串联式电动混合动力紧凑型轮式装载机的燃油效率分析与控制

IF 0.6 Q4 TRANSPORTATION SCIENCE & TECHNOLOGY SAE International Journal of Commercial Vehicles Pub Date : 2024-05-03 DOI:10.4271/02-17-02-0012
Mohamed Allam, Orlando Fernandez, Matti Linjama
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引用次数: 0

摘要

对更高效、更可持续的工作机械的需求不断增长,促使制造商采用电动混合动力技术。电动动力系统有望节省大量燃料,但这与机器工作周期的性质有很大关系。本研究利用轮式装载机在短负载 Y 循环中测量到的实验数据,对已开发的串联式电动混合动力轮式装载机数学模型进行了验证。对所研究结构的效率和能耗进行了分析,并与使用柴油发动机和静液压传动装置的传统机器的能耗进行了比较。结果表明,使用所提出的串联式电动混合动力系统至少可减少 30% 的燃油消耗,柴油发动机的转速保持稳定,而瞬态负载则可通过电动动力系统得到缓解。模型还显示,通过使用驱动电机进行制动,可再生 20% 的驱动能量。确定了缩小发动机尺寸的机会,并对两种机器的损耗进行了分析和比较。结果表明,整个系统的损耗,尤其是柴油发动机和动力传动系统的损耗可节省 42%。
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Fuel Efficiency Analysis and Control of a Series Electric Hybrid Compact Wheel Loader
The escalating demand for more efficient and sustainable working machines has pushed manufacturers toward adopting electric hybrid technology. Electric powertrains promise significant fuel savings, which are highly dependent on the nature of the duty cycle of the machine. In this study, experimental data measured from a wheel loader in a short-loading Y-cycle is used to exercise a developed mathematical model of a series electric hybrid wheel loader. The efficiency and energy consumption of the studied architecture are analyzed and compared to the consumption of the measured conventional machine that uses a diesel engine and a hydrostatic transmission. The results show at least 30% reduction in fuel consumption by using the proposed series electric hybrid powertrain, the diesel engine rotational speed is steady, and the transient loads are mitigated by the electric powertrain. The model also shows that 20% of drive energy could be regenerated through braking using the drive electric motors. Opportunities for engine downsizing are established and the losses are analyzed and compared for both machines. The results show 42% savings in the overall system losses especially the diesel engine and drivetrain.
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来源期刊
SAE International Journal of Commercial Vehicles
SAE International Journal of Commercial Vehicles TRANSPORTATION SCIENCE & TECHNOLOGY-
CiteScore
1.80
自引率
0.00%
发文量
25
期刊最新文献
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