The Resource Recycling of solid waste for biofuels and bio-chemicals, Obulisamy Parthiba Karthikeyan, Kirsten Heimann, Subramanian Senthilkannan Muthu, editors

Recycling of solid waste for biofuels and bio-chemicals, Obulisamy Parthiba Karthikeyan, Kirsten Heimann, Subramanian Senthilkannan Muthu, editors

Label
Recycling of solid waste for biofuels and bio-chemicals
Title
Recycling of solid waste for biofuels and bio-chemicals
Statement of responsibility
Obulisamy Parthiba Karthikeyan, Kirsten Heimann, Subramanian Senthilkannan Muthu, editors
Contributor
Editor
Subject
Genre
Language
eng
Summary
This book presents the latest advances in and current research perspectives on the field of urban/industrial solid waste recycling for bio-energy and bio-fuel recovery. It chiefly focuses on five main thematic areas, namely bioreactor landfills coupled with energy and nutrient recovery; microbial insights into anaerobic digestion; greenhouse emission assessment; pyrolysis techniques for special waste treatment; and industrial waste stabilization options. In addition, it compiles the results of case studies and solid waste management perspectives from different countries
Member of
Cataloging source
N$T
Dewey number
662/.87
Illustrations
illustrations
Index
no index present
LC call number
TP360
Literary form
non fiction
Nature of contents
dictionaries
http://library.link/vocab/relatedWorkOrContributorName
  • Karthikeyan, Obulisamy Parthiba
  • Heimann, Kirsten
  • Muthu, Subramanian Senthilkannan
Series statement
Environmental footprints and eco-design of products and processes,
http://library.link/vocab/subjectName
  • Refuse as fuel
  • Waste products as fuel
  • Recycling (Waste, etc.)
  • TECHNOLOGY & ENGINEERING
  • Recycling (Waste, etc.)
  • Refuse as fuel
  • Waste products as fuel
  • Environment
  • Waste Management/Waste Technology
  • Environmental Engineering/Biotechnology
  • Biochemical Engineering
  • Renewable and Green Energy
  • Environmental Science and Engineering
Label
Recycling of solid waste for biofuels and bio-chemicals, Obulisamy Parthiba Karthikeyan, Kirsten Heimann, Subramanian Senthilkannan Muthu, editors
Link
https://ezproxy.lib.ou.edu/login?url=http://link.springer.com/10.1007/978-981-10-0150-5
Instantiates
Publication
Antecedent source
unknown
Carrier category
online resource
Carrier category code
cr
Carrier MARC source
rdacarrier
Color
multicolored
Content category
text
Content type code
txt
Content type MARC source
rdacontent
Contents
  • Preface; Contents; 1 Prospects of Biomethanation in Indian Urban Solid Waste: Stepping Towards a Sustainable Future; Abstract; 1 Solid Waste Statistics: Global Perspective; 2 Solid Waste Management in India: Methods, Opportunities and Crisis; 2.1 Methods; 2.1.1 Anaerobic Digestion/Biomethanation; 2.1.2 Composting/Vermicomposting; 2.1.3 Incineration; 2.1.4 Gasification; 2.1.5 Pyrolysis; 2.1.6 Landfills/Sanitary Landfills (SLF); 2.2 Opportunities; 2.3 Crisis; 3 Energy Demand in India: Past, Present and Future; 4 Biomethane Production from Waste: A Major Source of Energy
  • 5 Biomethanation: A Window of Opportunity5.1 What Is Biomethanation?; 5.2 Biomethanation Process; 5.3 Operational Parameter of Biomethanation Process; 5.3.1 Composition of Urban Solid Waste; 5.3.2 pH; 5.3.3 Temperature; 5.3.4 Loading Rate; 5.3.5 Retention Time; 5.3.6 Reactor Design; 6 Biomethanation Potential; 7 Policies/Incentives for Such Facilities in India; 8 Conclusion; Acknowledgment; References; 2 Status and Prospects of Municipal Solid Waste to Energy Technologies in China; Abstract; 1 Introduction; 2 Current Status of MSW Production and Management in China
  • 2.1 MSW Generation and Characteristics2.2 Source-Separated Collection and Transportation of MSW; 3 Overview of Waste to Energy Technologies Status in China; 3.1 Landfill Gas-Fired Power Generation; 3.1.1 Status of MSW Landfill in China; 3.1.2 Landfill Scenarios; 3.1.3 Use of Combined Heat and Power (CHP) Systems; 3.2 MSW Incineration; 3.2.1 Potential of MSW as Biofuel; 3.2.2 Incinerator Types and Process; 3.2.3 Current Status and Development Trend of Waste Incineration in China; 3.3 Anaerobic Digestion; 3.3.1 Advantages of Anaerobic Digestion Technology for MSW
  • 3.3.2 Status and Potential Assessment of Anaerobic Digestion Technology Development for MSW in China4 The Prospects of MSW to Energy Technologies in China; References; 3 GHGs Emissions and Sustainable Solid Waste Management; Abstract; 1 Introduction; 1.1 Post-2015 Development Agenda: Population and Urbanization Growth, Global Climate Change and Solid Waste Problems; 1.1.1 Rapid Population Growth and Associated GHG Emission; 1.1.2 Solid Waste and GHGs Emissions; 1.2 Objectives and Scope; 2 Mathematic Models for GHG Generation from Solid Waste Disposal Sites; 2.1 Zero-Order Model
