Ultra-Supercritical Coal Power Plants Materials, Technologies and Optimisation Woodhead Publishing Series in Energy Series
Coordonnateur : Zhang FTSE Dongke
Following a chapter introducing advanced and ultra-supercritical coal power plants, part one goes on to explore the operating environments, materials and engineering of ultra-supercritical coal power plants. Chapters discuss the impacts of steam conditions on plant materials and operation, fuel considerations and burner design, and materials and design for boilers working under supercritical steam conditions. Chapters in part two focus on improving ultra-supercritical coal power plant performance and operability. Ash fouling, deposition and slagging in ultra-supercritical coal power plants are highlighted along with pollution control measures and the estimation, management and extension of the life of ultra-supercritical power plants. Further chapters provide an economic and engineering analysis of a 700°C advanced ultra-supercritical pulverised coal power plant and discuss CO2 capture-ready ultra-supercritical coal power plants.
Ultra-supercritical coal power plants is a comprehensive technical reference for power plant operators and engineers, high-temperature materials scientists, professionals in the power industry who require an understanding of ultra-supercritical coal power plants and researchers and academics interested in the field.
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Woodhead Publishing Series in Energy
Preface
Acknowledgements
Chapter 1: Introduction to advanced and ultra-supercritical fossil fuel power plants
Abstract:
1.1 Introduction
1.2 Plant design and technology
1.3 Materials’ development for ultra-supercritical pulverised fuel plants
1.4 Advantages and limitations of ultra-supercritical power plants
1.5 Conclusions and future trends
1.6 About this book
1.7 Sources of further information and advice
Part I: Operating environments, materials and engineering of ultra-supercritical coal power plants
Chapter 2: Impacts of steam conditions on plant materials and operation in ultra-supercritical coal power plants
Abstract:
2.1 Introduction
2.2 Steam cycle configuration
2.3 Effects of dissolved solids and gases
2.4 Impact on materials’ selection for steam turbines
2.5 Impact on materials’ selection for boiler construction
2.6 Future trends
2.7 Conclusion
2.8 Sources of further information and advice
Chapter 3: Fuel considerations and burner design for ultra-supercritical power plants
Abstract:
3.1 Introduction
3.2 Fuel quality considerations
3.3 Coal handling, storage, processing, and preparation
3.4 Burner design
3.5 Alternative fuels and impacts on performance
3.6 Conclusion and future trends
3.7 Sources of further information and advice
Chapter 4: Materials for boilers operating under supercritical steam conditions
Abstract:
4.1 Introduction
4.2 Classification of supercritical boilers
4.3 Materials’ selection for major regions of the boiler
4.4 Cost of alloys and effect on material selection
4.5 Furnace water walls
4.6 Superheat and reheat tubing
4.7 High-temperature materials research
4.8 Conclusion
Chapter 5: Boiler design for ultra-supercritical coal power plants
Abstract:
5.1 Introduction
5.2 Boiler types and structures
5.3 Heat transfer calculations for boilers
5.4 Comparison of supercritical and subcritical boilers
5.5 Water-cooled walls
5.6 Superheaters and reheaters
5.7 Economizers and air heaters
5.8 Conclusion and future trends
5.9 Acknowledgement
Part II: Improving ultra-supercritical coal power plant performance
Chapter 6: Ash fouling, deposition and slagging in ultra-supercritical coal power plants
Abstract:
6.1 Introduction
6.2 Mineral matter transformation during coal combustion
6.3 Mechanisms of ash transportation in furnaces
6.4 Ash deposit growth and deposit strength
6.5 Predictive tools and modelling
6.6 Co-firing of coal with biomass
6.7 Coal blending to mitigate ash deposition in a pulverised fuel boiler
6.8 Conclusions and future trends
Chapter 7: Emissions from ultra-supercritical power plants and pollution control measures
Abstract:
7.1 Introduction
7.2 Sulphur oxides (SOx)
7.3 Nitrogen oxides (NOx)
7.4 Particulates
7.5 Heavy metals and trace elements
7.6 Other pollutants
7.7 Conclusion and future trends
7.8 Sources of further information and advice
Chapter 8: Estimation, management and extension of the life of ultra-supercritical power plants
Abstract:
8.1 Introduction
8.2 Key concepts in asset management
8.3 Asset management system
8.4 Plant life extension
8.5 Application challenges in ultra-supercritical coal power plants
8.6 Conclusion and future trends
8.7 Sources of further information and advice
Chapter 9: An economic and engineering analysis of a 700 °C advanced ultra-supercritical pulverized coal power plant
Abstract:
9.1 Introduction
9.2 Design criteria for the study
9.3 Performance and economic results from study
9.4 Costs associated with CO2 emissions and capture
9.5 Extending the study
9.6 Conclusion
Chapter 10: CO2 capture-ready ultra-supercritical coal power plants
Abstract:
10.1 Carbon capture and storage, and CO2 capture-ready plants
10.2 General principles for the design of capture-ready coal plants for post-combustion capture
10.3 Comparison to the ideal principles of capture-ready designs
10.4 Conclusions
Index
- Provides a comprehensive reference on the developments, materials, design and operation of ultra-supercritical power plant
- Considers the degradation issues affecting this type of plant, as well as emissions control and CO2 capture technology; improved plant controls critical to improved operation and environmental performance
- Contains operational assessments for plant safety, plant life management, and plant economics
Date de parution : 08-2013
Ouvrage de 304 p.
15.5x23.2 cm
