基于STAR-CCM+的某SUV汽车热舒适的研究
Research on Thermal Comfort of an SUV Based on STAR-CCM+
DOI: 10.12677/MOS.2021.103089, PDF,    国家自然科学基金支持
作者: 叶 立, 张志军, 张梦伢, 叶 欢, 张文韬:上海理工大学,上海
关键词: SUV 6座汽车热舒适性PMV-PPDMAASUV 6-Seat Vehicle Thermal Comfort PMV-PPD MAA
摘要: 以某SUV 6座纯电动汽车为研究对象,用仿真软件对车内制冷及舒适性进行研究,考虑人体模型,采用PMV-PPD和空气龄(MAA)对乘客舱内热环境的舒适性情况进行分析和评价。结果显示,车内冷空气流速、体表温度分布在舒适的范围内。通过分析评价指标的分布情况,可以清晰地了解车内舒适性分布情况,较实验具有更节约成本、缩短时效的优势。
Abstract: Taking an SUV 6-seat pure electric vehicle as the research object, the cold and comfort of the whole vehicle are studied by simulation. The human body model is introduced, and the thermal environ-ment comfort in the passenger compartment is analyzed and evaluated by using PMV-PPD and MAA. The simulation results show that the distribution of cold air velocity and passenger body surface temperature in the cabin is comfortable. Through the analysis of the distribution of evaluation in-dicators, we can clearly understand the distribution of comfort in the passenger compartment, which has the advantages of more cost saving and shorter time effectiveness than the experiment.
文章引用:叶立, 张志军, 张梦伢, 叶欢, 张文韬. 基于STAR-CCM+的某SUV汽车热舒适的研究[J]. 建模与仿真, 2021, 10(3): 898-905. https://doi.org/10.12677/MOS.2021.103089

参考文献

[1] Mezrhab, A. and Bouzidic, M. (2005) Computation of Thermal Comfort inside a Passenger Car Compartment. Applied Thermal Engineering, 26, 1697-1704. [Google Scholar] [CrossRef
[2] 林飞跃. 城市客车热舒适性空调系统结构改进[J]. 客车技术与研究, 2019, 41(3): 25-27.
[3] 杨志刚, 徐鑫, 赵兰萍, 林赵敏. 冬季夜间乘员舱内热环境及人体热舒适性研究[J]. 同济大学学报(自然科学版), 2019, 47(3): 408-413.
[4] 杨金凤, 符永正, 周传辉. 一个中型会议室空气龄和舒适度的数值模拟研究[C]//中国制冷学会, 湖北省制冷学会, 湖北省土木建筑学会. 2007年湖北省暖通空调制冷及热能动力学术年会论文集, 2008: 159-163.
[5] 宋晓峰, 黄学章. 风道出风口结构对客车车内流场影响的研究[J]. 客车技术与研究, 2018, 40(5): 8-11.
[6] Noor, E.A.S., Haslinda, M.K. and Nazri, K. (2015) CFD Simulation of Air Temperature Inside a Bus Passenger Compartment. Applied Mechan-ics and Materials, 735, 85-90. [Google Scholar] [CrossRef
[7] 周柯. 纯电动公交车内气流分布特性及热舒适性研究[D]: [硕士学位论文]. 成都: 西南交通大学, 2017.
[8] 杨春丽, 刘艳. 单开口有限空间自然通风特性及其影响因素研究[J]. 安全与环境工程, 2019, 26(4): 183-189.
[9] 张炳力, 薛铁龙, 胡忠文. 基于PMV-PPD与空气龄的轿车乘员舱内热舒适性分析与改进[J]. 汽车工程, 2015, 37(8): 951-958.
[10] 谢普康, 陈洪涛, 商潭苏, 邢首辰, 刘方圆, 林好利. 基于STAR-CCM+的某型拖拉机驾驶室热舒适性研究[J]. 拖拉机与农用运输车, 2016, 43(3): 14-17.
[11] David, M., Francisco, J., Carlos, B. and Guerra, J.J. (2014) The De-velopment and Validation of a Thermal Model for the Cabin of a Vehicle. Applied Thermal Engineering, 66, 646-656. [Google Scholar] [CrossRef
[12] Christian, D., Walter, S. and Martin, K. (2015) A Mod-ular Thermal Simulation Tool for Computing Energy Consumption of HVAC Units in Rail Vehicles. Applied Thermal Engineering, 78, 616-629. [Google Scholar] [CrossRef
[13] 张竹慧. 室内平均辐射温度的建筑设计与调节[J]. 山西建筑, 2009, 35(16): 183-184.
[14] Barbara, T.-J., Filip, B., Jose, M., Di Sciullo, F. and Payá, J. (2015) Transient Thermal Model of a Vehicle’s Cabin Validated under Variable Ambient Conditions. Applied Thermal Engineering, 75, 45-53. [Google Scholar] [CrossRef
[15] Liu, T., Liu, Z., Li, G. and Zuo, Z. (2015) Comparative Study of Numerical Simulation of Indoor Thermal Environment in the Pattern of Personalized Ventilation and Stratum Ventilation. Procedia Engineering, 121, 785-791. [Google Scholar] [CrossRef

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