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Biblioteca

MARC Lista (tabellare)
Atmosphere-biosphere interactions [[electronic resource] ] : toward a better understanding of the ecological consequences of fossil fuel combustion : a report / / prepared by the Committee on the Atmosphere and the Biosphere, Board on Agriculture and Renewable Resources, Commission on Natural Resources, National Rearch Council
Atmosphere-biosphere interactions [[electronic resource] ] : toward a better understanding of the ecological consequences of fossil fuel combustion : a report / / prepared by the Committee on the Atmosphere and the Biosphere, Board on Agriculture and Renewable Resources, Commission on Natural Resources, National Rearch Council
Pubbl/distr/stampa Washington, : National Academy Press, 1981
Descrizione fisica 1 online resource (279 p.)
Disciplina 628.5/32
Altri autori (Persone) SchindlerDavid W
Soggetto topico Fossil fuels - Environmental aspects
Combustion gases - Environmental aspects
Air - Pollution
Soggetto genere / forma Electronic books.
ISBN 1-280-24714-2
9786610247141
0-309-55421-7
0-585-15003-6
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNINA-9910455291103321
Washington, : National Academy Press, 1981
Materiale a stampa
Lo trovi qui: Univ. Federico II
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Atmosphere-biosphere interactions [[electronic resource] ] : toward a better understanding of the ecological consequences of fossil fuel combustion : a report / / prepared by the Committee on the Atmosphere and the Biosphere, Board on Agriculture and Renewable Resources, Commission on Natural Resources, National Rearch Council
Atmosphere-biosphere interactions [[electronic resource] ] : toward a better understanding of the ecological consequences of fossil fuel combustion : a report / / prepared by the Committee on the Atmosphere and the Biosphere, Board on Agriculture and Renewable Resources, Commission on Natural Resources, National Rearch Council
Pubbl/distr/stampa Washington, : National Academy Press, 1981
Descrizione fisica 1 online resource (279 p.)
Disciplina 628.5/32
Altri autori (Persone) SchindlerDavid W
Soggetto topico Fossil fuels - Environmental aspects
Combustion gases - Environmental aspects
Air - Pollution
ISBN 1-280-24714-2
9786610247141
0-309-55421-7
0-585-15003-6
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNINA-9910778893103321
Washington, : National Academy Press, 1981
Materiale a stampa
Lo trovi qui: Univ. Federico II
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Atmosphere-biosphere interactions : toward a better understanding of the ecological consequences of fossil fuel combustion : a report / / prepared by the Committee on the Atmosphere and the Biosphere, Board on Agriculture and Renewable Resources, Commission on Natural Resources, National Rearch Council
Atmosphere-biosphere interactions : toward a better understanding of the ecological consequences of fossil fuel combustion : a report / / prepared by the Committee on the Atmosphere and the Biosphere, Board on Agriculture and Renewable Resources, Commission on Natural Resources, National Rearch Council
Edizione [1st ed.]
Pubbl/distr/stampa Washington, : National Academy Press, 1981
Descrizione fisica 1 online resource (279 p.)
