Emerging energy alternatives for sustainable environment (Record no. 46955)
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| 000 -LEADER | |
|---|---|
| fixed length control field | 08132nam a22001697a 4500 |
| 008 - FIXED-LENGTH DATA ELEMENTS--GENERAL INFORMATION | |
| fixed length control field | 180220b xxu||||| |||| 00| 0 eng d |
| 020 ## - INTERNATIONAL STANDARD BOOK NUMBER | |
| International Standard Book Number | 9788179934111 |
| 082 04 - DEWEY DECIMAL CLASSIFICATION NUMBER | |
| Classification number | 333.717 |
| Item number | SIN |
| 100 ## - MAIN ENTRY--PERSONAL NAME | |
| Personal name | Singh, D. P. & Others Eds. |
| 245 00 - TITLE STATEMENT | |
| Title | Emerging energy alternatives for sustainable environment |
| 260 ## - PUBLICATION, DISTRIBUTION, ETC. (IMPRINT) | |
| Place of publication, distribution, etc | New Delhi |
| Name of publisher, distributor, etc | TERI Press |
| Date of publication, distribution, etc | 2016 |
| 300 ## - PHYSICAL DESCRIPTION | |
| Extent | xiii,522p. |
| 505 ## - FORMATTED CONTENTS NOTE | |
| Formatted contents note | CONTENTS<br/>Preface<br/>Biogas Potential in India: Production, Policies, Problems, and Future Prospects<br/>1.1 Introduction<br/>1.2 Production of Biogas<br/>1.3 Sources/Materials for Biogas Production<br/>1.4 Roles of Microbes in Production of Biogas<br/>1.5 Issues and Concerns for the Biogas production Process<br/>1.6 Augmentation/Upgradation of Biogas Process<br/>1.7 Types of Biogas Reactors<br/>1.8 Policies Related to Biogas Production in India<br/>1.9 Benefits of Biogas Energy Production—Potential in India<br/>1.10 Problems and Issues Encountered<br/>1.11 Future Prospects for Biogas in India<br/>1.12 Conclusion<br/>References<br/>Membrane-less Microbial Fuel Cell: A Low-cost Sustainable Approach for Clean Energy and<br/>Environment<br/>2.1 Introduction<br/>2.2 Basic requirements for Membrane-less Microbial Fuel Cell<br/>2.3 Classification of Membrane-less Microbial Fuel Cell<br/>2.4 Conclusion<br/>Acknowledgements<br/>References<br/>Hydrogen Energy: Present and Future<br/>3.1 Introduction<br/>3.2 Hydrogen Production<br/>3.3 Storage Technologies for Hydrogen<br/>3.4 Hydrogen Energy and Environment<br/>3.5 Hydrogen and Other Alternative Secondary Energies<br/>3.6 Hydrogen Safety<br/>3.7 Future Prospects of Hydrogen<br/>References<br/>Emerging Energy Alternatives for Sustainable Development in Malaysia<br/>4.1 Introduction<br/>4.2 Renewable Resources in Malaysia<br/>4.3 Conclusion<br/>References<br/>Role and Initiatives of Indian Government Policies for Growth of Wind Energy Sector<br/>5.1 Introduction<br/>5.2 India’s Wind Energy Potential and installation<br/>5.3 Indian Government Policies for Wind Energy Sector<br/>5.4 State Government Policies for Wind Energy Sector<br/>5.5 Conclusion<br/>References<br/>Improved Technology for Non-edible Seed Oils: Sources for Alternate Fuels<br/>6.1 Introduction<br/>6.2 Materials and methods<br/>6.3 Results and discussion<br/>6.4 Conclusion<br/>References<br/>Adsorption and photodegradation of sulfamethoxazole in a three-phase fluidized bed reactor<br/>7.1 Introduction<br/>7.2 Methodology<br/>7.3 Results and discussion<br/>7.4 Conclusion<br/>Acknowledgements<br/>References<br/>Application of Cellulose Nitrate Membrane for Pervaporative Separation of Organics from Water<br/>8.1 Introduction<br/>8.2 Experimental Set-up<br/>8.3 Results and Discussion<br/>8.4 