| 000 | 03560nam a2200157Ia 4500 | ||
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| 008 | 180516s9999||||xx |||||||||||||| ||und|| | ||
| 082 |
_aP TH-1018 _bSUB |
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| 100 | _aSubramanian, Sivaranjani | ||
| 245 | 0 | _aFramework for greenhouse gas emission reduction in an industrial estate - case study of GIDC Ankleshwar industrial estate (Also available on CD) | |
| 260 | _c2008 | ||
| 300 | _aiv,109p.,CD-ROM | ||
| 505 | _aCONTENTS ACKNOWLEDGEMENTS 5 GLOSSARY of ABBREVIATION 11 EXECUTIVE SUMMARY 14 Chapter 1. FORMULATING THE RESEARCH 23 1.1 Background 23 1.2 Need of Study 26 1.3 Delineation of Study Area 26 1.4 Aim 27 1.5 Objectives 27 1.6 Methodology 27 1.7 Scope 28 1.8 Limitations 29 Chapter 2. Concerns & Developments in Reduction of Greenhouse Gas Emissions 31 2.1 Global Scenario: 31 2.1.1 The United Nations Framework Convention on Climate Change 31 2.1.2 Intergovernmental Panel on Climate Change 31 2.1.3 The Kyoto Protocol 32 2.1.4 NATCOM: 33 2.2 Accounting & Monitoring Tools of GHG Emissions 35 2.2.1 The Greenhouse Gas Protocol (GHG Protocol) 35 2.2.2 ISO 14064: Greenhouse Gas Accounting and Verification 36 2.2.3 GHG Indicator 37 2.2.4 IPCC Guidance for National Greenhouse Gas Inventories: Workbook 38 2.3 Status of Indian GHG Inventory Estimates 42 2.3.1 Contribution to Global Warming Potential 43 2.3.2 Major Contributors 43 Chapter 3. ANKLESHWAR INDUSTRIAL ESTATE 47 3.1 Ankleshwar Industrial Estate: 47 3.2 Common Effluent Treatment Plant (Enviro Technology Ltd) 50 3.3 Centralized Secured Landfill Facility (Bharuch Enviro Infrastructure Ltd) 52 Chapter 4. Analytical Framework 55 Chapter 5. Greenhouse Gas Emission Potential 60 5.1 Industrial Processes 60 5.1.1 Ammonia Production 60 5.1.2 Fertilizer Manufacture: Nitric Acid Production 65 5.1.3 Pesticide 68 5.1.4 Textiles 71 5.1.5 Paints & Pigments: Production of Titanium Dioxide 73 5.1.6 Dyes & Dye Intermediaries 76 5.2 Waste 78 5.2.1 Waste-Centralized Secured Landfill 78 5.2.2 Industrial Waste Water 81 5.2.3 Waste -Incineration 84 5.3 Energy 87 5.3.1 Energy Utilization - Fertilizer Industry 87 Chapter 6. EMISSION REDUCTION POTENTIAL 91 6.1 Emission Reduction Potential: Fertilizer Industry 93 6.1.1 Energy Efficiency: 93 6.1.2 Fuel Switching 94 6.1.3 Feed Switching 94 6.1.4 Carbon Dioxide Recovery (CDR) 95 6.1.5 Recovery of Other Flue Gases 96 6.1.6 N2O Abatement 96 6.1.7 Use of Natural Nitrification Inhibitors 96 6.2 Emission Reduction Potential: Centralized Landfill 96 6.3 Emission Reduction Potential: Waste Water 97 6.4 Emission Reduction Potential: Incineration 98 6.5 Energy Efficiency Centralization of Utility Provisions of an Industrial Estate 99 6.6 GHG Emission Reduction Opportunities: Policy Options 100 6.6.1 Use of Natural Gas 100 6.6.2 Change in Energy Mix 100 6.7 GHG Emission Reduction Opportunities: Technological Options 101 6.7.1 Efficiency Improvement of Heat Treatment System 101 6.7.2 Introduction of High Efficiency Motors 101 6.8 GHG Emission Reduction Opportunities Operations & Maintenance Options 102 6.9 Emission Reduction Mechanism within Buildings & Offices 102 6.10 Use Of Renewable Sources Of Energy 105 Chapter 7. INSTITUTIONAL FRAMEWORK 107 7.1 National Scenario 107 7.2 Industry Specific 108 7.3 Local Level Organization 109 7.4 Proposed Institutional Framework 110 BiBLIOGRAPHY 112 | ||
| 700 | _aSaxena, Ashwani Kumar (Guide) | ||
| 891 | _a2006 Batch | ||
| 891 | _aFP-PG | ||
| 999 |
_c51110 _d51110 |
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