Experimental investigation, modeling and in-situ monitoring of a gas-driven absorption heat pump in Belgium

Camila Dávila, Javier Vega, Vincent Lemort
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Abstract

This work describes the methodology used to realize a performance analysis of an ammonia-water condensing gas absorption heat pump. This heat pump shows a nominal heating output of 18,9 kW for an outdoor temperature of 7 °C and a delivery temperature of 35 °C, and it is designed for domestic hot water and heating production. The experimental results obtained in the laboratory are contrasted with those obtained from the monitoring of two residential facilities in the northern part of Belgium. Experimental tests were carried out in a climatic chamber to emulate different outdoor climatic conditions based on a combination of the EN 12309 requirements and typical Belgium weather data. Measurements of gas consumption, electrical consumption, water flows, and temperatures were collected to compute performance indicators. On the other hand, the monitoring data was analyzed and contrasted with the experimental results to evaluate the field systems’ performance; the problems found and modifications made are described and discussed. The results show that the performance of the systems is highly dependent on the coupling with other appliances, on the operating conditions and control of the system, resulting in penalties that can be considerable depending on the configuration used. An empirical model calibrated with experimental data is proposed, as well as a penalization factor calibrated with the monitoring data. The results presented evidence the differences found between the studied facilities, highlighting the main role of proper installation and control not to diminish the main performance indicators.

比利时气体驱动吸收式热泵的实验研究、建模和现场监测
本文描述了用于实现氨水冷凝气体吸收式热泵性能分析的方法。该热泵在室外温度为7°C、输送温度为35°C的情况下,额定供暖输出为18,9 kW,专为生活热水和供暖生产而设计。将实验室获得的实验结果与比利时北部两个住宅设施的监测结果进行了对比。实验测试是在气候室中进行的,以模拟基于EN 12309要求和典型比利时天气数据的不同室外气候条件。收集气体消耗、电力消耗、水流量和温度的测量值,以计算性能指标。另一方面,对监测数据进行分析,并与实验结果进行对比,以评估现场系统的性能;对发现的问题和修改进行了描述和讨论。结果表明,系统的性能在很大程度上取决于与其他设备的耦合、系统的运行条件和控制,根据所使用的配置,可能会产生相当大的损失。提出了一个用实验数据校准的经验模型,以及一个用监测数据校准的惩罚因子。研究结果证明了所研究设施之间的差异,突出了正确安装和控制的主要作用,而不是降低主要性能指标。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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