Skip to main content
Elsevier

Frosting for Air Source Heat Pumps

Research, Case Studies, and Methods

  • 1st Edition - October 24, 2024
  • Latest edition
  • Authors: Mengjie Song, Long Zhang
  • Language: English

Frosting for Air Source Heat Pumps: Research, Case Studies, and Methods provides a comprehensive accounting of the latest research, analysis, and modeling methods for limiti… Read more

Data Mining & ML

Unlock the cutting edge

Up to 20% on trusted resources. Build expertise with data mining, ML methods.

Explore now

Description

Frosting for Air Source Heat Pumps: Research, Case Studies, and Methods provides a comprehensive accounting of the latest research, analysis, and modeling methods for limiting frosting and maximizing efficiency. The book begins by outlining the fundamentals of frosting mechanisms, including the condensation and freezing of water droplets. It then provides a wide range of case studies that showcase a variety of surfaces, conditions, and energy generation technologies. Finally, the last chapters demonstrate modeling and analysis of frosting operation before laying out critical considerations for designing a frost control strategy in ASHPs.

Building on the theory and studies contained in the author’s previous work Defrosting for Air Source Heat Pumps, this book provides essential and advanced information for understanding and controlling frosting for these sustainable energy sources.

Key features

  • Outlines the fundamentals of frosting mechanisms in different circumstances and on a variety of surfaces
  • Provides a wide range of real-world case studies, including demonstrations of analysis and modeling in finned tube heat exchangers and ASHPs
  • Details a huge collection of experimental and numerical data on reverse cycle defrosting, the most common defrosting methods for ASHPs

Readership

Academic, postgraduate students, and industry researcher in heating, ventilation, and air conditioning (HVAC)

Table of contents

1. Introduction

2. Freezing of sessile non-deformed water droplet under natural convection at early frosting stage in an ASHP unit

3. Freezing of sessile deformed water droplet under natural convection at early frosting stage in an ASHP unit

4. Frosting on surface of horizontal cold plate under natural convection in an ASHP unit

5. Frosting on surface of non-horizontal cold plate under natural convection in an ASHP unit

6. Frosting on surface of horizontal cold flat plate under forced convection in an ASHP unit

7. Measurement and calculation of frost characteristics on cold surfaces

8. Experimental study of frosting on surface of finned tube heat exchangers in an ASHP unit

9. Numerical study of frosting on surface of finned tube heat exchanger in an ASHP unit

10. Frosting on surface of micro-channel heat exchanger in an ASHP unit

11. Reverse cycle defrosting for multi-circuit outdoor coil in an ASHP unit

12. Conclusions and future work

Product details

  • Edition: 1
  • Latest edition
  • Published: October 29, 2024
  • Language: English

About the authors

MS

Mengjie Song

Mengjie Song is a Professor in the Department of Energy and Power Engineering, as well as a Teli Young Scholar and the Director of the Frost Lab in the School of Mechanical Engineering at the Beijing Institute of Technology, China. He is also the Editor-in-Chief of Recent Patents on Mechanical Engineering (EI, Scopus), Associate Editor of Frontiers in Energy Research (SCI, IF=2.746). He also works as DECRA Research Fellow at the Sustainable Buildings Research Centre (SBRC) in the Faculty of Engineering and Information Sciences at the University of Wollongong, Australia, and as a Guest Professor of Tomas Bata University in the Czech Republic. Prof. Song has worked for over a decade on the mechanism study of heat and mass transfer coupled with flow. On the topic of frosting and defrosting for air source heat pump, he proposed a series of definitions to describe thermophysical phenomena, such as even/uneven frosting/defrosting, and frosting/defrosting evenness value. His current research interests include solidification of water droplets at different scales and (anti-/de)icing for aircraft surface, and frosting and defrosting for a multi-circuit heat exchanger in refrigeration systems. He has published 122 journal articles and participated in projects from China, Hong Kong, Singapore, Japan, and Australia, handling a total of over 17 million yuan in funding, including 12 as PI. Recently, he was selected for the World’s Top 2% Scientists 2021 (Singleyr) list.
Affiliations and expertise
JSPS Research Fellow, Department of Human and Engineered Environmental Studies, Graduate School of Frontier Sciences, The University of Tokyo, Japan

LZ

Long Zhang

Doctor Long ZHANG is an Assistant Professor in the Department of Energy and Power Engineering at the Beijing Institute of Technology, China. He received his Ph.D. degrees from both The Hong Kong Polytechnic University and Harbin Institute of Technology, China. His research interests are the coupling mechanism and application research of heat and mass transfer and flow, especially the phase change problems such as frosting, icing, and the key technology research of heat pumps. He has published more than 50 SCI journal articles, including 32 ones as lead/corresponding author and 2 ESI ones. He also published 2 books and 2 chapters for Elsevier, applied for 8 Chinese patents, and made 6 invited presentations at international and Chinese conferences around frosting and icing topics. Additionally, he holds more than 10 projects, including the National Natural Science Foundation of China.

Affiliations and expertise
Postdoctoral Fellow, Department of Energy and Power Engineering, Beijing Institute of Technology, China

View book on ScienceDirect

Read Frosting for Air Source Heat Pumps on ScienceDirect