1. 1.0 EXECUTIVE SUMMARY
1.0 Executive Summary
1.1 Research Objectives and Scope
1.2 Research Process and Methodology
1.3 Key Findings

2. 2.0 THE OIL & GAS INDUSTRY’S IMPACT ON CLIMATE CHANGE
2.0 The Oil & Gas Industry’s Impact on Climate Change
2.1 The Oil & Gas Sector has Always Been among the Top Sources of Greenhouse Gas Emissions
2.2 Impact of the Upstream Sector on Climate Change is More Significant Than the Other Sectors
2.3 Climate Change Effects Hugely Escalate Operational Costs and Reduce the Value of Market Assets for Oil & Gas Companies
2.4 Air Pollution is the Major Issue that Causes Climate Change in the Oil & Gas Sector
2.5 Air Pollutants in the Oil & Gas Sector Hugely Add to the Climate Change Crisis
2.6 Area Sources in the Oil and Gas Sector are Greater Sources for Air Pollution Than Point Source Emissions
2.7 Initiatives and Programs by Various Governments and Organizations Have Widely Extended the Scope of Emission Reduction
2.8 The Deteriorating Cost Impact on a Company’s Asset Value Due to Climate Change is the Primary Concern for Oil & Gas Companies
2.9 Reluctance by Investors in Engaging Companies to Implement Emission Reduction Technologies is the Primary Restraint
2.10 Preparing Oil and Gas Companies for a Low GHG Future

3. 3.0 CLIMATE CHANGE TECHNOLOGIES FOR THE OIL AND GAS SECTOR
3.0 Climate Change Technologies for the Oil and Gas Sector
3.1 Development of Technologies that Directly Address Emission Reduction Should Be the Top Priority for the Oil & Gas Industry
3.2 Introduction to Carbon Capture and Storage
3.2.1 Low Cost Solution Developed By Integrating Carbon Capture with Carbonate Fuel Cell Technology
3.2.2 Advanced Gas Purification Process that Effectively Contributes for Increased Carbon Capture Efficiency
3.2.3 Advanced Post-combustion Carbon Dioxide Segregation System for Increasing Carbon Capture Efficiency
3.2.4 Capturing Carbon Dioxide from Deep Offshore Gas Fields By Utilizing Advanced Supersonic and Membrane Technology
3.2.5 Only Major Oil and Gas Companies Are Pursuing Development of CCS Technology
3.2.6 Innovative Techniques Such as Transport Network for Interlinking Carbon Sources will Greatly Boost the Future Prospects of CCS
3.3 Introduction to Greenhouse Gas Reduction
3.3.1 Reducing Carbon and Sulfur Emissions from Extraction Sites of Uneven Topography by Utilizing Superheat Technology
3.3.2 Emission Reduction Technology for Oil Production in Stranded Reservoirs Alongside Generating Water and Electricity
3.3.3 Achieving Greenhouse Gas Emission Reduction by Decreasing the Salinity of Water Used in the Flooding Procedure
3.3.4 Facilitating Effective Methane Reduction Approach from Active Oil Wells through Portable Equipment Capture
3.3.5 Low Cost Methane Deduction and Reduction Technique through Infrared Imaging and Elastomer Plug
3.3.6 Future Prospects of Methane Reduction will be Influenced by Effective Methane Data Management and Updating Existing Technology

4. 4.0 ADOPTION TIMELINE AND STRATEGIC PERSPECTIVES
4.0 Adoption Timeline and Strategic Perspectives
4.1 Emission Reduction Technologies in Integration with CCS Expected to Find their Maturity Post 2020
4.2 Strategic Imperatives for Success and Growth

5. 5.0 ANALYST POINT OF VIEW
5.0 Analyst Point of View
5.1 Integrating Climate Change into Corporate Strategy
5.2 Investing In Future Energy Research And Start-Ups

6. 6.0 KEY PATENTS AND CONTACTS
6.0 Key Patents and Contacts
6.1 Key Patents for Carbon Capture and Storage
6.2 Key Patents for Greenhouse Gas Reduction
6.3 Key Patents Sulphur Dioxide Reduction
6.4 Key Patents
6.5 Key Contacts
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