Disciplina 628.5/32
Altri autori (Persone) SchindlerDavid W
Soggetto topico Fossil fuels - Environmental aspects
Combustion gases - Environmental aspects
Air - Pollution
ISBN 9786610247141
9781280247149
1280247142
9780309554213
0309554217
9780585150031
0585150036
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Atmosphere-Biosphere Interactions: -- Copyright -- ACKNOWLEDGMENTS -- Contents -- 1. Introduction and Overview -- THE FOSSIL FUEL SCENARIO: THE PROBABILITY OF A CRISIS IN THE BIOSPHERE -- THIS REPORT -- CONCLUSIONS AND RECOMMENDATIONS -- 2. Scientific Understanding of Atmosphere-Biosphere Interactions: a Historical Overview -- HUMAN ALTERATIONS OF THE ATMOSPHERE -- ENERGY AND AIR POLLUTION -- 3 Biogenic Emissions to the Atmosphere -- NITROGEN -- Terrestrial Ecosystems -- Aquatic Ecosystems -- SULFUR -- Terrestrial Ecosystems -- Aquatic Ecosystems -- TRACE METALS -- ATMOSPHERIC EMISSIONS FROM BURNING OF NATURAL BIOMASS -- NATURAL ORGANIC PRODUCTS -- SUMMARY -- 4 Anthropogenic Sources of Atmospheric Substances -- PATTERNS OF FOSSIL FUEL USE -- ATMOSPHERIC EMISSIONS FROM FOSSIL FUEL BURNING -- Oxides of Sulfur and Nitrogen -- Trace Metals -- Organic Compounds -- SUMMARY -- 5. Atmospheric Transport, Transformation, and Deposition Processes -- TRANSPORT AND DIFFUSION -- TRANSFORMATIONS -- Oxidation Reactions in the Atmosphere -- Reduction Reactions in the Biosphere -- Organic Compounds -- DEPOSITION -- Wet Deposition Processes -- Dry Deposition Processes -- RESIDENCE TIMES FOR SUBSTANCES IN THE ATMOSPHERE -- Monitoring and Data Needs -- SUMMARY -- 6 Biological Accumulation and Effect of Atmospheric Contaminants -- ACCUMULATION IN TERRESTRIAL ECOSYSTEMS -- ACCUMULATION IN AQUATIC ECOSYSTEMS -- ACCUMULATION IN SOILS AND AQUATIC SEDIMENTS -- Aquatic Sediments as Historical Records -- TRANSFORMATIONS IN SOILS AND WATERS -- TRANSFER OF SUBSTANCES FROM TERRESTRIAL TO AQUATIC ECOSYSTEMS -- POLLUTANTS AND INDIVIDUAL ORGANISMS -- Toxicity of Deposited Substances to Organisms -- Terrestrial Ecosystems -- Aquatic Ecosystems -- Interactions Among Pollutants or Between Pollutants and other Stresses -- Terrestrial Ecosystems -- Aquatic Ecosystems.
Resistance to Pollutants -- Past Efforts to Predict Widespread Toxic Effects -- SUMMARY -- 7. Studying the Effects of Atmospheric Deposition on Ecosystems -- PREDICTING ANTHROPOGENIC EFFECTS ON ECOSYSTEMS -- HIGHLY SENSITIVE ORGANISMS AS EARLY INDICATORS -- COMMON RESPONSES OF ECOSYSTEMS TO STRESS -- NATURAL RECORDS OF POLLUTION -- MONITORING LARGE-SCALE POLLUTION -- SUMMARY -- 8. Acid Precipitaton -- CAUSES OF ACID PRECIPITATION -- Extent of the Problem -- EFFECTS OF ACID ON THE BIOSPHERE -- Aquatic Ecosystems -- Chemical Changes -- Biological Changes -- Terrestrial Ecosystems -- Vegetation -- Soils -- Wetlands -- ASSESSMENT OF ECOLOGICAL EFFECTS -- AMELIORATION -- SUMMARY -- Appendix Biographical Sketches of Committee Members -- References -- Index.
Record Nr. UNINA-9910953244603321
Washington, : National Academy Press, 1981
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Carbon Capture and Storage
Carbon Capture and Storage
Autore Rackley Steve A
Edizione [2nd ed.]
Pubbl/distr/stampa Oxford : , : Elsevier Science & Technology, , 2017
Descrizione fisica 1 online resource (699 pages)
Disciplina 628.5/32
Altri autori (Persone) RackleySteve A
Soggetto topico Carbon dioxide - Environmental aspects
Carbon dioxide sinks
Carbon dioxide mitigation
Carbon sequestration
Air quality management
Greenhouse effect, Atmospheric
Greenhouse gases
ISBN 0-12-812041-X
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Front Cover -- Carbon Capture and Storage -- Copyright Page -- Dedication -- Contents -- Preface to the second edition -- Preface to the first edition -- Acknowledgments -- I. Introduction and Overview -- 1 Introduction -- 1.1 The carbon cycle -- 1.1.1 Carbon inventories -- Carbon inventory of the atmosphere -- Carbon inventory of the biosphere and soils -- Carbon inventory of the oceans -- Carbon inventory of the lithosphere -- 1.1.2 Carbon fluxes -- Atmosphere ↔ ocean fluxes -- Atmosphere ↔ terrestrial biosphere and soil fluxes -- Atmosphere ↔ lithosphere fluxes -- 1.2 Mitigating growth of the atmospheric carbon inventory -- 1.2.1 Anthropogenic emission scenarios -- 1.2.2 CO2 stabilization scenarios -- 1.3 The process of technology innovation -- 1.3.1 Technology readiness level classification -- 1.3.2 RDD& -- D timescale -- 1.4 References and resources -- 1.4.1 References -- 1.4.2 Resources -- 2 Overview of carbon capture and storage -- 2.1 Carbon capture -- 2.1.1 Capture from power generation -- 2.1.2 Capture from other industrial processes -- Cement production -- Integrated steel mills -- 2.1.3 Other capture options -- Direct air capture -- 2.2 Carbon storage -- 2.2.1 Geological storage -- 2.2.2 Ocean storage -- 2.2.3 Storage in terrestrial ecosystems -- 2.2.4 Storage by mineral carbonation -- 2.2.5 Other storage and use options -- 2.3 Life-cycle analysis of CCS technologies -- 2.4 References and resources -- 2.4.1 References -- 2.4.2 Resources -- 3 Power generation fundamentals -- 3.1 Physical and chemical fundamentals -- 3.1.1 Fossil fuel combustion -- Partial oxidation -- Heating value of a fuel -- Oxyfueling -- 3.1.2 Gasification of fossil and other fuels -- 3.1.3 Syngas production from methane -- 3.1.4 Thermodynamic cycles -- Rankine steam cycle -- Brayton gas turbine cycle.
