| ISBN13: | 9781032719412 |
| ISBN10: | 1032719419 |
| Binding: | Hardback |
| No. of pages: | 528 pages |
| Size: | 254x178 mm |
| Language: | English |
| Illustrations: | 170 Illustrations, black & white; 19 Halftones, black & white; 151 Line drawings, black & white; 55 Tables, black & white |
| 700 |
Power-to-X in Regional Energy Systems
GBP 165.00
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Power-to-X in Regional Energy Systems discusses the role of these technologies in achieving a carbon-neutral economy and the impact on the energy markets with implications for electricity, gas, hydrogen, and ancillary services. It focuses on the challenges and benefits of implementing PtX technologies in regional-scale applications.
Power-to-X in Regional Energy Systems discusses the role of these technologies in achieving a carbon-neutral economy and the impact on the energy markets, with implications for electricity, gas, hydrogen, and ancillary services. It focuses on the challenges and benefits of implementing PtX technologies in regional-scale applications.
Emphasizing the role of PtX technologies as enablers of sector coupling, the book provides a comprehensive understanding of how these technologies integrate and interact with the industry, transportation, and residential sectors. It describes the significance of PtX, optimal planning, and cost-effective operation of PtX technologies across different sectors and the impact of PtX devices on energy markets. The book considers investing in PtX technologies and contributing to the transition to a sustainable economy.
The book will interest professionals and policymakers working in various energy sectors. Researchers and academics in electrical engineering, power systems, renewable energy, and energy economics will also find the content useful.
1. Power-to-X: Pioneering the Future of Sustainable Energy. 2. Defining ?X,? solving global problems by local solutions. 3. Power-to-X and the Art of Hybrid Systems. 4. A comprehensive review on green hydrogen, CCSU and methane production technologies. 5. Synergetic Deployment of Power-to-X Across Diverse Sectors. 6. Exploring the Role of Power-to-X in Energy Hubs. 7. Application and advances in Decision Support Tools for energy grid planning and operation. 8. From Electrons to Solutions: Power-to-X Strategies for Energy Systems Integration. 9. Defossilization Dynamics: Exploring the Interplay of Power-to-X and Bioenergy. 10. Optimizing Green Hydrogen Production Using Artificial Intelligence and Renewable Energy Integration. 11. Intelligent techniques of demand-side management for economic flexibility. 12. Cybersecurity Challenges in Power-to-X Integration. 13. Autonomous Intelligent Power-to-Mobility of Electric Vehicles using Distributed Multi-Agent ADMM Framework for Grid Ancillary Services. 14. Power-to-Gas Integration in Energy Systems. 15. Optimization Models for Operation of Power-to-X Technologies. 16. Power-to-X for Improved Flexibility in Modern Energy Landscapes. 17. Modeling and Control of Grid-Connected Electrolyser Plant. 18. The Power-to-X (PtX) Effect in Ancillary Service Markets: from Opportunities and Challenges Toward Future Directions. 19. Strategies for profit maximization of power-to-gas utilities within carbon emission trading market. 20. Enhancing Energy Market Dynamics through Coordinated Wind-P2G Bidding Strategies. 21. PtX-P2P Intersection in Energy Markets: A Sustainable Solution to Future Energy Systems.
