冷却油

  • 网络cool oil;cooling oil
冷却油冷却油
  1. 分析了冷却油量对冷却系统出口温度的影响,分析表明在冷却油量为34.6L/min时冲床的温度场和热变形能够得到最佳改善。

    By analyzing the influence of cooling oil outlet temperature of the cooling system , the punching precision can be improved by increasing cooling oil to 34.6L/min .

  2. 小型全封闭压缩机冷却油的对流换热特性研究

    Study on performance of convective heat transfer for cooling oil in small-sized totally-closed compressor

  3. 活塞冷却油腔位置对活塞强度的影响

    Effect of Cooling Oil-antrum Position on Intensity of Diesel Engine Piston

  4. 振荡冷却油腔活塞热结构强度的有限元分析

    Thermal-Structural FEM Analysis of a Piston with an Inner Oscillating-Oil-Cooling Channel

  5. 光气生产装置冷却油的研制

    Development of cooling oil for phosgene production equipment

  6. 油冷内燃机的排放及冷却油性能的改进

    The Exhaust Pollution of IC Engine with Oil Cooling and Improvment in the Oil Coolant

  7. 光气生产装置冷却油是用作生产光气的立管式反应器的散热专用油。

    Cooling oil for phosgene production equipment is a specialized oil for heat emission in phosgene reactor .

  8. 研制了柴油机活塞成型冷却油道的新型水溶芯。

    Investigation was made on the water dissolved core of piston of internal combustion engine cooling oil groove .

  9. 用这种水溶芯铸出的冷却油道位置准确,轮廓清晰,其表面粗糙度可达到Ra3.2~6.3μm。

    The cast cooling oil groove is precisely positioned and has clear outline , its roughness of surface can reach Ra 3.2 ~ 6.3 μ m.

  10. 是指将小尺寸的外圈,内圈和所有滚动体直接从熔炉里抛到冷却油中进行淬火的工艺过程。

    The process of dropping small cups and cones and all rollers directly from the drop hardening furnace into an oil bath which quenches them .

  11. 通过技术调研和工艺分析,拟定出活塞头冷却油腔的加工工艺方案,并进行了论证,编制出加工工艺文件,成功地解决了180ZJC活塞头内冷却油腔加工这个技术难题。

    Through technique investigation and technology analysis , the processing technology plan is drafted and argued , technology document is compiled , technique difficulty is successfully solved .

  12. 针对某增压柴油机振荡冷却油腔活塞的非对称结构,建立全活塞活塞销连杆小头的有限元模型;提出了振荡冷却油腔的第三类热边界条件的数学描述并进行了验证;

    The FEM for the assembly parts of piston , gudgeon pin and small-end of connecting rod is constructed to investigate a diesel engine piston with an oscillating-oil-cooling channel .

  13. 通过实验,分析了温度、转速、冷却油流量对带排转矩和带排功率损失的影响以及制动器制动管路控制流量对湿式多片制动器制动响应时间的影响。

    Through the tests , influence of temperature , speed and cooling oil flow on torque and power loss , and influence of controlled flow in brake piping of braking response are analyzed .

  14. 水冷变压器,无论是电介质冷却油或防火液,可现在的液体在任一生态问题的最终使用或处置。

    Liquid cooled transformers , whether they are cooled with oil or a fire resistant liquid dielectric , can present an ecological problem in either their use or eventual disposal of the liquid .

  15. 该产品外形美观,噪音小,使用方便,是各种机床冷却油的最佳净化装置。

    The product possesses the features of beautiful shape , low noise , and easy to operate is regarded as the best purification device for cooling oil used in all kinds of machine tools .

  16. 由于该系统选用湿式制动器,制动摩擦片在封闭的冷却油内,抗污染能力强,使用寿命长,使整车制动更为安全可靠;

    Due to wet brake employed in the system , friction disks of the brake are in enclosed cooling oil , which means high capacity of anti-pollution , long service life , safer and more reliable braking ;

  17. 燃油冷却滑油冷却器

    Fuel cooled oil cooler

  18. 排风过滤器可以选择性的安装在冷却润滑油部件自身上或者直接安装在机器的盖板(我以前实习的单位叫它挡风板)。

    The exhaust air filter may optionally be installed on the cooling lubricant unit itself or directly on the machine 's cover plate .

  19. 紧急制动中湿式多片制动器制动能的三次、四次分配主要与摩擦偶件的材料有关;持续制动中制动器吸收的能量主要由冷却润滑油带走。

    The third and the fourth distribution of wet multidisc brake are mainly related to material characteristics of discs during emergency braking , while most of the braking power is carried off during continuous braking .

  20. 介绍了导向冷却变压器油流分布计算式的导出,并且通过用牛顿&拉普森法求解ΔQ-方程来说明其在变压器油流分布计算过程中的具体应用,并用试验数据对计算结果进行了验证。

    The derivation of the oil flow distribution equation for directed cooling transformers is introduced . Based on the solution of Δ Q-equation by the Newton-Raphson method , its application to calculation of transformer oil flow distribustion is presented . The calculating results are verified with testing results .

  21. 引进型300MW水氢氢冷却发电机组油系统冲洗在分系统调试中一直是个难题。

    The oil system flush is a difficulty issue to the imported type H 2O-H 2-H 2 cooling generator unit in the subsystem commissioning .

  22. 自然冷却高燃点油变压器温升计算方法

    A method of temperature rise calculation for natural cooling high ignition point oil transformer

  23. 模具的加热和冷却由导热油和冷却水共同控制。

    The heating and cooling of the die is controlled by heating-oil and cooling water .

  24. 在大量实验基础上,提出了强油导向冷却变压器的油流量分配工程计算方法。

    Based on a large amount of tests , An engineering calculation method of oil flow distribution for ODAF transformer is presented .

  25. 每天进行日常维护,检查冷却水量、油底壳及喷油泵内的机油量、检查“三漏”情况。

    Check coolant quantity , engine oil quantity in oil pan and fuel injection pump , check " three leakages " situations .

  26. 对采用冷风冷却微量植物油润滑切削加工不锈钢零件的方法进行了研究。

    The method to machine the parts made of stainless steel which adopts cooled air as coolant and a little plant oil as lubricant , is studied .

  27. 介绍了适用于中小型水轮机上的集成安装式、无水冷却和无油操作及润滑等方面的结构新技术,并说明了这些技术的应用将会带来良好的经济效益和环保效益。

    Three new construction techniques for medium and small turbines , integrated installation , water-free cooling , and oil-free lubrication , are described together with their economic and environment protection benefits .

  28. 冷却水与润滑油温度对柴油机燃油经济性的影响

    The Effect of Water Coolant and Lubricating-oil Temperature on Diesel Engine Fuel Economy

  29. 在绕组中设置一个轴向油隙,加入导向隔板,提高冷却能力。变压器油道内冲流电流的一种计算方法

    A Computation Method for Streaming Currents in the Oil Ducts of Power Transformer

  30. 自然冷却油浸式强制油循环

    Oil-immersed forced oil circulation with natural cooling