3.1.5 Aspects of steel metallurgy for fossil-fueled power plants -- Corrosion resistance -- Carbides, creep, hardening, and embrittlement -- 3.2 Fossil-fueled power plants -- 3.2.1 Introduction -- 3.2.2 Fuels and fuel handling -- Coal firing -- Natural gas firing -- Gasification -- Biomass co-firing -- 3.2.3 Steam generation -- Boiler technology -- Feedwater processing -- Evaporator design -- Superheating, reheating, and steam temperature control -- Condenser and heat recovery -- Combustion technology -- Combustion chambers and burners -- Fluidized bed combustion -- SC and USC steam operation -- 3.2.4 Steam turbine technology -- 3.2.5 Flue gas cleanup -- Ash and particulate removal -- Flue gas desulfurization systems -- Wet scrubbing flue gas desulfurization process -- Electron beam FGD -- NOx control and removal -- NOx control during combustion -- NOx removal by selective reduction -- Electron beam flue gas NOx removal -- 3.2.6 Thermal efficiency of conventional power plants -- 3.3 Combined cycle power generation -- 3.3.1 Heat recovery steam generation -- 3.3.2 Combined cycle thermal efficiency -- 3.3.3 Integrated gasification combined cycle power generation -- 3.4 Future developments in power generation technology -- 3.4.1 Materials development for SC and USC boilers -- 3.5 References and resources -- 3.5.1 References -- 3.5.2 Resources -- II. Carbon Capture Technologies -- 4 Carbon capture from power generation -- 4.1 Introduction -- 4.2 Pre-combustion capture -- 4.2.1 Pre-combustion RD& -- D projects -- R& -- D and pilot-scale testing -- Demonstration and early deployment projects -- 4.3 Post-combustion capture -- 4.3.1 Post-combustion RD& -- D projects -- R& -- D and pilot-scale testing -- Demonstration and early deployment projects -- 4.4 Oxyfuel combustion -- 4.4.1 Oxyfuel RD& -- D projects -- R& -- D and pilot-scale testing.
Planned demonstration projects -- 4.5 Chemical looping systems -- 4.5.1 Chemical looping combustion -- 4.5.2 Chemical looping reforming -- 4.5.3 Chemical looping hydrogen production -- 4.6 Capture-ready and retrofit power plant -- 4.6.1 Capture-ready power plants -- 4.6.2 Retrofitting capture capability -- 4.7 Approaches to zero-emission power generation -- 4.7.1 AZEP concept: Norsk Hydro/Alstom -- 4.7.2 ZEC concept: Los Alamos National Laboratory -- 4.8 References and resources -- 4.8.1 References -- 4.8.2 Resources -- 5 Carbon capture from industrial processes -- 5.1 Cement production -- 5.1.1 Post-combustion capture from cement plants -- 5.1.2 Oxygen enrichment and oxyfuel processes -- 5.1.3 Cement production from carbon capture processes -- 5.2 Steel production -- 5.3 Oil refining -- 5.4 Natural gas processing -- 5.5 Pulp and paper production -- 5.6 References and resources -- 5.6.1 References -- 5.6.2 Resources -- 6 Absorption capture systems -- 6.1 Chemical and physical fundamentals -- 6.1.1 Chemical absorption -- Amine-based absorption -- Aqueous carbonate-based absorption -- Enzyme-catalyzed chemical absorption -- Aqueous ammonia-based absorption -- Sodium hydroxide-based absorption -- Phase-change solvents -- 6.1.2 Physical absorption -- 6.2 Absorption capture applications -- 6.2.1 Chemical absorption applications -- Amine-based chemical absorption -- Ammonia-based chemical absorption -- 6.2.2 Physical absorption applications -- Selexol™ process -- Rectisol process -- Fluor Solvent process -- 6.3 Absorption technology RD& -- D status -- 6.3.1 Improved amine-based systems -- 6.3.2 Enzyme catalyzed aqueous carbonate solvent R& -- D -- 6.3.3 Phase-change solvent R& -- D -- Bi-phasic liquid solvent R& -- D -- Precipitating solvent R& -- D -- 6.3.4 Ionic liquid solvents -- Task-specific ILs -- Reversible ILs.
