Tribological and residential air conditioning performance using SiO2-TiO2/PVE nanolubricant

W.H. Azmi, M.F. Ismail, N.N.M. Zawawi, R. Mamat, S. Safril
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Abstract

Applying nanoparticles as an additive may increase the lubrication performance of the oil. The present paper evaluates the tribological performance of SiO2-TiO2 nanoparticles in PVE lubricant and its effect on the system's performance in residential air conditioning (RAC). The hybrid nanolubricants with a concentration from 0.003 to 0.01% at a 50:50 ratio were tested using the four-ball tribological method and then applied in a customised RAC test rig. The friction coefficient and wear scar diameter were evaluated to synthesise nanolubricant anti-wear effect on a paired surface. The coefficient of performance (COP), cooling capacity, power consumption, and energy efficiency ratio (EER) were analysed to understand the influence of SiO2-TiO2/PVE nanolubricant in the RAC system. About 25% reduction in frictional coefficient was discovered when the nanoparticles were added into lubricant with a concentration of 0.005%. Applying nanolubricant in the RAC system can reduce compressor work and power consumption, increase the refrigerant flow rate and cooling capacity, and increase the COP and EER. Maximum enhancement of 39.2% and 52.7% for COP and EER were found for nanolubricant at concentrations of 0.005%. The 0.005% concentration is the nanoparticle's concentration threshold for SiO2-TiO2/PVE, as the higher concentration may lead to the performance of a pure lubricant.

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使用 SiO2-TiO2/PVE 纳米润滑剂的摩擦学性能和住宅空调性能
使用纳米颗粒作为添加剂可以提高润滑油的润滑性能。本文评估了 PVE 润滑油中 SiO2-TiO2 纳米粒子的摩擦学性能及其对住宅空调 (RAC) 系统性能的影响。采用四球摩擦学方法测试了浓度为 0.003 至 0.01%、比例为 50:50 的混合纳米润滑剂,然后将其应用于定制的 RAC 试验台。对摩擦系数和磨损痕直径进行了评估,以综合纳米润滑剂在配对表面上的抗磨效果。分析了性能系数(COP)、冷却能力、功耗和能效比(EER),以了解 SiO2-TiO2/PVE 纳米润滑剂在 RAC 系统中的影响。当纳米粒子加入浓度为 0.005% 的润滑剂中时,摩擦系数降低了约 25%。在制冷与空调系统中应用纳米润滑剂可以降低压缩机的功耗,增加制冷剂流量和制冷量,提高 COP 和 EER。浓度为 0.005% 的纳米润滑剂可使 COP 和 EER 分别提高 39.2% 和 52.7%。0.005% 的浓度是 SiO2-TiO2/PVE 的纳米粒子浓度临界值,因为浓度越高,其性能越像纯润滑剂。
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