Design and Analysis of an Exhaust Gas Hybrid System for Automotive Air Conditioning

Mohammed Bentrcia, Hanafy M. Omar, M. Alshitawi
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Abstract

Automotive air conditioning systems consume a significant amount of fuel energy. In this study, the enthalpy energy available in exhaust gases is evaluated and different factors, affecting it, are discussed. Then an exhaust gas hybrid system for automotive A/C is designed. Based on conducted dynamometer tests, it is found that the exhaust gases can drive the system power turbine; hence enabling it for rotating the A/C compressor. The produced power depends on many factors. Indeed it increases from (1.316 kW) to (2.633 kW) as the engine is loaded up to 100%. Similar effects on this power are observed as engine (rpm), size, number of cylinders and compression ratio augment. Concerning the engine backing power for the produced power; it is found that it decreases as the engine loading increases and Tambient decreases, thus reducing fuel consumption. Furthermore, the new system is more suitable for vehicles with large size engines and smaller cabins where lesser engine partial loads can mostly provide sufficient power for driving the A/C compressor. For the system design, the incorporation of a motorized adjustable tensioner with a torque sensor and an (ECU) enables the system to minimize the engine energy consumption and decrease the exhaust gas pollution. Indeed the findings show that if the engine runs at a partial load (50%) the new A/C system will save about (60%) of the power consumption for air conditioning.
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汽车空调废气混合动力系统的设计与分析
汽车空调系统消耗大量的燃料能源。在本研究中,评估了废气中可用的焓能,并讨论了影响它的各种因素。在此基础上,设计了汽车空调废气混合动力系统。通过进行测功机试验,发现废气能够驱动系统动力涡轮;从而使其能够旋转空调压缩机。产生的功率取决于许多因素。事实上,当发动机负荷达到100%时,功率从(1.316 kW)增加到(2.633 kW)。类似的影响,这是观察到的发动机(转速),大小,气缸数和压缩比增加。关于产生功率的发动机后备功率;随着发动机负荷的增大和Tambient的减小,该系数减小,从而降低了油耗。此外,新系统更适用于大尺寸发动机和较小舱室的车辆,在这些车辆中,较小的发动机部分负载可以提供足够的动力来驱动空调压缩机。在系统设计上,采用了带有扭矩传感器和ECU的电动可调张紧器,使系统能够最大限度地降低发动机能耗,减少废气污染。事实上,研究结果表明,如果发动机在部分负荷(50%)下运行,新的空调系统将节省大约(60%)的空调耗电量。
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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