UID:
almahu_9949460136602882
Format:
1 online resource (232 p.)
ISBN:
3-89958-799-5
Series Statement:
Erneuerbare Energien und Energieeffizienz = v. 14
Note:
Description based upon print version of record.
,
Thesis (Ph.D)--University of Kassel, 2009.
,
""Front Cover ""; ""Reihentitel ""; ""Titelseite ""; ""Impressum ""; ""Abstract""; ""Zusammenfassung""; ""Resumen""; ""Acknowledgements""; ""Contents""; ""Acronyms and abbreviations""; ""0. Introduction""; ""0.1 Main research questions""; ""0.2 Structure of thesis and new approaches""; ""1. Status quo, threats and potentials in the triangle ofbioenergy � climate, energy and land use""; ""1.1 Climate change � climate protection""; ""1.1.1 Status quo""; ""1.1.2 Threats""; ""1.2 Energy systems""; ""1.2.1 Status quo""; ""1.2.2 Threats""
,
""1.2.3 Potentials for a climate-friendly and energy efficient supply""""1.3 Land use""; ""1.3.1 Status quo""; ""1.3.2 Threats""; ""1.3.3 Potentials of land-use for climate protection and bioenergy supply""; ""2. Analysis of 78 biomass pathways""; ""2.1 Principle and selected pathways""; ""2.1.1 Principle pathways""; ""2.1.2 Selected modern bioenergy pathways, cropping systems and residues""; ""2.2 Technical analysis""; ""2.2.1 Conversion efficiency""; ""2.2.2 Yields per hectare for raw-biomass and target energy""
,
""2.2.3 Conversion efficiency of traditional biomass and bioenergy in ruralapplications""""2.3 Economic analysis""; ""2.3.1 Production cost""; ""2.3.2 Production cost of traditional biomass and improved cooking stoves""; ""2.4 Ecological analysis � greenhouse gas balances andmitigation costs""; ""2.4.1 Effect of direct and indirect land-use change caused by bioenergy""; ""2.4.2 Fossil reference systems""; ""2.4.3 Greenhouse gas reductions""; ""2.4.4 Greenhouse gas mitigation costs""; ""2.4.5 Greenhouse gas reductions and mitigation costs of replacingtraditional biomass""; ""2.5 Synthesis""
,
""2.5.1 Techno-economic synthesis""""2.5.2 Techno-ecologic synthesis""; ""2.5.3 Economic-ecologic synthesis""; ""3. Integrated assessment � role of bioenergy in land use,energy systems and climate change""; ""3.1 Role of bioenergy in land use � two faces of one coin""; ""3.2 Role of bioenergy in energy supply systems""; ""3.2.1 Industrialized regions and countries � applying modern bioenergy""; ""3.2.2 Overcoming traditional biomass in developing and emergingcountries""; ""3.3 Role of bioenergy in climate protection""; ""3.3.1 Energy crops, residues and traditional biomass""
,
""3.3.2 Comparing bioenergy with other forms of land-use and renewables""""3.3.3 Maximum greenhouse gas reduction potential of bioenergy""; ""4. Renewable Power Methane � solution for renewablepower integration and energy storage""; ""4.1 Challenges in renewable energy systems - balancing power,energy storage and special transport segments""; ""4.2 Basic concept of Renewable Power Methane (RPM)""; ""4.2.1 Fundamental description""; ""4.2.2 Conversion efficiency, conversion technology and costs""; ""4.3 Four Renewable Power Methane concept categories""
,
""4.3.1 Stand-alone concepts � independent production of a carbon-neutralnatural gas substitute by CO2 recovery from the air""
,
English
Additional Edition:
ISBN 3-89958-798-7
Language:
English
Bookmarklink