6.3.5 Solvent microencapsulation -- 6.3.6 Sodium hydroxide-based systems -- Flue gas CO2 capture using sodium hydroxide -- Direct air CO2 capture using sodium hydroxide -- 6.4 References and resources -- 6.4.1 References -- 6.4.2 Resources -- 7 Adsorption capture systems -- 7.1 Physical and chemical fundamentals -- 7.1.1 Adsorption thermodynamics -- Sorption-desorption characteristics -- Chemical and physical sorbents -- 7.1.2 Chemical sorbents -- Metal oxide sorbents -- Alkali metal carbonate sorbents -- Supported amine sorbents -- Hydrotalcites -- 7.1.3 Physical sorbents -- Zeolites -- Metal-organic frameworks -- 7.2 Adsorption process configurations and operating modes -- 7.2.1 Fixed bed adsorption systems -- 7.2.2 Moving bed adsorption systems -- Simulated moving beds -- Fluidized beds -- Chemical looping -- 7.2.3 Temperature swing adsorption/desorption -- Electric swing adsorption -- 7.2.4 PSA processes -- Vacuum swing adsorption -- High-frequency pressure cycling -- 7.3 Adsorption technology RD& -- D status -- 7.3.1 Advanced PSA/VSA cycles -- Adsorption heat storage -- 7.3.2 Sorption-enhanced reactions -- Sorption-enhanced WGS -- Sorption-enhanced steam reforming -- 7.3.3 Adsorption-based direct air capture -- 7.3.4 Novel sorbent materials -- High-temperature sorbents -- Composite sorbents -- 7.3.5 Metal-organic frameworks -- Gate opening and breathing phenomena in flexible MOFs -- Phase-change functionalized MOF sorbents -- 7.3.6 Chemical looping RD& -- D status -- Chemical looping combustion -- CaO looping post-combustion capture -- Hybrid combustion-gasification by chemical looping -- 7.4 References and resources -- 7.4.1 References -- 7.4.2 Resources -- 8 Membrane separation systems -- 8.1 Physical and chemical fundamentals -- 8.1.1 Porous membrane transport processes -- Viscous capillary flow -- Knudsen diffusion.
Surface diffusion and capillary condensation -- Molecular sieving -- 8.1.2 Solution-diffusion transport process -- 8.1.3 Mixed matrix membranes -- 8.1.4 Facilitated transport membranes -- 8.1.5 Ion transport membranes -- 8.1.6 Supported liquid membranes -- Molecular gate membranes -- 8.2 Membrane configuration and preparation, and module construction -- 8.2.1 Membrane types -- 8.2.2 Membrane module configurations -- Spiral-wound modules -- Hollow-fiber modules -- Ceramic wafer stack modules -- 8.3 Membrane technology RD& -- D status -- 8.4 Membrane separation applications -- 8.4.1 Oxygen ion transport membranes for syngas production -- 8.4.2 Palladium membranes in IGCC applications -- 8.4.3 Membrane and molecular sieve applications in oxyfuel combustion -- Molecular sieves for oxygen production -- Ion transport membranes for oxygen production -- 8.4.4 Membrane applications in post-combustion CO2 separation -- High-temperature molten carbonate membrane -- Facilitated transport membranes -- CMS membranes -- 8.4.5 Membrane applications in natural gas processing -- Polymeric membranes -- Polymeric facilitated transport membranes -- Gas-liquid membrane contactors -- 8.5 References and resources -- 8.5.1 References -- 8.5.2 Resources -- 9 Low temperature and distillation systems -- 9.1 Distillation systems -- 9.1.1 Physical fundamentals -- 9.1.2 Distillation column configuration and operation -- 9.2 Hydrate-based capture -- 9.2.1 Physical fundamentals -- 9.2.2 Configuration and operation of hydrate separation systems -- 9.2.3 Integrated and hybrid hydrate separation systems -- Hybrid hydrate/membrane systems -- Hybrid cryogenic/hydrate systems -- 9.3 CO2 capture by cryogenic separation -- 9.3.1 Physical fundamentals -- Low-temperature phase behavior of CO2 -- Reverse Carnot cycles -- 9.3.2 Pre-combustion cryogenic separation.
