Examining Ice Slurry Production by Evaporative Supercooling Water Based on a Desiccant Wheel

Yue Zheng; Zhang Xiaosong

doi:10.3969/j.issn.0253-4339.2024.01.090

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Examining Ice Slurry Production by Evaporative Supercooling Water Based on a Desiccant Wheel

更新时间：2024-07-18

- Examining Ice Slurry Production by Evaporative Supercooling Water Based on a Desiccant Wheel
- Journal of Refrigeration Vol. 45, Issue 1, (2024)
- 作者机构：
  
  东南大学能源与环境学院
- 作者简介：
- 基金信息：
- DOI：10.3969/j.issn.0253-4339.2024.01.090
  CLC：
- Published：2024
- 稿件说明：
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Yue Zheng, Zhang Xiaosong. Examining Ice Slurry Production by Evaporative Supercooling Water Based on a Desiccant Wheel[J]. Journal of refrigeration, 2024, 45(1).
DOI：

Yue Zheng, Zhang Xiaosong. Examining Ice Slurry Production by Evaporative Supercooling Water Based on a Desiccant Wheel[J]. Journal of refrigeration, 2024, 45(1). DOI： 10.3969/j.issn.0253-4339.2024.01.090.

摘要

本文围绕蒸发式过冷水制取流态冰，提出了一种新型的基于转轮除湿的流态冰制取系统，通过转轮除湿营造低水蒸气分压力环境，实现水滴的管外过冷，避免了传统过冷水法的冰堵问题和真空法能耗高的问题，并且同溶液除湿型制冰方法相比，系统设备简单且除湿效果更好，实现了水滴更大的过冷度，依靠系统自身的冷凝热即可满足转轮再生需求。构建了完整制冰系统并分别建立了转轮除湿模型、二氧化碳热泵模型和蒸发制冰模型，通过模拟分析初步验证了系统的可行性与高效性，并研究了主要运行参数对系统性能的影响。结果表明：在最佳运行工况下，新型流态冰制取系统的制冰性能系数比传统过冷水法提高了25.9%，单周期制冰量提高了4.3倍。

Abstract

A new system based on rotary dehumidification is proposed using evaporative supercooled water to create ice slurry. Rotary dehumidification is employed to reduce the steam partial pressure

generating supercooled water droplets outside heat transfer tubes. This design circumvents the high energy consumption associated with the traditional vacuum method. Additionally

when compared with the solution dehumidification method

this system is simple and has better dehumidification performance. A high degree of supercooling of the water droplets was realized

and the regeneration load of the desiccant wheel was supplemented by the condensation heat from the refrigeration system. A complete ice-making system was constructed

and component models for the desiccant wheel

carbon dioxide heat pump

and evaporative ice-making process were established. The feasibility and efficiency of the system were preliminarily verified by simulation

and the influence of the main operating parameters on the system performance was studied. Under optimal operating conditions

the coefficient of ice production performance for this new system exceeded that of the traditional supercooling water method by 25.9%

and the ice-making capacity in a single cycle increased by 4.3 times.

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