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Frosting and Icing for Efficient Energy Use in Engineering Applications de Long Zhang

Frosting and Icing for Efficient Energy Use in Engineering Applications

Editat de Long Zhang, Mengjie Song
en Limba Engleză Paperback – mar 2025
Frosting and Icing for Efficient Energy Use in Engineering Applications provides a compendium of innovative case studies for mitigating impacts from frosting and icing on energy. This book first clarifies the mechanisms of frosting and icing, outlining modeling options, and control techniques. Next, a series of experimental examples show the effects of frosting at different scales of energy production, from ambient air vaporizers to wind turbines, and demonstrate how to control these for maximum efficiency. Finally, the mechanisms and mitigation of frosting are examined in a variety of infrastructure scenarios, including sustainable food storage and efficient high-speed railways. Combining the theoretical fundamentals of frosting and icing with a huge range of real-world case studies, this resource shows how to limit energy loss to these effects in key areas of engineering.


  • Provides essential, foundational knowledge about frosting and icing mechanisms for energy transfer, production, and use
  • Details practical methods for modeling and control of frosting and icing, including analysis of appropriate use in Energy and transport applications
  • Includes two collections of case studies, showing how to maximize efficiency through frosting control in sustainable energy production and infrastructure
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Specificații

ISBN-13: 9780443154959
ISBN-10: 0443154953
Pagini: 300
Dimensiuni: 152 x 229 mm
Editura: ELSEVIER SCIENCE

Cuprins

Part I: Principles, Modeling, and Control Strategies for Frosting and Icing 1. Introduction 2. Nucleation of water droplets during solidification 3. Droplet condensation and solidification in energy transfer 4. Dropwise condensation freezing and frosting at subzero temperatures 5. A strategy for inhibiting heterogeneous ice nucleation 6. Icing on a cold plate surface in energy equipment 7. A frosting model using the Lattice Boltzmann method 8. A modeling prediction of frosting characteristics in heat exchangers 9. Anti-icing and de-icing technologies based on super hydrophobicity and the photothermal effect for energy efficiency optimization Part II: Case Studies in Frosting and Icing for Efficient Energy Production 10. Frosting on a cold plate and heat exchanger 11. Frosting in an air source heat pump evaporator 12. High-efficiency frost-free air source heat pumps 13. Sustainable defrosting technologies for air source heat pumps 14. High-efficiency liquefied natural gas ambient air vaporizers under frost conditions 15. Integrating ice detection and mitigation for wind turbine blades 16. High efficiency frost and ice prevention of a power system Part III: Case Studies in Frosting and Icing for Energy-Efficient Infrastructure 17. Anti- and de-icing of airplanes for energy savings 18. Key technologies of a fluid-heating road snow-melting system 19. Anti-frosting, -icing, and -snowing for high-speed railways 20. Sustainable food freezing and storage technologies 21. Conclusions and future work