武汉理工大学学报(交通科学与工程版)
武漢理工大學學報(交通科學與工程版)
무한리공대학학보(교통과학여공정판)
JOURNAL OF WUHAN UNIVERSITY OF TECHNOLOGY(TRANSPORTATION SCIENCE & ENGINEERING)
2014年
1期
217-221
,共5页
CFD%绕流场%FSC赛车%优化策略
CFD%繞流場%FSC賽車%優化策略
CFD%요류장%FSC새차%우화책략
CFD%flow field%FSC racing vehicle%optimization strategies
针对某型大学生方程式(FSC)赛车的整车绕流场展开计算流体力学(CFD)分析与优化。利用三维建模软件CATIA对车身、车架、发动机总成、车轮及舱内模型进行建模、装配并生成风洞分析模型。采用集成于ANSYS Workbench环境下的流体分析软件CFX对此模型进行仿真分析,着重分析了赛车在正面风向状态下的受力情况及气流流态。仿真计算结果显示,原型车风阻较大,多处流场存在明显的紊流,影响了气动性能及赛车的速度性;气动升力及纵倾力矩偏大,影响赛车的驾驶稳定性。根据原型车的仿真结果,对车身及其他部件的优化改进提出几种策略,通过CFX仿真计算得出其优化效果。在对各项策略的优化效果进行详细分析后,通过选择优化效果好的策略、剔除无作用甚至反作用的策略以及多策略组合的办法,完成对原型车的优化设计。优化后赛车的气动性能得到提升,整车的气动阻力、气动升力及纵倾力矩均得到改善。
針對某型大學生方程式(FSC)賽車的整車繞流場展開計算流體力學(CFD)分析與優化。利用三維建模軟件CATIA對車身、車架、髮動機總成、車輪及艙內模型進行建模、裝配併生成風洞分析模型。採用集成于ANSYS Workbench環境下的流體分析軟件CFX對此模型進行倣真分析,著重分析瞭賽車在正麵風嚮狀態下的受力情況及氣流流態。倣真計算結果顯示,原型車風阻較大,多處流場存在明顯的紊流,影響瞭氣動性能及賽車的速度性;氣動升力及縱傾力矩偏大,影響賽車的駕駛穩定性。根據原型車的倣真結果,對車身及其他部件的優化改進提齣幾種策略,通過CFX倣真計算得齣其優化效果。在對各項策略的優化效果進行詳細分析後,通過選擇優化效果好的策略、剔除無作用甚至反作用的策略以及多策略組閤的辦法,完成對原型車的優化設計。優化後賽車的氣動性能得到提升,整車的氣動阻力、氣動升力及縱傾力矩均得到改善。
침대모형대학생방정식(FSC)새차적정차요류장전개계산류체역학(CFD)분석여우화。이용삼유건모연건CATIA대차신、차가、발동궤총성、차륜급창내모형진행건모、장배병생성풍동분석모형。채용집성우ANSYS Workbench배경하적류체분석연건CFX대차모형진행방진분석,착중분석료새차재정면풍향상태하적수력정황급기류류태。방진계산결과현시,원형차풍조교대,다처류장존재명현적문류,영향료기동성능급새차적속도성;기동승력급종경력구편대,영향새차적가사은정성。근거원형차적방진결과,대차신급기타부건적우화개진제출궤충책략,통과CFX방진계산득출기우화효과。재대각항책략적우화효과진행상세분석후,통과선택우화효과호적책략、척제무작용심지반작용적책략이급다책략조합적판법,완성대원형차적우화설계。우화후새차적기동성능득도제승,정차적기동조력、기동승력급종경력구균득도개선。
The analysis and optimization of computational fluid dynamics (CFD) are done for the flow field of a certain type of Formula Student China (FSC) racing vehicle .The body ,frame ,engine as-sembly ,wheels and cabin model are built and assembled by 3D modeling software CATIA ,and then a wind tunnel model is generated for analysis .The fluid analysis software CFX integrated in ANSYS Workbench is adopted for simulation .The stress and flow pattern when the wind blows frontally are mainly analyzed .The simulation results show that the prototype has large wind drag and there're tur-bulences in fluid field ,w hich decreases the aerodynamic performance and the speed of the vehicle ;the aerodynamic lift and trim moment are too large ,which decreases the car's driving stability .According to the results ,several optimization strategies are proposed and simulated through CFX .After these simulations ,the final optimization of prototype is completed by selecting useful strategies ,excluding useless or even counterproductive strategies and adopting multi-strategy method .Through optimiza-tion ,the aerodynamic performances including wind drag ,aerodynamic lift and trim moment are im-proved .