MODELING OF A REGENERATIVE INDIRECT EVAPORATIVE COOLER FOR A DESICCANT COOLING SYSTEM

机译：干燥剂冷却系统的再生间接蒸发冷却器的建模

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This paper presents a numerical study of a regenerative indirect evaporative cooler, the so-called Dew Point Cooler (DPC), which is part of a Desiccant Cooling system that may both dehumidify and cool humid air. The DPC model is based on first principles using a 1D finite volume scheme and determines the steady state working conditions for the component. A sensitivity analysis of the DPC performance is carried out based on the air inlet conditions, air flow rate and recirculation fraction. A recirculation fraction around 0.3 maximizes the DPC net cooling capacity. The supply temperature is found to be mostly affected by the inlet humidity ratio. Manufacturer data are used to tune the model. The tuned DPC model is characterized by an area effectiveness coefficient which is kept constant at 0.55. The cooling capacity and water consumption estimated by the tuned model deviate within 3% and 8%, respectively from manufacturer data. The computed pressure drops deviates within 6% from manufacturer data.

机译：本文介绍了一种蓄热式间接蒸发式冷却器的数值研究，即所谓的露点冷却器（DPC），它是干燥剂冷却系统的一部分，该系统既可以除湿又可以冷却湿空气。 DPC模型基于使用1D有限体积方案的第一原理，并确定组件的稳态工作条件。 DPC性能的灵敏度分析是基于进气条件，空气流速和再循环分数进行的。约0.3的再循环分数可使DPC净冷却能力最大化。发现供应温度主要受入口湿度比的影响。制造商数据用于调整模型。调整后的DPC模型的特征在于区域有效系数保持恒定在0.55。调整后的模型估计的制冷量和耗水量分别与制造商数据相差3％和8％。计算得出的压降与制造商数据的偏差在6％以内。

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《4th IIR International Conference on Thermophysical Properties and Transfer Processes of Refrigerants》|2013年|1-9|共9页
会议地点 Delft(NL)
作者
Lorenzo Bellemo; Brian Elmegaard; Lars O. Reinholdt; Martin R. Kærn;
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Technical University of Denmark, Department of Mechanical Engineering, Section of Thermal Energy, 2800 Kongens Lyngby, Denmark, lobel@mek.dtu.dk;

Technical University of Denmark, Department of Mechanical Engineering, Section of Thermal Energy, 2800 Kongens Lyngby, Denmark;

Danish Technological Institute, Energy and Climate Division, Refrigeration and Heat Pump Technology, 8000 Aarhus, Denmark;

Technical University of Denmark, Department of Mechanical Engineering, Section of Thermal Energy, 2800 Kongens Lyngby, Denmark;

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1. Performance enhancement of a desiccant evaporative cooling system using direct/indirect evaporative cooler [J] . Elgendy E., Mostafa A., Fatouh M. International Journal of Refrigeration . 2015,第Null期

机译：使用直接/间接蒸发冷却器的干燥剂蒸发冷却系统的性能增强
2. Comparative study of two different evaporative systems: an indirect evaporative cooler and a semi-indirect ceramic evaporative cooler [J] . F.J. Rey Martinez, E. Velasco Gomez, R. Herrero Martin, Energy and Buildings . 2004,第7期

机译：比较两种不同的蒸发系统：间接蒸发冷却器和半间接陶瓷蒸发冷却器
3. Assessments of High-Efficient Regenerative Evaporative Cooler Effects on Desiccant Air Cooling Systems [J] . Hakan Caliskan, Dae-Young Lee, Hiki Hong Journal of Energy Resources Technology . 2020,第7期

机译：高效再生蒸发冷却器对干燥剂空气冷却系统的评估
4. MODELING OF A REGENERATIVE INDIRECT EVAPORATIVE COOLER FOR A DESICCANT COOLING SYSTEM [C] . Lorenzo Bellemo, Brian Elmegaard, Lars O. Reinholdt, Conference de I IIF sur les proprietes thermophysiques et processus de transfert des frigorigenes . 2013

机译：用于干燥剂冷却系统的再生间接蒸发冷却器的建模
5. ANALYSIS OF A COUNTERFLOW INDIRECT EVAPORATIVE COOLING AND LIQUID DESICCANT DEHUMIDIFICATION SYSTEM (COMPUTATIONAL, SOLAR ENERGY, AIR CONDITIONING) [D] . ULLAH, MOHAMMAD RIFAT 1986

机译：逆流间接蒸发冷却和液体干燥剂除湿系统（计算，太阳能，空调）的分析
6. Performance evaluation of an indirect air cooling system combined with evaporative cooling [O] . Sipho Sibanda, Tilahun Seyoum Workneh 2020

机译：间接空冷系统与蒸发冷却相结合的性能评估
7. Modeling of a regenerative indirect evaporative cooler for a desiccant cooling system [O] . Bellemo Lorenzo, Elmegaard Brian, Reinholdt Lars O., 2013

机译：用于干燥剂冷却系统的再生间接蒸发冷却器的建模
8. Desiccant Dehumidification and Cooling with an Indirect Evaporative Cooler. Final Report, 1 Apr 1980 [R] . Kettleborough, C. F. 1980

机译：使用间接蒸发冷却器进行干燥除湿和冷却。最终报告，1980年4月1日

MODELING OF A REGENERATIVE INDIRECT EVAPORATIVE COOLER FOR A DESICCANT COOLING SYSTEM

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