9.3.3 Post-combustion cryogenic separation.
Record Nr. UNINA-9910297411803321
Rackley Steve A  
Oxford : , : Elsevier Science & Technology, , 2017
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Carbon capture and storage : physical, chemical, and biological methods / / sponsored by Carbon Capture and Storage Task Committee of the Environmental Council, Environmental and Water Resources Institute (EWRI) of the American Society of Civil Engineers ; edited by Rao Y. Surampalli [and 9 others]
Carbon capture and storage : physical, chemical, and biological methods / / sponsored by Carbon Capture and Storage Task Committee of the Environmental Council, Environmental and Water Resources Institute (EWRI) of the American Society of Civil Engineers ; edited by Rao Y. Surampalli [and 9 others]
Pubbl/distr/stampa Reston, Virginia : , : American Society of Civil Engineers, , 2015
Descrizione fisica 1 online resource (550 p.)
Disciplina 628.5/32
Soggetto topico Carbon sequestration
Sequestration (Chemistry)
Soggetto genere / forma Electronic books.
ISBN 1-68015-743-4
0-7844-7891-0
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNINA-9910460691803321
Reston, Virginia : , : American Society of Civil Engineers, , 2015
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Carbon capture and storage : CO2 management technologies / / edited by Amitava Bandyopadhyay, PhD
Carbon capture and storage : CO2 management technologies / / edited by Amitava Bandyopadhyay, PhD
Edizione [First edition.]
Pubbl/distr/stampa Waretown, N.J. : , : Apple Academic Press, Inc., , [2014]
Descrizione fisica 1 online resource (408 p.)
Disciplina 628.5/32
Soggetto topico Carbon sequestration - Technological innovations
Geological carbon sequestration - Technological innovations
Carbon dioxide mitigation - Technological innovations
ISBN 1-77463-341-8
0-429-16302-9
1-77188-021-X
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Front Cover; About The Editor; Contents; Acknowledgment Andhow To Cite; List Of Contributors; Introduction; Part I Absorption, Adsorption,and Membrane Based Separation Processes For Co2 Capture; Chapter 1 Amine Versus Ammonia Absorption Of Co2 As A Measure Of Reducing Ghg Emission: A Critical Analysis; Chapter 2 Co2 Capture In A Spray Column Using A Critical Flow Atomizer; Chapter 3 Characteristics Of Co2 Hydrateformation And Dissociation In Glass Beads And Silica Gel; Part II Geological Sequestration Of Co2
Chapter 4 Geological Carbon Sequestration: A New Approach For Near-surface Assurance MonitoringChapter 5 Enzymatic Carbon Dioxide Capture; Chapter 6 On The Potential For Co2 Mineral Storage In Continental Floodbasalts-phreeqc Batch And 1d Diffusion-reaction Simulations; Chapter 7 Experimental Study Of Cements And Stone/shale-brine-co2 Interactions; Part III Biological Sequestration Of Co2; Chapter 8 Identification Of A Co2 Responsive Regulon In Bordetella; Chapter 9 Co2 Efflux From Cleared Mangrove Peat
Chapter 10 Soil Microbial Responses To Elevated Co2 And O3 In A Nitrogen-aggrading AgroecosystemPart IV Current Research Trends In Co2capture Using Ionic Liquids; Chapter 11 Overview Of Ionic Liquids Used As Working Fluids In Absorption Cycles; Chapter 12 Co2 Capture In Ionic Liquids: A Review Of Solubilities And Experimental Methods; Chapter 13 Capturing Carbon Dioxide From Air; Author Notes; Back Cover
Record Nr. UNINA-9910787843903321
Waretown, N.J. : , : Apple Academic Press, Inc., , [2014]
Materiale a stampa
Lo trovi qui: Univ. Federico II
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Carbon capture and storage : CO2 management technologies / / edited by Amitava Bandyopadhyay, PhD
Carbon capture and storage : CO2 management technologies / / edited by Amitava Bandyopadhyay, PhD
Edizione [First edition.]
