化油器

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  • carburetor
化油器化油器
  1. LPG对化油器发动机燃料消耗和尾气排放的影响

    Effects of LPG on fuel consumption and exhaust of carburetor engine

  2. 福特vv化油器也具有适应各种使用条件的其它系统。

    The Ford vv carburetor has other system to meet varying operating condition .

  3. PTC热敏电阻器在化油器上的应用及特性

    Application of PTC Thermal Resistor on Carburettor and Its Features

  4. HTTP线程就像汽车化油器中的燃料&不能太多也不能太少,否则会产生负面影响。

    HTTP threads are like the fuel in your carburetor-not too much or too little , or performance is affected .

  5. 该电控系统是在测量的原化油器供油MAP基础上,按理论空燃比来重新标定各稳定工况下的电喷系统MAP。

    The MAP of electronic control system under steady working conditions was calibrated according to theoretical A / F ratio based on the fuel injection MAP of motorcycle engine with carburetor system .

  6. 根据氧传感器传递过来的信息及其它输入信号,ECM向化油器发出控制信号。

    Using this information from the oxygen sensor and other inputs , the ECM generates a control signal to the carburetor .

  7. NSR250两轮摩托车程控(PGM)化油器

    Program ( PGM ) Control Carburetter for NSR 250 Two & wheeled Motorcycle

  8. 怠速试验结果表明,其油耗、NOX和HC排放性能均优于化油器式发动机。

    The test results at idle speed show that direct-injection gasoline engine is superior to carburetor engine in fuel consumption , NO_X and HC emissions .

  9. 分析了化油器式汽油发动机怠速工况下HC与CO的排放特点,研究了治理的措施,并设计出实用的净化装置。

    The letting characteristic of HC and CO when gasoline engine using carburettor in idle speed , studying the way of administer , a new purify device had been designed .

  10. 为解决231A4G型化油器在不稳定工况下存在的问题,采用了一种化油器附加控制系统。

    An additional control system has been applied in 231A_4 G model carburetor in order to improve its performance under unsteady running conditions .

  11. 但是摩托车造成的环境污染也不容忽视。为了满足越来越严格的排放法规要求,发动机管理系统(EMS)将更多的取代化油器系统应用于摩托车中。

    In order to pass more and more stringent emission regulation , Engine Management System ( EMS ) will more and more replace carburetor system to be used in motorcycles .

  12. 新型供油系统&膜片式喷射化油器(DIC)能较好地满足二冲程汽油机分层扫气系统对供油系统的各种要求,大幅度地降低油耗和排放。

    DIC will very well meet requirements from 2-stroke gasoline engine with stratified scavenging system for the fuel supply system , reducing greatly fuel consumption and emissions .

  13. 本文通过试验研究LPG汽油两用燃料发动机动力性与排放性能随空燃比的变化规律,分析化油器式汽车改装为燃气汽车所带来的技术问题,对进一步发展LPG汽油两用燃料汽车技术提出具体建议

    Fuel engine when Air ? Fuel ratio is changing The technique problems caused by refitting the vehicle with carburetor and some suggestions to develop LPG / petrol dual ? fuel technology are put forward

  14. 通过理论分析确定了燃用M85甲醇时化油器的主要结构参数;

    The structure of C. The major structure parameters are confirmed .

  15. 本文通过对电喷发动机故障特点的分析,提出了不同于传统化油器式发动机的故障诊断方法,主要利用控制电脑ECU的特点、故障代码等进行诊断;

    This paper puts forward a new malfunction examination method of electron-jet engine , which is different from traditional carburetor engine , by analyzing the malfunction characteristics of electron-jet engine .

  16. 我们要求取消对肋骨步(支持化油器垫片)与补充DWG修订:05。

    We request to remove the step on the rib ( support carburettor gasket ) added with the DWG revision : 05 .

  17. 得到维护在怠速检测时对高排放车的削减率为60%左右,总体削减率在30%左右,化油器车CO月平均劣化值为0.45%。

    The reduction ratio of the reducing motor vehicle emissions when to get to maintenance idle test results is about 60 % . Overall the reduction ratio is about 30 % . The average pollution increase value was 0.45 % / month in carburettor car for CO.

  18. 提出了卡特YFA型化油器在使用过程中的调整方法。

    Finally the adjustment of the carburetor in use is mentioned as well .

  19. 本课题在DA462化油器式发动机上匹配了一个EGR系统,并进行了大量的台架试验。

    An EGR system was fixed on a DA462 carburetor engine , and many tests have been done on the engine test bed .

  20. 把改造后的化油器装于495Q汽油机上燃用M85甲醇燃料,进行了台架实验。

    The 495Q engine installed reconstructed carburetor and fueled with methanol ( M85 ) is conducted stand test .

  21. 北京切诺基发动机采用卡特YFA单腔、下吸式、三重喉管化油器。

    Beijing Cherokee engine uses Cart YFA carburetor which is single barrel , downdraft carburetor with triple venturi .

  22. 在摩托车化油器后采用电控节油净化器进行适当的机前二次空气补给来稀释、调整混合气,加大空燃比,对于降低CO、HC排放具有明显效果,具有实用价值;

    It is striking and practicable in reducing CO and HC for motorcycle to employ electrically-controlled economy purification device at its rear part for properly conducting secondary air supplement treated before air + fuel entering into cylinder to dilute and adjust gas mixture and increase the air-fuel ratio .

  23. 本文描述了DIC的基本概念和工作原理,并在30cm3试验专用汽油机上进行了膜片式喷射化油器供油特性和发动机性能的对比试验。

    The basic idea and principle of DIC are described in the paper . Test results on a 30 cm 3 modified engine are presented , including characteristics of fuel supply and engine 's performance comparison with conventional carburetor engine .

  24. 为了能在495Q汽油机上使用甲醇(M85)混合燃料,对原495Q汽油机化油器进行了技术改造和实验研究。

    In order to use methanol ( M85 ) in 495Q engine , the carburetor of 495Q engine is conducted technical modification and experimental study .

  25. 本文将以CG125摩托车为例,阐述电子控制技术在汽油机供油系统上的应用,即电控化油器系统。

    The article will present electronic carburetor , which is the application of electronic control technology on SI engine 's fuel supply system of CG125 motorcycle .

  26. 本文还进行了FAI电喷摩托车与化油器摩托车外特性对比实验和FAI电喷摩托车整车耐久排放试验,试验结果表明FAI电喷发动机在中低转速时对发动机的动力性能指标有较大的提高;

    Moreover , the test to compare the external characteristic of FAI motorcycle and carburetor motorcycle , and the durable emission test of FAI motorcycle were carried out . The results indicate that the driving performance of FAI engine rising significantly at low and middle speed .

  27. 以XF250摩托车上使用的PZ26(2)型化油器为例,编制了计算机程序,模拟出腔体内部的流场。

    The author taking PZ26 ( 2 ) model carburetor for XF250 motorcycle as an example composes the computer program by which the flow-field inside the barrel is simulated .

  28. 作者根据实际工作经验,针对东风EQ-140汽车化油器的实际情况,论述了如何对其进行适当调节,并在驾驶中根据不同的驾驶状况操纵汽车,达到节油目的。

    According to the actual work experience , aiming at the carburetor 's actual circumstance of Dongfeng EQ-140 truck , author discusses how to regulate carburetor , and the driver manipulates the truck according to the different condition , and attain purpose to save oil .

  29. 稳定工况化油器供油特性的计算研究

    A Computational Study of the Steady Character of the Oil-supplying Carburetter

  30. 从而成为了淘汰传统化油器的新科技。

    To become a traditional carburetor out of the new technology .