  • 2.1.1 SWANA Zero-Order Model2.1.2 EPER Model; 2.1.3 IPCC Default Method; 2.2 First-Order Model; 2.2.1 TNO; 2.2.2 LandGEM; 2.2.3 IPCC Fist-Order-Decay Method; 2.3 Life Cycle Assessment for Solid Waste Management; 2.3.1 LCA Principle; 2.3.2 Application of LCA for Solid Waste Management; LCA of Integrated Solid Waste Management in the United States of America; LCA of Integrated Solid Waste Management in the OECD Countries; 3 Case Studies; 3.1 Bangkok Kamphaeng Saen West: Landfill Gas to Electricity Project, Thailand
Dimensions
unknown
Extent
1 online resource (xiv, 422 pages)
File format
unknown
Form of item
online
Isbn
9789811001482
Level of compression
unknown
Media category
computer
Media MARC source
rdamedia
Media type code
c
Note
SpringerLink
Other control number
10.1007/978-981-10-0150-5
Other physical details
illustrations (some color).
Quality assurance targets
not applicable
Reformatting quality
unknown
Sound
unknown sound
Specific material designation
remote
System control number
  • (OCoLC)956539352
  • (OCoLC)ocn956539352
Label
Recycling of solid waste for biofuels and bio-chemicals, Obulisamy Parthiba Karthikeyan, Kirsten Heimann, Subramanian Senthilkannan Muthu, editors
Link
https://ezproxy.lib.ou.edu/login?url=http://link.springer.com/10.1007/978-981-10-0150-5
Publication
Antecedent source
unknown
Carrier category
online resource
Carrier category code
cr
Carrier MARC source
rdacarrier
Color
multicolored
Content category
text
Content type code
txt
Content type MARC source
rdacontent
Contents
  • Preface; Contents; 1 Prospects of Biomethanation in Indian Urban Solid Waste: Stepping Towards a Sustainable Future; Abstract; 1 Solid Waste Statistics: Global Perspective; 2 Solid Waste Management in India: Methods, Opportunities and Crisis; 2.1 Methods; 2.1.1 Anaerobic Digestion/Biomethanation; 2.1.2 Composting/Vermicomposting; 2.1.3 Incineration; 2.1.4 Gasification; 2.1.5 Pyrolysis; 2.1.6 Landfills/Sanitary Landfills (SLF); 2.2 Opportunities; 2.3 Crisis; 3 Energy Demand in India: Past, Present and Future; 4 Biomethane Production from Waste: A Major Source of Energy
  • 5 Biomethanation: A Window of Opportunity5.1 What Is Biomethanation?; 5.2 Biomethanation Process; 5.3 Operational Parameter of Biomethanation Process; 5.3.1 Composition of Urban Solid Waste; 5.3.2 pH; 5.3.3 Temperature; 5.3.4 Loading Rate; 5.3.5 Retention Time; 5.3.6 Reactor Design; 6 Biomethanation Potential; 7 Policies/Incentives for Such Facilities in India; 8 Conclusion; Acknowledgment; References; 2 Status and Prospects of Municipal Solid Waste to Energy Technologies in China; Abstract; 1 Introduction; 2 Current Status of MSW Production and Management in China
  • 2.1 MSW Generation and Characteristics2.2 Source-Separated Collection and Transportation of MSW; 3 Overview of Waste to Energy Technologies Status in China; 3.1 Landfill Gas-Fired Power Generation; 3.1.1 Status of MSW Landfill in China; 3.1.2 Landfill Scenarios; 3.1.3 Use of Combined Heat and Power (CHP) Systems; 3.2 MSW Incineration; 3.2.1 Potential of MSW as Biofuel; 3.2.2 Incinerator Types and Process; 3.2.3 Current Status and Development Trend of Waste Incineration in China; 3.3 Anaerobic Digestion; 3.3.1 Advantages of Anaerobic Digestion Technology for MSW
  • 3.3.2 Status and Potential Assessment of Anaerobic Digestion Technology Development for MSW in China4 The Prospects of MSW to Energy Technologies in China; References; 3 GHGs Emissions and Sustainable Solid Waste Management; Abstract; 1 Introduction; 1.1 Post-2015 Development Agenda: Population and Urbanization Growth, Global Climate Change and Solid Waste Problems; 1.1.1 Rapid Population Growth and Associated GHG Emission; 1.1.2 Solid Waste and GHGs Emissions; 1.2 Objectives and Scope; 2 Mathematic Models for GHG Generation from Solid Waste Disposal Sites; 2.1 Zero-Order Model
  • 2.1.1 SWANA Zero-Order Model2.1.2 EPER Model; 2.1.3 IPCC Default Method; 2.2 First-Order Model; 2.2.1 TNO; 2.2.2 LandGEM; 2.2.3 IPCC Fist-Order-Decay Method; 2.3 Life Cycle Assessment for Solid Waste Management; 2.3.1 LCA Principle; 2.3.2 Application of LCA for Solid Waste Management; LCA of Integrated Solid Waste Management in the United States of America; LCA of Integrated Solid Waste Management in the OECD Countries; 3 Case Studies; 3.1 Bangkok Kamphaeng Saen West: Landfill Gas to Electricity Project, Thailand
Dimensions
unknown
Extent
1 online resource (xiv, 422 pages)
File format
unknown
Form of item
online
Isbn
9789811001482
Level of compression
unknown
Media category
computer
Media MARC source
rdamedia
Media type code
c
Note
SpringerLink
Other control number
10.1007/978-981-10-0150-5
Other physical details
illustrations (some color).
Quality assurance targets
not applicable
Reformatting quality
unknown
Sound
unknown sound
Specific material designation
remote
System control number
  • (OCoLC)956539352
  • (OCoLC)ocn956539352

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