Clean energy, climate and carbon [[electronic resource] /] / Peter J. Cook |
Autore | Cook P. J |
Pubbl/distr/stampa | Collingwood, Vic., : CSIRO Pub. |
Descrizione fisica | 1 online resource (233 p.) |
Disciplina |
333.79
344.2404/6342 |
Soggetto topico |
Geological carbon sequestration
Carbon dioxide mitigation Greenhouse gas mitigation |
Soggetto genere / forma | Electronic books. |
ISBN |
1-280-12849-6
9786613532374 0-643-10682-0 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Cover; Contents; Preface; Acknowledgements; 1 The context; Climate change science: the controversies; Global and national efforts to take action on climate change; About this book; 2 CO2 and climate change; Greenhouse gases; The nature of carbon dioxide; Carbon dioxide and earth's history; Weather versus climate; Causes of pre-human climate change; Distinguishing natural climate change from anthropogenic climate change; Sea level change as evidence for global warming; Global warming and extreme weather events; Act now or later?; Conclusions; 3 Where and why are we producing so much CO2?
The production and use of energy and its impacts on CO2 emissions: an overviewThe use of fossil fuels; Two key sectors: electricity production and transport; Conclusions; 4 Technology options for decreasing CO2 emissions; Solar energy; Wind power; Hydroelectric power; Ocean energy; Biomass; Geothermal energy; Nuclear power; Sequestering CO2 through carbon capture and storage (CCS); Conclusion; 5 The mitigation mix; Population growth and the energy mix; Biofuels in the mix; Land requirements of different technologies; Energy and water; Renewable energy in the energy mix Non renewable energy in the energy mixThe energy mix in the medium to long term; Conclusions; 6 Where and how can we capture CO2?; Directly removing CO2 from the atmosphere; Capturing CO2 emitted from various sources; CCS and gas production; CCS and coal and gas-fired power generation; Post combustion capture; CCS and gasification; CCS and industrial processes emitting CO2; Technologies for separating CO2 from emissions; Conclusions; 7 How can we transport CO2?; Key issues in transportation of CO2 via pipelines; CO2 transportation by road, rail and sea; Reducing transportation costs: CO2 hubs Conclusion8 Storing CO2; Why geological storage over other forms of storage?; Identifying suitable geological CO2 storage sites: sedimentary basins; Features of a sedimentary basin that may make it suitable for storage; Storage of CO2 in depleted oil and gas fields; Storage in deep saline aquifers; Storage in coals; Storage in basalts; Storage in serpentinites; Assessing storage capacity; National assessments of storage potential; Conclusions; 9 How do we know CCS will be effective?; The nature of risk assessment; Geological risk; Existing natural gas storage facilities Natural accumulations of CO2Knowledge derived from large scale commercial CO2 storage projects; Location-specific risk assessment: characterising the site; The risks of earthquakes; The risk to groundwater; Monitoring; The regulatory regime; A 'social licence' for CCS?; 10 The cost of clean energy; The interplay of costs; The costs of capturing CO2 emissions from non-power sources; Transport and associated costs; Storage costs; Indicative total costs for CCS; Cost estimates derived from operational CCS activities; Costing uncertainty; Comparison costing; Conclusions 11 The technology and the politics of clean energy |
Record Nr. | UNINA-9910461738503321 |
Cook P. J | ||
Collingwood, Vic., : CSIRO Pub. | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Clean energy, climate and carbon [[electronic resource] /] / Peter J. Cook |
Autore | Cook P. J |
Pubbl/distr/stampa | Collingwood, Vic., : CSIRO Pub. |
Descrizione fisica | 1 online resource (233 p.) |
Disciplina |
333.79
344.2404/6342 |
Soggetto topico |
Geological carbon sequestration
Carbon dioxide mitigation Greenhouse gas mitigation |
ISBN |
1-280-12849-6
9786613532374 0-643-10682-0 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Cover; Contents; Preface; Acknowledgements; 1 The context; Climate change science: the controversies; Global and national efforts to take action on climate change; About this book; 2 CO2 and climate change; Greenhouse gases; The nature of carbon dioxide; Carbon dioxide and earth's history; Weather versus climate; Causes of pre-human climate change; Distinguishing natural climate change from anthropogenic climate change; Sea level change as evidence for global warming; Global warming and extreme weather events; Act now or later?; Conclusions; 3 Where and why are we producing so much CO2?