Conclusion<br/>Acknowledgements<br/>References<br/>Green Chemistry: Mitigatory Measure for Environmental Pollution<br/>9.1 Introduction<br/>9.2 Green Chemistry Concept<br/>9.3 History<br/>9.4 A Timeline of Green Chemistry Highlights<br/>9.5 Scope<br/>9.6 Principles<br/>9.7 Role of Green Chemistry in Prevention and control of Pollution<br/>9.8 Environmental Sustainability<br/>9.9 Conclusion<br/>References<br/>Websites<br/>Building Energy Simulation for Improved Thermal Performance: A CFD Approach<br/>10.1 Introduction<br/>10.2 Thermal Mass and Building Design<br/>10.3 Building Energy Analysis<br/>10.4 Necessity for Building Simulation<br/>10.5 Application of Building Simulation and Systems Approach<br/>10.6 Software<br/>10.7 Applications of Cfd for Building Design<br/>10.8 Conclusion<br/>References<br/>Cyanobacterial Biomass – A Tool for Sustainable Management of Environment<br/>11.1 Introduction<br/>11.2 Approaches to biofertilizer application<br/>11.3 Cyanobacteria: a biofertilizer<br/>11.4 Nitrogen Fixation<br/>11.5 Cyanobacteria: a nutrient source<br/>11.6 Cyanobacteria: a pesticide tolerant<br/>11.7 Cyanobacteria: a salinity tolerant<br/>11.8 Cyanobacteria: a bioremediation tool<br/>11.9 Cyanobacteria: a CO2 sequestration agent<br/>11.10 Nutrient management system<br/>References<br/>Low-cost Production of Algal Biofuel from Wastewater and Technological Limitations<br/>12.1 Introduction<br/>12.2 Classification of Algae<br/>12.3 Factors Affecting Growth of Microalgae<br/>12.4 Sink for Carbon dioxide<br/>12.5 Wastewater as a Resource for Algal Growth<br/>12.6 Microalgae Cultivation Methods<br/>12.7 Harvesting Technologies for Algal Biomass<br/>12.8 Lipid Synthesis in Microalgae<br/>12.9 Conversion Technologies for Algal Biofuel<br/>12.10 Limitations with Biomass/Biofuel Production<br/>12.11 Conclusion<br/>References<br/>Physical and Chemical Exergy Analysis and Assessment of Biogas as an Energy Source in Hybrid Cooling Machine<br/>13.1 Introduction<br/>13.2 System Description and Working Principle<br/>13.3 Thermal Analysis of Biogas Boiler<br/>13.5 Thermodynamic Analysis<br/>13.6 Results and Discussion<br/>13.7 Conclusion<br/>References<br/>Lignocellulosic Biomass to Bioenergy Production: Process and Techniques for Biomass Assessment<br/>14.1 Introduction<br/>14.2 Process of Biomass Deconstruction<br/>14.3 Techniques for Assessment of Biomass Breakdown<br/>14.4 Current Challenges and Future Prospects<br/>References<br/>Municipal Solid Waste Management in India: Present Status and Energy Conversion Opportunities<br/>15.1 Introduction<br/>15.2 Overview of Municipal Solid Waste management in India<br/>15.3 Opportunities for Energy Conversion<br/>15.4 Challenges<br/>15.5 The Way Forward<br/>15.6 Conclusion<br/>Acknowledgements<br/>References<br/>Organic Superfluous Waste as a Contemporary Source of Clean Energy<br/>16.1 Introduction<br/>16.2 Current status of energy<br/>16.3 Bioenergy<br/>16.4 Organic waste<br/>16.5 Technology for energy<br/>16.6 Microbial Fuel cell<br/>16.7 MFC components<br/>16.8 Bio-battery<br/>16.9 Remote power Source<br/>16.10 Effective for sea water<br/>16.11 Conclusion<br/>Acknowledgements<br/>References<br/>Vermicomposting: A Potential Tool for Sustainable Management of Solid Waste<br/>17.1 Introduction<br/>17.2 Classification and Composition of Solid Waste<br/>17.3 Current Strategies used for Solid Waste Management in India<br/>17.4 Earthworms<br/>17.5 Vermicomposting