Research on Effect of Working Oil Temperature for Hydraulic Torque Converter Performance Using CFD and Test

Research on Effect of Working Oil Temperature for Hydraulic Torque Converter Performance Using CFD and Test. Yan, undefined, Li, undefined, & Wei, undefined JOURNAL OF MECHANICAL ENGINEERING, 12(50):118–125, June, 2014. ZSCC: 0000010
doi abstract bibtex

采用计算流体力学(Computational fluid dynamics,CFD)仿真分析和台架试验手段相结合的方法,分析工作油液温度对变矩器原始特性参数(变矩比k、能容系数λ和效率η)、泵轮所受转矩Tp和涡轮所受转矩Tt的影响。由于工作油液温度主要影响油液的密度和黏度,所以采用CFD仿真分析方法研究单变量变化情况下,工作油液密度和黏度分别对液力变矩器性能的影响。结果表明,工作油液温度对变矩器性能影响体现在油液密度和黏度耦合交互的综合影响,并且黏度影响起主导作用;随着工作油液密度的减小,λ、k和η不受影响,Tp和Tt逐渐减小。随着工作油液黏度的减小,Tp、Tt、λ、k和η均逐渐增加;随着变矩...

@article{yan_research_2014,
	series = {11-2187/{TH}},
	title = {Research on {Effect} of {Working} {Oil} {Temperature} for {Hydraulic} {Torque} {Converter} {Performance} {Using} {CFD} and {Test}},
	volume = {12},
	issn = {0577-6686},
	doi = {10.3901/JME.2014.12.118},
	abstract = {采用计算流体力学(Computational fluid dynamics,CFD)仿真分析和台架试验手段相结合的方法,分析工作油液温度对变矩器原始特性参数(变矩比k、能容系数λ和效率η)、泵轮所受转矩Tp和涡轮所受转矩Tt的影响。由于工作油液温度主要影响油液的密度和黏度,所以采用CFD仿真分析方法研究单变量变化情况下,工作油液密度和黏度分别对液力变矩器性能的影响。结果表明,工作油液温度对变矩器性能影响体现在油液密度和黏度耦合交互的综合影响,并且黏度影响起主导作用;随着工作油液密度的减小,λ、k和η不受影响,Tp和Tt逐渐减小。随着工作油液黏度的减小,Tp、Tt、λ、k和η均逐渐增加;随着变矩...},
	language = {中文;},
	number = {50},
	journal = {JOURNAL OF MECHANICAL ENGINEERING},
	author = {Yan, , Qingdong and Li, , Jin and Wei, , Wei},
	month = jun,
	year = {2014},
	note = {ZSCC: 0000010},
	keywords = {1, PLSM, computational fluid dynamics(CFD), hydraulic torque converter, oil temperature, simulation analysis, test, ②已读1x, ③笔记2x, 仿真分析, 油液温度, 液力变矩器, 计算流体力学, 试验研究},
	pages = {118--125},
}