Pubbl/distr/stampa Waretown, N.J. : , : Apple Academic Press, Inc., , [2014]
Descrizione fisica 1 online resource (408 p.)
Disciplina 628.5/32
Soggetto topico Carbon sequestration - Technological innovations
Geological carbon sequestration - Technological innovations
Carbon dioxide mitigation - Technological innovations
ISBN 1-77463-341-8
0-429-16302-9
1-77188-021-X
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Front Cover; About The Editor; Contents; Acknowledgment Andhow To Cite; List Of Contributors; Introduction; Part I Absorption, Adsorption,and Membrane Based Separation Processes For Co2 Capture; Chapter 1 Amine Versus Ammonia Absorption Of Co2 As A Measure Of Reducing Ghg Emission: A Critical Analysis; Chapter 2 Co2 Capture In A Spray Column Using A Critical Flow Atomizer; Chapter 3 Characteristics Of Co2 Hydrateformation And Dissociation In Glass Beads And Silica Gel; Part II Geological Sequestration Of Co2
Chapter 4 Geological Carbon Sequestration: A New Approach For Near-surface Assurance MonitoringChapter 5 Enzymatic Carbon Dioxide Capture; Chapter 6 On The Potential For Co2 Mineral Storage In Continental Floodbasalts-phreeqc Batch And 1d Diffusion-reaction Simulations; Chapter 7 Experimental Study Of Cements And Stone/shale-brine-co2 Interactions; Part III Biological Sequestration Of Co2; Chapter 8 Identification Of A Co2 Responsive Regulon In Bordetella; Chapter 9 Co2 Efflux From Cleared Mangrove Peat
Chapter 10 Soil Microbial Responses To Elevated Co2 And O3 In A Nitrogen-aggrading AgroecosystemPart IV Current Research Trends In Co2capture Using Ionic Liquids; Chapter 11 Overview Of Ionic Liquids Used As Working Fluids In Absorption Cycles; Chapter 12 Co2 Capture In Ionic Liquids: A Review Of Solubilities And Experimental Methods; Chapter 13 Capturing Carbon Dioxide From Air; Author Notes; Back Cover
Record Nr. UNINA-9910960726503321
Waretown, N.J. : , : Apple Academic Press, Inc., , [2014]
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Carbon capture and storage in developing countries [[electronic resource] ] : a perspective on barriers to deployment / / Natalia Kulichenko, Eleanor Ereira
Carbon capture and storage in developing countries [[electronic resource] ] : a perspective on barriers to deployment / / Natalia Kulichenko, Eleanor Ereira
Pubbl/distr/stampa Washington, D.C., : World Bank, 2012
Descrizione fisica 1 online resource (192 p.)
Disciplina 628.5/32
Altri autori (Persone) KulichenkoNatalia
EreiraEleanor
Collana World Bank Studies
Soggetto topico Carbon sequestration - Developing countries
Carbon dioxide mitigation - Developing countries
Environmental policy - Developing countries
Soggetto genere / forma Electronic books.
