.13.5 Restoration of damaged environment -- 2.1.1.13.6 Alternative energy resources -- 2.1.1.13.7 Individual, national/state and international actions. 
505 8 |a 2.1.1.13.8 Reduction of carbon dioxide in air -- 2.1.1.13.9 Reduction in vehicular emissions -- 2.1.1.13.10 Reduced energy consumption -- 2.1.1.13.11 Reduced waste consumption -- 2.1.1.13.12 Restoration of natural sinks -- 2.1.1.13.13 Miscellaneous options -- 2.1.1.14 Future of coal-based energy -- 2.1.2 Petroleum -- 2.1.2.1 History of petroleum -- 2.1.2.2 Chemistry of petroleum -- 2.1.2.3 Sources of petroleum -- 2.1.2.4 Formation of petroleum -- 2.1.2.5 Recovery of oil and gas -- 2.1.2.5.1 Primary recovery: natural drive and artificial lift -- 2.1.2.5.2 Secondary recovery: injection of gas or water -- 2.1.2.5.3 Enhanced recovery -- 2.1.2.6 Classification of crude oil -- 2.1.2.7 Geology of petroleum -- 2.1.2.8 Natural petroleum reservoirs -- 2.1.2.9 Extraction of petroleum -- 2.1.2.10 Petroleum and environment: bitumen and boreal forest -- 2.1.2.11 Refining of petroleum -- 2.1.2.12 Current petroleum industries -- 2.1.2.13 Use of petroleum -- 2.1.2.14 Future of petroleum -- 2.1.3 Natural gas -- 2.1.3.1 Chemical composition of natural gas -- 2.1.3.2 Typical combustion properties of natural gas -- 2.1.3.3 Composition and properties -- 2.1.3.4 Brief history of natural gas -- 2.1.3.5 Formation of natural gas -- 2.1.3.6 Methane as a natural gas -- 2.1.3.7 Types of natural gas -- 2.1.3.8 Use of natural gas -- 2.1.3.9 Production of electrical energy -- 2.1.3.10 Transportation fuel -- 2.1.3.11 Heating and cogeneration -- 2.1.3.11.1 Common combined heat and power configurations -- 2.1.3.12 Liquefied natural gas -- 2.1.3.13 Fueling of a growing market with liquefied natural gas -- 2.1.3.14 Greenhouse gas emissions -- 2.1.3.15 Impact on renewable energy -- 2.1.3.16 Propane -- 2.1.3.17 Benefits of liquefied petroleum gas -- 2.1.3.18 Future perspective -- 2.1.4 Nuclear power -- 2.1.4.1 Nuclear fission -- 2.1.4.1.1 Controlled nuclear fission. 
505 8 |a 2.1.4.2 Nuclear fusion -- 2.1.4.2.1 Fusion technology -- 2.1.4.3 Nuclear reactors -- 2.1.4.4 Nuclear waste -- 2.1.4.5 The rise of nuclear power -- 2.1.4.6 The fall of nuclear power -- 2.1.4.7 Radioactive waste management -- 2.1.4.8 Types of radioactive wastes -- 2.1.4.8.1 Low-level waste -- 2.1.4.8.2 Intermediate-level waste -- 2.1.4.8.3 High-level waste -- 2.1.4.8.4 Very low-level waste -- 2.1.4.9 Mining of uranium for fabrication of fuel -- 2.1.4.10 Generation of electrical energy -- 2.1.4.11 Reprocessing of used fuel -- 2.1.4.12 Decommissioning of nuclear plants -- 2.1.4.12.1 Legacy wastes -- 2.1.4.12.2 Nonnuclear power wastes -- 2.1.4.12.3 Treatment and conditioning -- 2.1.4.12.4 Storage and disposal -- 2.1.4.13 Nuclear-based power projects -- References -- 3 Future energy options: an overview -- 3.1 Shale gas -- 3.1.1 Origin of shale gas -- 3.1.2 Distinctive properties of shale gas -- 3.1.3 History of shale gas -- 3.1.4 Natural reserves of shale gas -- 3.1.5 Production and extraction of shale gas -- 3.1.5.1 Hydraulic fracturing -- 3.1.6 Shale gas in worldwide basins -- 3.1.7 Estimates of conservative shale gas basins -- 3.1.8 Highly dependent countries -- 3.1.9 Proper natural gas infrastructure -- 3.1.10 Importance of shale gas -- 3.1.11 Global shale gas reserves -- 3.1.12 Environmental impacts of shale gas -- 3.1.12.1 Contamination of natural water resources -- 3.1.12.2 Induced seismic vibrations -- 3.1.12.3 Release of greenhouse gases -- 3.1.12.4 Excessive utilization of water -- 3.1.12.5 Huge economic burden -- 3.1.13 Future of shale gas -- 3.2 Offshore wind energy and offshore wind farm -- 3.2.1 Offshore wind energy -- 3.2.2 Working of wind turbines -- 3.2.3 Types of offshore wind turbines -- 3.2.3.1 Fixed foundation offshore wind turbines -- 3.2.3.2 Floating offshore wind turbines -- 3.2.3.3 Vertical axis offshore wind turbines. 