Downloads: 0

{"_id":"4CYssEQawp5bpP6dE","bibbaseid":"yan-li-wei-researchoneffectofworkingoiltemperatureforhydraulictorqueconverterperformanceusingcfdandtest-2014","author_short":["Yan, undefined","Li, undefined","Wei, undefined"],"bibdata":{"bibtype":"article","type":"article","series":"11-2187/TH","title":"Research on Effect of Working Oil Temperature for Hydraulic Torque Converter Performance Using CFD and Test","volume":"12","issn":"0577-6686","doi":"10.3901/JME.2014.12.118","abstract":"采用计算流体力学(Computational fluid dynamics,CFD)仿真分析和台架试验手段相结合的方法,分析工作油液温度对变矩器原始特性参数(变矩比k、能容系数λ和效率η)、泵轮所受转矩Tp和涡轮所受转矩Tt的影响。由于工作油液温度主要影响油液的密度和黏度,所以采用CFD仿真分析方法研究单变量变化情况下,工作油液密度和黏度分别对液力变矩器性能的影响。结果表明,工作油液温度对变矩器性能影响体现在油液密度和黏度耦合交互的综合影响,并且黏度影响起主导作用;随着工作油液密度的减小,λ、k和η不受影响,Tp和Tt逐渐减小。随着工作油液黏度的减小,Tp、Tt、λ、k和η均逐渐增加;随着变矩...","language":"中文;","number":"50","journal":"JOURNAL OF MECHANICAL ENGINEERING","author":[{"propositions":[],"lastnames":["Yan"],"firstnames":[""],"suffixes":["Qingdong"]},{"propositions":[],"lastnames":["Li"],"firstnames":[""],"suffixes":["Jin"]},{"propositions":[],"lastnames":["Wei"],"firstnames":[""],"suffixes":["Wei"]}],"month":"June","year":"2014","note":"ZSCC: 0000010","keywords":"1, PLSM, computational fluid dynamics(CFD), hydraulic torque converter, oil temperature, simulation analysis, test, ②已读1x, ③笔记2x, 仿真分析, 油液温度, 液力变矩器, 计算流体力学, 试验研究","pages":"118–125","bibtex":"@article{yan_research_2014,\n\tseries = {11-2187/{TH}},\n\ttitle = {Research on {Effect} of {Working} {Oil} {Temperature} for {Hydraulic} {Torque} {Converter} {Performance} {Using} {CFD} and {Test}},\n\tvolume = {12},\n\tissn = {0577-6686},\n\tdoi = {10.3901/JME.2014.12.118},\n\tabstract = {采用计算流体力学(Computational fluid dynamics,CFD)仿真分析和台架试验手段相结合的方法,分析工作油液温度对变矩器原始特性参数(变矩比k、能容系数λ和效率η)、泵轮所受转矩Tp和涡轮所受转矩Tt的影响。由于工作油液温度主要影响油液的密度和黏度,所以采用CFD仿真分析方法研究单变量变化情况下,工作油液密度和黏度分别对液力变矩器性能的影响。结果表明,工作油液温度对变矩器性能影响体现在油液密度和黏度耦合交互的综合影响,并且黏度影响起主导作用;随着工作油液密度的减小,λ、k和η不受影响,Tp和Tt逐渐减小。随着工作油液黏度的减小,Tp、Tt、λ、k和η均逐渐增加;随着变矩...},\n\tlanguage = {中文;},\n\tnumber = {50},\n\tjournal = {JOURNAL OF MECHANICAL ENGINEERING},\n\tauthor = {Yan, , Qingdong and Li, , Jin and Wei, , Wei},\n\tmonth = jun,\n\tyear = {2014},\n\tnote = {ZSCC: 0000010},\n\tkeywords = {1, PLSM, computational fluid dynamics(CFD), hydraulic torque converter, oil temperature, simulation analysis, test, ②已读1x, ③笔记2x, 仿真分析, 油液温度, 液力变矩器, 计算流体力学, 试验研究},\n\tpages = {118--125},\n}\n\n","author_short":["Yan, undefined","Li, undefined","Wei, undefined"],"key":"yan_research_2014","id":"yan_research_2014","bibbaseid":"yan-li-wei-researchoneffectofworkingoiltemperatureforhydraulictorqueconverterperformanceusingcfdandtest-2014","role":"author","urls":{},"keyword":["1","PLSM","computational fluid dynamics(CFD)","hydraulic torque converter","oil temperature","simulation analysis","test","②已读1x","③笔记2x","仿真分析","油液温度","液力变矩器","计算流体力学","试验研究"],"metadata":{"authorlinks":{}}},"bibtype":"article","biburl":"https://bibbase.org/zotero/LinusKirt","dataSources":["KsvmQPo2SGhyhNkpL"],"keywords":["1","plsm","computational fluid dynamics(cfd)","hydraulic torque converter","oil temperature","simulation analysis","test","②已读1x","③笔记2x","仿真分析","油液温度","液力变矩器","计算流体力学","试验研究"],"search_terms":["research","effect","working","oil","temperature","hydraulic","torque","converter","performance","using","cfd","test","yan","li","wei"],"title":"Research on Effect of Working Oil Temperature for Hydraulic Torque Converter Performance Using CFD and Test","year":2014}