ISBN 1-280-87859-2
9786613719904
0-8213-9610-2
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Contents; Foreword; Acknowledgments; Acronyms and Abbreviations; Units of Measure; Executive Summary; Potential CCS Deployment in the Power Sector in Southern Africa and the Balkans; Assessment of Legal and Regulatory Frameworks Applicable to Potential CCS Deployment in Southern Africa and the Balkans; The Role of Climate Finance Sources to Accelerate Carbon Capture and Storage Deployment in Developing Countries; Finance Structures and Their Impacts on Levelized Cost of Electricity for Power Plants with CCS; Conclusions; Note; Reference; Chapter 1 Introduction; References
Chapter 2 Technology Overview and Status of CCS DevelopmentCCS Technology; Figures; Figure 2.1: Diagram of a Power Plant with CCS with Offshore Storage and Enhanced Oil Recovery; Economics; Tables; Table 2.1: Active Large-Scale Integrated CCS Projects; Figure 2.2: Comparison of Studies of LCOE Increase and Net Efficiency Decrease for Post-Combustion Power Plants with CCS; Notes; References; Chapter 3 Techno-Economic Assessment of Carbon Capture and Storage Deployment in the Power Sector in the Southern African and Balkan Regions; Overview of Results; Table 3.1: Summary of Findings
MethodologySouthern African Region; Figure 3.1: Electricity Generation for Southern African Region-Reference Scenario; Figure 3.2: Electricity Generation for Southern African Region-Baseline Scenario; Figure 3.3: Electricity Generation Portfolio for Southern African Region-US100/Ton CO2 Price Scenario; Figure 3.4: Cumulative CO2 Storage for Southern African Region-US100/Ton CO2 Scenario; Table 3.2: Summary of Installed Capacity in 2030 for the Southern African Region (MW); Figure 3.5: Summary of Results for Southern African Region, 2030
Figure 3.6: Comparison of Average Generation Costs across Scenarios for the Southern African RegionFigure 3.7: Comparison of Annual CO2 Emissions across Scenarios for the Southern African Region; The Balkan Region; Figure 3.8: Electricity Generation for the Balkan Region-Reference Scenario; Figure 3.9: CO2 Emissions for the Balkan Region-Reference Scenario; Figure 3.10: Share of CCS in Coal-Based Power Generation in the Balkan Region-Reference Scenario with EOR/ECBM Benefits; Figure 3.11: Share of CCS-Based Generation in the Balkan Region-US100/Ton CO2 Price Scenario
Figure 3.12: CO2 Stored in the Balkan Region-US100/Ton CO2 Price ScenarioFigure 3.13: CO2 Emissions for the Balkan Region-US100/Ton CO2 Price Scenario; Figure 3.14: Comparison of Average Generation Costs across Scenarios for the Balkan Region; Table 3.3: Summary of Installed Capacity in 2030 for the Balkan Region (MW); Figure 3.15: Comparison of Total CO2 Emissions across Scenarios for the Balkan Region; Notes; References; Chapter 4 Addressing the Legal and Regulatory Barriers in Developing Countries; Key International and Multilateral Legal Instruments Relevant to CCS Projects; Boxes
Box 4.1: Key Findings and Recommendations
Record Nr. UNINA-9910461842503321
Washington, D.C., : World Bank, 2012
Materiale a stampa
Lo trovi qui: Univ. Federico II
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Carbon capture and storage in developing countries : : a perspective on barriers to deployment / / Natalia Kulichenko, Eleanor Ereira
Carbon capture and storage in developing countries : : a perspective on barriers to deployment / / Natalia Kulichenko, Eleanor Ereira
Pubbl/distr/stampa Washington, DC : , : World Bank, , 2012
Descrizione fisica pages cm
Disciplina 628.5/32
Altri autori (Persone) KulichenkoNatalia
EreiraEleanor
Collana World Bank Studies
Soggetto topico Carbon sequestration - Developing countries
Carbon dioxide mitigation - Developing countries
Environmental policy - Developing countries
ISBN 1-280-87859-2
9786613719904
0-8213-9610-2
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Contents; Foreword; Acknowledgments; Acronyms and Abbreviations; Units of Measure; Executive Summary; Potential CCS Deployment in the Power Sector in Southern Africa and the Balkans; Assessment of Legal and Regulatory Frameworks Applicable to Potential CCS Deployment in Southern Africa and the Balkans; The Role of Climate Finance Sources to Accelerate Carbon Capture and Storage Deployment in Developing Countries; Finance Structures and Their Impacts on Levelized Cost of Electricity for Power Plants with CCS; Conclusions; Note; Reference; Chapter 1 Introduction; References
