Comparisons and optimization of two absorption chiller types by considering heat transfer area, exergy and economy as single-objective functions

IF 2.9 4区 环境科学与生态学 Q3 ENERGY & FUELS Clean Energy Pub Date : 2024-01-06 DOI:10.1093/ce/zkad086
Yida Qiu, Jingkun Wang, Jing Han, Yuzhu Chen, Jun Wang, Peter Lund
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Abstract

Absorption cooling technology is an environmentally friendly method to generate continuous chilled water making use of multiple thermal sources, such as waste heat and renewable thermal energy. In this study, two absorption chillers (nominal capacity of 400 kW) with series and parallel connections are evaluated. To research the ideal configuration of chillers after thermodynamic analysis, the structures of the chillers are optimized using the particle swarm optimization algorithm by considering the heat transfer area (HTA), exergy efficiency and total annual cost as single-objective functions. The impact of temperature differences between external and internal flows, heat exchanger efficiencies and the solution allocation ratio is estimated. The optimized HTA, coefficient of performance, exergy efficiency and total annual cost are 149.0 m2, 1.56, 29.44% and $229 119 for the series-connected chiller, and 146.7 m2, 1.59, 31.45% and $234 562 for the parallel-connected type, respectively. Under the lowest HTA condition, compared with the reference simulation results, the energy and exergy performances are improved, while the annual total cost is higher. The annual total cost is highest when maximizing the exergy efficiency, which is attributed to the increase in the HTA. The operating cost accounts for 27.42% (series type) and 26.54% (parallel type) when the annual cost is the lowest.
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将传热面积、能效和经济性作为单目标函数,对两种吸收式冷却器进行比较和优化
吸收式冷却技术是一种利用多种热源(如废热和可再生热能)生成连续冷冻水的环保方法。本研究评估了两台串联和并联的吸收式冷却器(额定功率为 400 千瓦)。为了研究热力学分析后冷却器的理想配置,使用粒子群优化算法对冷却器的结构进行了优化,将传热面积(HTA)、放能效率和年总成本作为单目标函数考虑。估算了内外流温差、热交换器效率和解决方案分配比例的影响。串联式冷水机组的优化 HTA、性能系数、放能效率和年度总成本分别为 149.0 平方米、1.56%、29.44% 和 229 119 美元,并联式冷水机组的优化 HTA、性能系数、放能效率和年度总成本分别为 146.7 平方米、1.59%、31.45% 和 234 562 美元。在最低 HTA 条件下,与参考模拟结果相比,能量和放能性能都有所改善,但年总成本较高。当放电效率最大化时,年总成本最高,这是由于 HTA 增加所致。当年成本最低时,运行成本占 27.42%(串联式)和 26.54%(并联式)。
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来源期刊
Clean Energy
Clean Energy Environmental Science-Management, Monitoring, Policy and Law
CiteScore
4.00
自引率
13.00%
发文量
55
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