Numerical Study on Energy-saving Optimal Control of Rotary Desiccant Wheel System

Zhang Nan; Yao ye; Jia Dongxin

doi:10.3969/j.issn.0253-4339.2023.05.041

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Numerical Study on Energy-saving Optimal Control of Rotary Desiccant Wheel System

更新时间：2024-07-18

- Numerical Study on Energy-saving Optimal Control of Rotary Desiccant Wheel System
- Journal of Refrigeration Vol. 44, Issue 5, (2023)
- 作者机构：
  
  1. 上海交通大学机械与动力工程学院制冷与低温工程研究所
  2. 普沃思环保科技无锡有限公司
- 作者简介：
- 基金信息：
- DOI：10.3969/j.issn.0253-4339.2023.05.041
  CLC：
- Published：2023
- 稿件说明：
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Zhang Nan, Yao ye, Jia Dongxin. Numerical Study on Energy-saving Optimal Control of Rotary Desiccant Wheel System[J]. Journal of refrigeration, 2023, 44(5).
DOI：

Zhang Nan, Yao ye, Jia Dongxin. Numerical Study on Energy-saving Optimal Control of Rotary Desiccant Wheel System[J]. Journal of refrigeration, 2023, 44(5). DOI： 10.3969/j.issn.0253-4339.2023.05.041.

摘要

转轮除湿以结构紧凑、除湿效率高、能够实现连续除湿再生过程等特点，逐渐成为空气除湿领域中的主流。为了有效解决传统除湿转轮系统能耗较高的问题，本文首先构建了除湿转轮数值模型，并通过实验进行验证。在此基础上，引入权值因子把系统能耗及除湿性能结合起来作为优化目标，提出以改进PSO为求解算法的转轮除湿系统节能优化控制模型，并对不同权值因子、环境含湿量及环境温度下的节能优化效果进行分析。结果表明：当权值因子λ=0.3时，既能满足出口含湿量的要求，又能使能耗节省率达到最高；当环境含湿量在16~22 g/(kg干空气)范围内，平均能耗节省率为76.4%，最大能耗节省率为95.6%；当环境温度在24~30 ℃范围内，平均能耗节省率为40.2%，最大能耗节省率为42.1%。

Abstract

Rotary desiccant wheels have gradually become mainstream in the field of air dehumidification owing to their compact structure

high efficiency

and continuous dehumidification and regeneration processes. To effectively reduce the energy consumption of traditional rotary desiccant wheels

we constructed a numerical model of a desiccant wheel and verified it through experiments. A weight factor was introduced to combine the energy consumption and dehumidification performance of the system as the optimization objective. An energy-saving optimization control model of the desiccant wheel system was proposed with an improved PSO as the solution algorithm. The energy-saving optimization effects with different weight factors

ambient humidity ratios

and ambient temperatures were analyzed using the optimization control model. The results showed that when the weight factor λ=0.3

the humidity ratio requirements at the outlet were met and the energy savings were maximized. When the ambient humidity ratio was in the range of 16–22 g/kg dry air

the average and maximum energy savings were 76.4% and 95.6%

respectively. In the ambient temperature range of 24–30 ℃

the average energy saving was 40.2% and the maximum energy-saving rate was 42.1%.

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