Chapter 2 Technology Overview and Status of CCS DevelopmentCCS Technology; Figures; Figure 2.1: Diagram of a Power Plant with CCS with Offshore Storage and Enhanced Oil Recovery; Economics; Tables; Table 2.1: Active Large-Scale Integrated CCS Projects; Figure 2.2: Comparison of Studies of LCOE Increase and Net Efficiency Decrease for Post-Combustion Power Plants with CCS; Notes; References; Chapter 3 Techno-Economic Assessment of Carbon Capture and Storage Deployment in the Power Sector in the Southern African and Balkan Regions; Overview of Results; Table 3.1: Summary of Findings
MethodologySouthern African Region; Figure 3.1: Electricity Generation for Southern African Region-Reference Scenario; Figure 3.2: Electricity Generation for Southern African Region-Baseline Scenario; Figure 3.3: Electricity Generation Portfolio for Southern African Region-US100/Ton CO2 Price Scenario; Figure 3.4: Cumulative CO2 Storage for Southern African Region-US100/Ton CO2 Scenario; Table 3.2: Summary of Installed Capacity in 2030 for the Southern African Region (MW); Figure 3.5: Summary of Results for Southern African Region, 2030
Figure 3.6: Comparison of Average Generation Costs across Scenarios for the Southern African RegionFigure 3.7: Comparison of Annual CO2 Emissions across Scenarios for the Southern African Region; The Balkan Region; Figure 3.8: Electricity Generation for the Balkan Region-Reference Scenario; Figure 3.9: CO2 Emissions for the Balkan Region-Reference Scenario; Figure 3.10: Share of CCS in Coal-Based Power Generation in the Balkan Region-Reference Scenario with EOR/ECBM Benefits; Figure 3.11: Share of CCS-Based Generation in the Balkan Region-US100/Ton CO2 Price Scenario
Figure 3.12: CO2 Stored in the Balkan Region-US100/Ton CO2 Price ScenarioFigure 3.13: CO2 Emissions for the Balkan Region-US100/Ton CO2 Price Scenario; Figure 3.14: Comparison of Average Generation Costs across Scenarios for the Balkan Region; Table 3.3: Summary of Installed Capacity in 2030 for the Balkan Region (MW); Figure 3.15: Comparison of Total CO2 Emissions across Scenarios for the Balkan Region; Notes; References; Chapter 4 Addressing the Legal and Regulatory Barriers in Developing Countries; Key International and Multilateral Legal Instruments Relevant to CCS Projects; Boxes
Box 4.1: Key Findings and Recommendations
Record Nr. UNINA-9910790302003321
Washington, DC : , : World Bank, , 2012
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Carbon footprint analysis : concepts, methods, implementation, and case studies / / Matthew John Franchetti, Defne Apul
Carbon footprint analysis : concepts, methods, implementation, and case studies / / Matthew John Franchetti, Defne Apul
Autore Franchetti Matthew J.
Pubbl/distr/stampa Boca Raton, Fla. : , : CRC Press, , 2013
Descrizione fisica 1 online resource (267 p.)
Disciplina 628.5/32
Altri autori (Persone) ApulDefne
Collana Industrial innovation series
Soggetto topico Atmospheric carbon dioxide - Measurement
Air - Pollution - Measurement
Greenhouse gas mitigation
Environmental policy - United States
Soggetto genere / forma Electronic books.
ISBN 0-429-10988-1
1-4398-5784-9
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Front Cover; Contents; Preface; Acknowledgments; Author Biographies; Chapter 1 - Definitions of Carbon Footprint Analysis and Related Concepts; Chapter 2 - Benefits of Energy and Greenhouse Gas Reduction and Minimization; Chapter 3 - Environmental Laws and Regulations; Chapter 4 - Standards for Carbon Footprint Analysis; Chapter 5 - GHG Protocol; Chapter 6 - Metrics and Performance Measurement for Carbon Footprint Analyses; Chapter 7 - Energy and Greenhouse Gas Calculators Available on the Internet; Chapter 8 - Carbon Footprints of Some Entities
Chapter 9 - Introduction: The System Approach to Carbon Footprint and Energy ReductionChapter 10 - The Six Sigma Systems Approach for Deployment; Chapter 11 - Deployment Alternatives; Chapter 12 - Creating a Successful Project Launch; Chapter 13 - The General Approach to Greenhouse Gas and Energy Analyses; Chapter 14 - Employee Training; Chapter 15 - Higher Education Carbon Management; Chapter 16 - Energy Analysis and Minimization in Manufacturing; Chapter 17 - Energy Analysis and Minimization in Health Care; Chapter 18 - Energy Analysis in Minimization in Construction and Manufacturing
Back Cover
Record Nr. UNINA-9910462400003321
Franchetti Matthew J.  
Boca Raton, Fla. : , : CRC Press, , 2013
Materiale a stampa
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