The production and use of energy and its impacts on CO2 emissions: an overviewThe use of fossil fuels; Two key sectors: electricity production and transport; Conclusions; 4 Technology options for decreasing CO2 emissions; Solar energy; Wind power; Hydroelectric power; Ocean energy; Biomass; Geothermal energy; Nuclear power; Sequestering CO2 through carbon capture and storage (CCS); Conclusion; 5 The mitigation mix; Population growth and the energy mix; Biofuels in the mix; Land requirements of different technologies; Energy and water; Renewable energy in the energy mix Non renewable energy in the energy mixThe energy mix in the medium to long term; Conclusions; 6 Where and how can we capture CO2?; Directly removing CO2 from the atmosphere; Capturing CO2 emitted from various sources; CCS and gas production; CCS and coal and gas-fired power generation; Post combustion capture; CCS and gasification; CCS and industrial processes emitting CO2; Technologies for separating CO2 from emissions; Conclusions; 7 How can we transport CO2?; Key issues in transportation of CO2 via pipelines; CO2 transportation by road, rail and sea; Reducing transportation costs: CO2 hubs Conclusion8 Storing CO2; Why geological storage over other forms of storage?; Identifying suitable geological CO2 storage sites: sedimentary basins; Features of a sedimentary basin that may make it suitable for storage; Storage of CO2 in depleted oil and gas fields; Storage in deep saline aquifers; Storage in coals; Storage in basalts; Storage in serpentinites; Assessing storage capacity; National assessments of storage potential; Conclusions; 9 How do we know CCS will be effective?; The nature of risk assessment; Geological risk; Existing natural gas storage facilities Natural accumulations of CO2Knowledge derived from large scale commercial CO2 storage projects; Location-specific risk assessment: characterising the site; The risks of earthquakes; The risk to groundwater; Monitoring; The regulatory regime; A 'social licence' for CCS?; 10 The cost of clean energy; The interplay of costs; The costs of capturing CO2 emissions from non-power sources; Transport and associated costs; Storage costs; Indicative total costs for CCS; Cost estimates derived from operational CCS activities; Costing uncertainty; Comparison costing; Conclusions 11 The technology and the politics of clean energy |
Record Nr. | UNINA-9910790013103321 |
Cook P. J | ||
Collingwood, Vic., : CSIRO Pub. | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Clean energy, climate and carbon [[electronic resource] /] / Peter J. Cook |
Autore | Cook P. J |
Pubbl/distr/stampa | Collingwood, Vic., : CSIRO Pub. |
Descrizione fisica | 1 online resource (233 p.) |
Disciplina |
333.79
344.2404/6342 |
Soggetto topico |
Geological carbon sequestration
Carbon dioxide mitigation Greenhouse gas mitigation |
ISBN |
1-280-12849-6
9786613532374 0-643-10682-0 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Cover; Contents; Preface; Acknowledgements; 1 The context; Climate change science: the controversies; Global and national efforts to take action on climate change; About this book; 2 CO2 and climate change; Greenhouse gases; The nature of carbon dioxide; Carbon dioxide and earth's history; Weather versus climate; Causes of pre-human climate change; Distinguishing natural climate change from anthropogenic climate change; Sea level change as evidence for global warming; Global warming and extreme weather events; Act now or later?; Conclusions; 3 Where and why are we producing so much CO2?