505 8 |a 3.2.4 Offshore wind farm -- 3.2.4.1 Localization of offshore wind farms -- 3.2.4.2 Components of offshore wind farm -- 3.2.4.3 Characteristics of offshore wind power -- 3.2.5 Major components of wind turbines -- 3.2.5.1 Nacelle -- 3.2.5.2 Rotor blades -- 3.2.5.3 Tower -- 3.2.6 Offshore wind energy resources -- 3.2.7 Commercial offshore wind energy generation -- 3.2.8 Transportation of wind generated energy -- 3.2.9 Economics of building and operating offshore wind farms -- 3.2.9.1 Investment costs -- 3.2.9.2 Energy cost -- 3.2.9.3 Offshore wind power by different countries -- 3.2.9.4 Harmful environmental consequences -- 3.2.9.4.1 Visual impacts -- 3.2.9.4.2 Noise impacts -- 3.2.9.4.3 Construction and decommissioning noises -- 3.2.9.4.4 Operational noises -- 3.2.10 Future energy projects -- 3.3 Carbon capture technology -- 3.3.1 Introduction of carbon capture technology -- 3.3.2 Working principle and capturing methods -- 3.3.3 Postcombustion processes -- 3.3.4 Precombustion processes -- 3.3.5 Oxyfuel combustion -- 3.3.6 Carbon dioxide separation technologies -- 3.3.6.1 Absorption -- 3.3.6.2 Adsorption -- 3.3.7 Chemical looping combustion -- 3.3.8 Membrane separation process -- 3.3.9 Hydrate based separation -- 3.3.10 Cryogenic distillation -- 3.3.11 Transportation of carbon dioxide -- 3.3.12 Storage of carbon dioxide -- 3.3.13 Impacts on environment -- 3.3.14 Global scenario -- References -- 4 Solar thermal energy and photovoltaic systems -- 4.1 Solar thermal energy -- 4.1.1 Concentrated solar thermal systems -- 4.1.1.1 Types of concentrated solar thermal technology -- 4.1.1.1.1 Solar thermal storage -- 4.1.1.1.2 Solar water heating -- 4.1.1.1.3 Solar distillation -- Method 1 -- Method 2 -- 4.1.1.1.4 Other purification processes -- 4.1.1.2 Heating of swimming pool by solar energy -- 4.1.1.2.1 Working principle. 
505 8 |a 4.1.1.2.2 Example of working of solar collector -- 4.1.1.3 Stand-alone solar rankine system -- 4.1.1.3.1 Storage tank -- 4.1.1.4 Hybrid system -- 4.1.2 Integrated solar combined cycle system -- 4.1.3 Combined cycle system -- 4.1.4 Combined power plant -- 4.1.5 Solar thermal power systems using concentrated solar energy -- 4.1.6 Solar ponds -- 4.1.6.1 Working of solar water pumping system -- 4.1.6.2 Sun drying -- 4.1.6.3 Integrated solar dryers -- 4.1.6.4 Distributed solar dryers -- 4.1.6.5 Solar cookers -- 4.1.7 Energy efficiency in buildings -- 4.1.7.1 Low, passive, zero and plus energy buildings -- 4.1.7.1.1 Type 0-Standard building -- 4.1.7.1.2 Type I-Low energy building -- 4.1.7.1.3 Type II-Passive energy building -- 4.1.7.1.4 Type III-Zero energy building -- 4.1.7.1.5 Type IV-Plus energy building -- 4.1.7.2 Working of energy efficient buildings -- 4.1.7.3 Refining the design -- 4.1.7.3.1 Direct gain -- 4.1.7.3.2 Indirect gain -- 4.1.7.3.3 Thermal storage wall systems -- 4.1.7.3.4 Roof pond systems -- 4.1.8 Indirect gain system rules of thumb for thermal storage walls -- 4.1.8.1 The principle of evaporative cooling -- 4.1.8.1.1 Dry bulb temperature -- 4.1.8.1.2 Wet bulb temperature -- 4.1.8.1.3 Working of evaporative air conditioner -- 4.1.8.1.4 Evaporative cooling -- 4.1.8.1.5 Importance of evaporative cooling -- 4.1.8.2 Absorption cooling system -- 4.1.8.2.1 Working of absorption cooling system -- 4.1.8.2.2 Absorption cooling in commercial buildings -- 4.1.8.3 Desiccant cooling systems -- 4.1.8.3.1 Solid desiccant cooling -- 4.1.8.3.2 Liquid desiccant cooling -- 4.1.9 Greenhouse gases-a severe atmospheric constrain -- 4.1.10 Solar furnace -- 4.1.10.1 Historical background of solar furnace -- 4.1.10.2 Working of solar furnace -- 4.1.10.3 Use of solar furnace for different applications -- 4.1.10.4 Temperature range of solar furnaces. 
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