汽车工程
汽車工程
기차공정
AUTOMOTIVE ENGINEERING
2014年
6期
728-733
,共6页
刘福水%闵祥芬%樊丰%李向荣%郭良平
劉福水%閔祥芬%樊豐%李嚮榮%郭良平
류복수%민상분%번봉%리향영%곽량평
柴油机%冷却水套%计算流体力学%优化设计
柴油機%冷卻水套%計算流體力學%優化設計
시유궤%냉각수투%계산류체역학%우화설계
diesel engine%cooling water jacket%CFD%optimization design
各缸的冷却均匀性是高强化柴油机设计的基本要求之一。本文以CFD商用软件STAR-CCM+为工具,对某型六缸柴油机冷却水套进行了模拟计算和优化设计。采用进出口在同一端的方式,容易造成缸盖各缸冷却水流量分配不均匀,进而产生各缸盖冷却水速度差异很大的现象。根据流量和压差的关系,引入了流阻图的概念,进行流阻分析,通过改变上水孔尺寸,改变相应的流阻大小,灵活调整各缸盖冷却水流量分配。结果表明,基于此方法进行改进后,各缸流量分配基本均匀,冷却水流量最大不均匀度由50%降低到4.6%,冷却效果得到明显改善。最后,通过改变不同的总进口流量,进一步验证了该方法的有效性。
各缸的冷卻均勻性是高彊化柴油機設計的基本要求之一。本文以CFD商用軟件STAR-CCM+為工具,對某型六缸柴油機冷卻水套進行瞭模擬計算和優化設計。採用進齣口在同一耑的方式,容易造成缸蓋各缸冷卻水流量分配不均勻,進而產生各缸蓋冷卻水速度差異很大的現象。根據流量和壓差的關繫,引入瞭流阻圖的概唸,進行流阻分析,通過改變上水孔呎吋,改變相應的流阻大小,靈活調整各缸蓋冷卻水流量分配。結果錶明,基于此方法進行改進後,各缸流量分配基本均勻,冷卻水流量最大不均勻度由50%降低到4.6%,冷卻效果得到明顯改善。最後,通過改變不同的總進口流量,進一步驗證瞭該方法的有效性。
각항적냉각균균성시고강화시유궤설계적기본요구지일。본문이CFD상용연건STAR-CCM+위공구,대모형륙항시유궤냉각수투진행료모의계산화우화설계。채용진출구재동일단적방식,용역조성항개각항냉각수류량분배불균균,진이산생각항개냉각수속도차이흔대적현상。근거류량화압차적관계,인입료류조도적개념,진행류조분석,통과개변상수공척촌,개변상응적류조대소,령활조정각항개냉각수류량분배。결과표명,기우차방법진행개진후,각항류량분배기본균균,냉각수류량최대불균균도유50%강저도4.6%,냉각효과득도명현개선。최후,통과개변불동적총진구류량,진일보험증료해방법적유효성。
The cooling uniformity of each cylinder is one of the basic requirements in designing highly in-tensified diesel engines. In this paper, commercial CFD software STAR-CCM+ is used as a tool to conduct simula-tion and optimization design of cooling water jacket for a six-cylinder diesel engine. It is found that when the inlet and outlet of cooling water are located on the same end of engine, it is likely to cause uneven water flux distribution, leading to significant difference in the flow velocity of cooling water in cylinder head. According to the relationship between flux and pressure drop, a concept of flow resistance chart is introduced with flow resistance analysis per-formed. By changing the size of water holes between cylinder block and cylinder head and hence the corresponding flow resistance, the distribution of water flux in each cylinder can be flexibly adjusted. The results show that after modification with the scheme proposed, the water flux distribution is basically uniform with the maximum unevenness of water flux reducing from 50% to 4. 6%. Finally by changing the overall inlet mass flow, the effectiveness of the scheme is further verified.