The production and use of energy and its impacts on CO2 emissions: an overviewThe use of fossil fuels; Two key sectors: electricity production and transport; Conclusions; 4 Technology options for decreasing CO2 emissions; Solar energy; Wind power; Hydroelectric power; Ocean energy; Biomass; Geothermal energy; Nuclear power; Sequestering CO2 through carbon capture and storage (CCS); Conclusion; 5 The mitigation mix; Population growth and the energy mix; Biofuels in the mix; Land requirements of different technologies; Energy and water; Renewable energy in the energy mix Non renewable energy in the energy mixThe energy mix in the medium to long term; Conclusions; 6 Where and how can we capture CO2?; Directly removing CO2 from the atmosphere; Capturing CO2 emitted from various sources; CCS and gas production; CCS and coal and gas-fired power generation; Post combustion capture; CCS and gasification; CCS and industrial processes emitting CO2; Technologies for separating CO2 from emissions; Conclusions; 7 How can we transport CO2?; Key issues in transportation of CO2 via pipelines; CO2 transportation by road, rail and sea; Reducing transportation costs: CO2 hubs Conclusion8 Storing CO2; Why geological storage over other forms of storage?; Identifying suitable geological CO2 storage sites: sedimentary basins; Features of a sedimentary basin that may make it suitable for storage; Storage of CO2 in depleted oil and gas fields; Storage in deep saline aquifers; Storage in coals; Storage in basalts; Storage in serpentinites; Assessing storage capacity; National assessments of storage potential; Conclusions; 9 How do we know CCS will be effective?; The nature of risk assessment; Geological risk; Existing natural gas storage facilities Natural accumulations of CO2Knowledge derived from large scale commercial CO2 storage projects; Location-specific risk assessment: characterising the site; The risks of earthquakes; The risk to groundwater; Monitoring; The regulatory regime; A 'social licence' for CCS?; 10 The cost of clean energy; The interplay of costs; The costs of capturing CO2 emissions from non-power sources; Transport and associated costs; Storage costs; Indicative total costs for CCS; Cost estimates derived from operational CCS activities; Costing uncertainty; Comparison costing; Conclusions 11 The technology and the politics of clean energy |
Record Nr. | UNINA-9910811865003321 |
Cook P. J | ||
Collingwood, Vic., : CSIRO Pub. | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Clean energy, climate and carbon / / Peter J. Cook |
Autore | Cook P. J |
Edizione | [1st ed.] |
Pubbl/distr/stampa | Collingwood, Vic., : CSIRO Pub. |
Descrizione fisica | 1 online resource (233 p.) |
Disciplina |
333.79
344.2404/6342 |
Soggetto topico |
Geological carbon sequestration
Carbon dioxide mitigation Greenhouse gas mitigation |
ISBN |
1-280-12849-6
9786613532374 0-643-10682-0 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Cover; Contents; Preface; Acknowledgements; 1 The context; Climate change science: the controversies; Global and national efforts to take action on climate change; About this book; 2 CO2 and climate change; Greenhouse gases; The nature of carbon dioxide; Carbon dioxide and earth's history; Weather versus climate; Causes of pre-human climate change; Distinguishing natural climate change from anthropogenic climate change; Sea level change as evidence for global warming; Global warming and extreme weather events; Act now or later?; Conclusions; 3 Where and why are we producing so much CO2?
The production and use of energy and its impacts on CO2 emissions: an overviewThe use of fossil fuels; Two key sectors: electricity production and transport; Conclusions; 4 Technology options for decreasing CO2 emissions; Solar energy; Wind power; Hydroelectric power; Ocean energy; Biomass; Geothermal energy; Nuclear power; Sequestering CO2 through carbon capture and storage (CCS); Conclusion; 5 The mitigation mix; Population growth and the energy mix; Biofuels in the mix; Land requirements of different technologies; Energy and water; Renewable energy in the energy mix Non renewable energy in the energy mixThe energy mix in the medium to long term; Conclusions; 6 Where and how can we capture CO2?; Directly removing CO2 from the atmosphere; Capturing CO2 emitted from various sources; CCS and gas production; CCS and coal and gas-fired power generation; Post combustion capture; CCS and gasification; CCS and industrial processes emitting CO2; Technologies for separating CO2 from emissions; Conclusions; 7 How can we transport CO2?; Key issues in transportation of CO2 via pipelines; CO2 transportation by road, rail and sea; Reducing transportation costs: CO2 hubs Conclusion8 Storing CO2; Why geological storage over other forms of storage?; Identifying suitable geological CO2 storage sites: sedimentary basins; Features of a sedimentary basin that may make it suitable for storage; Storage of CO2 in depleted oil and gas fields; Storage in deep saline aquifers; Storage in coals; Storage in basalts; Storage in serpentinites; Assessing storage capacity; National assessments of storage potential; Conclusions; 9 How do we know CCS will be effective?; The nature of risk assessment; Geological risk; Existing natural gas storage facilities Natural accumulations of CO2Knowledge derived from large scale commercial CO2 storage projects; Location-specific risk assessment: characterising the site; The risks of earthquakes; The risk to groundwater; Monitoring; The regulatory regime; A 'social licence' for CCS?; 10 The cost of clean energy; The interplay of costs; The costs of capturing CO2 emissions from non-power sources; Transport and associated costs; Storage costs; Indicative total costs for CCS; Cost estimates derived from operational CCS activities; Costing uncertainty; Comparison costing; Conclusions 11 The technology and the politics of clean energy |
Record Nr. | UNINA-9910857000703321 |
Cook P. J | ||
Collingwood, Vic., : CSIRO Pub. | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|