Process<br/>17.6 Vermicompost and Earthworm Harvesting<br/>17.7 Composition of Vermicompost<br/>17.8 Advantages and Disadvantages of Vermicompost<br/>17.9 Applications of Vermicomposting<br/>17.10 Conclusion<br/>References<br/>Biogas Potential from Sewage Treatment Plant and Palm Oil Mill Effluent for Electricity Generation in Malaysia<br/>18.1 Introduction<br/>18.2 Renewable Energy Status in Malaysia and Malaysian Renewable Energy Target<br/>18.3 Feed-in Tariff in Malaysia<br/>18.4 Malaysian Palm Oil Industry<br/>18.5 Biogas Potential in Palm Oil Mills<br/>18.6 Malaysian Sewerage Treatment<br/>18.7 Typical Sewage Treatment Plant with Anaerobic digester Scenario in Malaysia<br/>18.8 Biogas Potential at Stp<br/>18.9 Co-digestion of Pome with Ss<br/>18.10 Impact of Biogas Recovery on Sustainability<br/>18.11 Conclusion<br/>Acknowledgements<br/>References<br/>Passive Energy in Residential Buildings<br/>19.1 Introduction<br/>19.2 Passive Solar Cooling<br/>19.3 Methodology<br/>19.4 Estimation of Energy Cost<br/>19.5 Conclusion<br/>References<br/>Solar Photocatalytic Treatments of Wastewater and Factors Affecting Mechanism: A Feasible Low-cost Approach<br/>20.1 Introduction<br/>20.2 Solar Spectrum<br/>20.3 Design of Solar Photocatalytic Reactors<br/>20.4 Photocatalytic (Solar) Treatment of Pollutant<br/>20.5 Factors Affecting Solar Photocatalysis<br/>20.6 Recommended Analytical Methods<br/>20.7 Economical Assessment<br/>20.8 Conclusion<br/>References<br/>Advancement in Phase Change Materials for Solar Thermal Energy Storage<br/>21.1 Introduction<br/>21.2 Phase Change Materials<br/>21.3 Application of Pcms<br/>21.4 Conclusion<br/>References<br/>Earth to Air Heat Exchanger Systems for Small Houses and Industrial Buildings in Changing Indian Climatic Conditions<br/>22.1 Introduction<br/>22.2 Changing Indian Climatic Conditions<br/>22.3 Indian Climate and Eahe Systems<br/>22.4 Demand for Energy in India<br/>22.5 Advantages of Eahe System<br/>22.6 Design of Eahe Systems<br/>22.7 Components of Eahe System<br/>22.8 Performance of Eahe System<br/>22.9 Conclusion<br/>References<br/>Development in Metal Oxide Nanomaterial-based Solar Cells<br/>23.1 Introduction<br/>23.2 History of Solar Cell<br/>23.3 Metal Oxide Nanomaterials<br/>23.4 Three Generations of Development<br/>23.5 Nanomaterial-based Solar Cell Research<br/>23.6 Thin Film Solar Cells<br/>23.7 Applications and Implementations<br/>23.8 Polymer Solar Cells<br/>23.9 Pv Industry Goal: Reduce Cost of Energy<br/>23.10 Conclusion<br/>References<br/>Index<br/>About the Editors<br/><br/> |
| 890 ## - Country | |
| Country | India |
| 891 ## - Topic | |
| Topic | FT |
| 942 ## - ADDED ENTRY ELEMENTS (KOHA) | |
| Source of classification or shelving scheme | Dewey Decimal Classification |
| Withdrawn status | Lost status | Source of classification or shelving scheme | Damaged status | Not for loan | Collection code | Withdrawn status | Home library | Current library | Date acquired | Source of acquisition | Cost, normal purchase price | Total Checkouts | Full call number | Barcode | Date last seen | Date last borrowed | Cost, replacement price | Price effective from | Koha item type |
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| Dewey Decimal Classification | Faculty of Technology | CEPT Library | CEPT Library | 20/02/2018 | Astha Book Agency | 796.00 | 1 | 333.717 SIN | 018638 | 03/03/2018 | 25/02/2018 | 995.00 | 05/12/2017 | Book |