ExperimentalStudy on Indoor Thermal Comfort of Multi-connected Dry Capillary Radiation Heat Pump

Ma Xiaodan; Wang Mengfei; Pu Yuhang; Song Chentao; Zhuang Dingding; Hong Shiying; Zhou Xinyu; Tu Qiu

doi:10.3969/j.issn.0253-4339.2020.03.102

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ExperimentalStudy on Indoor Thermal Comfort of Multi-connected Dry Capillary Radiation Heat Pump

更新时间：2024-07-18

- ExperimentalStudy on Indoor Thermal Comfort of Multi-connected Dry Capillary Radiation Heat Pump
- Journal of Refrigeration Vol. 41, Issue 3, (2020)
- 作者机构：
  
  宁波工程学院建筑与交通工程学院
- 作者简介：
- 基金信息：
- DOI：10.3969/j.issn.0253-4339.2020.03.102
  CLC：
- Published：01 January 2020
- 稿件说明：
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Ma Xiaodan, Wang Mengfei, Pu Yuhang, et al. ExperimentalStudy on Indoor Thermal Comfort of Multi-connected Dry Capillary Radiation Heat Pump[J]. Journal of refrigeration, 2020, 41(3).
DOI：

Ma Xiaodan, Wang Mengfei, Pu Yuhang, et al. ExperimentalStudy on Indoor Thermal Comfort of Multi-connected Dry Capillary Radiation Heat Pump[J]. Journal of refrigeration, 2020, 41(3). DOI： 10.3969/j.issn.0253-4339.2020.03.102.

摘要

针对传统毛细管辐射空调其毛细管末端采用水作为载冷剂，二次换热降低了其能效且存在冬天冻坏管路等隐患，本文提出以制冷剂为载冷剂的多联干式毛细管辐射热泵系统，基于宁波工程学院实验平台，在冬季工况下对该机组进行制热测试。以冷凝温度48 ℃为控制目标，分别测试了风管机制热和毛细管辐射制热时的室内温湿度和空气流速。并结合PMV-PPD热舒适评价指标，对比分析了这两种供暖末端的热舒适性。实验结果表明：多联干式毛细管辐射热泵系统冬季工况制热8 h长时间运行，室内温度场分布均匀，1.5 m处水平温差最大为0.56 ℃、垂直方向温差最大为0.37 ℃，在回油过程中温降小于1 ℃，相对湿度维持在60%~65%，PMV和PDD热舒适指标分别维持在-0.5~0、0~10%，满足Ⅰ级舒适标准，且各指标均优于风管机。

Abstract

In traditional capillary radiation air conditioning systems

water is used as the coolantinthe terminalsof the capillary. However

the secondary heat transfer reduces the energy efficiency and freezing of pipes in winter is a potential danger. In this study

a multi-connected dry capillary radiation heat pump (MDCHP) with refrigerant as the cooling medium has been proposed. Thermal tests of the unit were undertaken in winter at the experimental platform of the Ningbo Institute of Engineering. Indoor dry and wet bulb temperature

and air velocity in heating mode were tested for ducted air conditioning unit and MDCHP respectively when the target condensation temperature was set to 48 ℃.The thermal comfort of the two heating terminals were compared and analyzed with the thermal comfort evaluation index of PMV-PDD. During an 8 h running period of the MDCHP

the indoor temperature field distribution was uniform

the maximum horizontal temperature difference at 1.5m was0.56 °C

and the maximum vertical temperature difference was0.37 °C. During the process of oil return

the temperature drop was less than 1 °C

the relative humidity was maintained at 60%–65%

and the thermal comfort index of PMV and PDD were maintained at-0.5–0.0 and0%–10%

respectively. These results demonstrated that the MDCHP can achieve a First Class standard of thermal comfort and every comfort index was superior to that of ducted air conditioning unit.

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