1.1.1 Challenges of energy structure and environmental issues 1.1.2 Potential and advantages of methanol as a clean energy source
1.2.1 Contribution to environmental protection 1.2.2 Strategic significance to energy security
Outline the specific aspects and components of the research.
Summarize existing studies on methanol fuel in boilers.
Analyze the benefits and limitations of using methanol as a fuel in boilers.
2.3.1 Methanol Boiler Design Technology 2.3.2 Methanol Fuel Supply and Storage Technology 2.3.3 Combustion Technology of Methanol Boiler
Summarize Challenges and Problems of Methanol Fuel Boiler
3.1.1 Physical and Chemical Properties 3.1.2 Environmental Impact and Safety Evaluation
3.2.1 Chemical reaction mechanism of combustion process 3.2.2 Combustion efficiency and pollutant generation
3.3.1 Thermal modeling 3.3.2 Simulation software application (e.g. Aspen Plus)
Boiler structure and layout Burner design and optimization
- Methanol Production and Purification - Methanol Storage and Transportation
- Automation Control Strategy - Combustion Process Monitoring and Adjustment
5.1.1Conventional Coal-to-Methanol (CTM) 5.1.2Green Hydrogen Coupled Methanol (GH-CTM) 5.1.3Carbon Dioxide Hydrogenation to Methanol (GH-CDTM)
Comparison of domestic and foreign methanol fuel standards; Methanol Fuel Quality Testing Methods
- Initial investment and operation cost - Maintenance and life cycle cost
- Return on Investment (ROI) - Net Present Value (NPV) and Internal Rate of Return (IRR)
- Carbon Tax and Environmental Policy - Methanol Fuel Market Potential and Price Trend
Summary of Research Results
Methanol Boiler Developmenospectt Prs
Policy Recommendations and Implementation Strategies
Section Content