Novel Cascade Refrigeration Cycle for Cold Supply Chain of COVID-19 Vaccines at Ultra-Low Temperature -80°C Using Ethane (R170) Based Hydrocarbon Pair

T. A. Mouneer, Abdelrahman M. Elshaer, M. H. Aly
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引用次数: 12

Abstract

Several media report highlight on that the pharmaceutical companies require ultra-low temperatures -80°C to transport and store its COVID-19 vaccines. This research presents the thermodynamic analysis on cascade refrigeration system (CRS) with several refrigerant pairs which are R32/R170, R123/R170, R134a/R170, R404A/R170, R407c/R170, R410/R170, and the hydrocarbon (HC) refrigerant pair Propane/Ethane, namely R290/R170. Besides, the results of R22/R170 pair, which is not recommended to be used due to phase out of R22 as per Montreal Protocol, are included as base case to compare the novel hydrocarbon pairs in CRS and the old trend of refrigerant pairs. Thermodynamic properties of all these pairs were investigated and compared under different intermediate temperature used in CRS heat exchanger, which thermally connected both the Low and High temperature cycles (LTC) and (HTC). By applying the first law of thermodynamics, the coefficients of performance (COPs) and the specific power consumptions (SPC) in kW/TR are presented and compared. In addition, by applying the second law of thermodynamics the exergetic efficiencies were estimated. The results reveal the promising opportunity of using the HC pair (R290/R170). The minimum SPC in kW/TR is recorded for the pair R123/R170. One the other hand, the highest exegetic efficiency values are observed to be 40%, 38%, and 35% for the pairs R123/R170, R290/R170, and R134/R170, respectively. This research concludes that the HC pair (R290/R170) is highly recommended for CRS applications either to transport the COVID-19 or store it in cold storage rooms in hospitals and clinics. All precautionary measures should be carefully applied in design and operation of HC pair (R290/R170) due to its flammability hazard.
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基于乙烷(R170)碳氢化合物对的新型冠状病毒疫苗超低温-80℃冷供应链级联制冷循环
多家媒体报道强调,制药公司需要-80°C的超低温来运输和储存新冠病毒疫苗。本文对R32/R170、R123/R170、R134a/R170、R404A/R170、R407c/R170、R410/R170以及烃类制冷剂(HC)丙烷/乙烷对R290/R170的复叠制冷系统(CRS)进行了热力学分析。此外,根据《蒙特利尔议定书》,R22/R170对已不再被推荐使用,本文将R22/R170对的结果作为基准案例,比较CRS中新型碳氢化合物对和制冷剂对的旧趋势。在低温循环(LTC)和高温循环(HTC)热连接的CRS换热器中,研究并比较了不同中间温度下这三种材料的热力学性质。应用热力学第一定律,给出并比较了性能系数(cop)和比功耗(SPC) (kW/TR)。此外,利用热力学第二定律估计了其火用效率。结果表明,使用HC对(R290/R170)是有希望的。记录R123/R170对的最小SPC (kW/TR)。另一方面,R123/R170、R290/R170和R134/R170的高能化效率分别为40%、38%和35%。本研究得出结论,HC对(R290/R170)强烈推荐用于CRS应用,无论是运输COVID-19还是在医院和诊所的冷库中储存。由于HC对(R290/R170)的可燃性,在设计和操作中应仔细采取所有预防措施。
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