通过减少汽车手动变速器的阻力损失来提高变速箱效率

Q3 Engineering SAE Technical Papers Pub Date : 2023-11-10 DOI:10.4271/2023-28-0115

T. Senthil Raja, Barathi Raja K, Aneesh Kumar

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引用次数: 0

摘要

<div class="章节摘要"><div class="htmlview段落">内燃机车辆是许多环境和健康有害排放物的主要来源，有时消耗更多的燃料。企业平均燃油效率(CAFÉ)等新法规即将出台，要求降低排放。原始设备制造商(oem)致力于为内燃机(ICE)动力车辆带来各种技术进步，以最大限度地提高其效率。因此，减少损耗，提高燃油经济性是非常重要的。本文解释了一种新的方法方法，用于减少5- 10%的齿轮箱阻力。这种改进可以显著提高整体效率，从而减少车辆的碳足迹。这些改进考虑了以下优化领域:& lt; ol类= "列表nostyle "祝辞& lt;李class =”列表项“祝辞& lt;跨类=“li-label”在1 & lt; / span> & lt; div类=“htmlview段”在偏转@各种locations< / div> & lt; / li> & lt;李class =”列表项“祝辞& lt;跨类=“li-label”在2 & lt; / span> & lt; div类=“htmlview段”在润滑油粘度change< / div> & lt; / li> & lt;李class =”列表项“祝辞& lt;跨类=“li-label”在3 & lt; / span> & lt; div类=“htmlview段”在预加载优化的好处权力/阻力损失,& lt; / div> & lt; / li> & lt;李类=“列表项”祝辞& lt;跨类=“li-label”在4 & lt; / span> & lt; div类=“htmlview段”在石油数量变化改善电力loss< / div> & lt; / li> & lt;李class =”列表项“祝辞& lt;跨类=“li-label”在5 & lt; / span> & lt; div类=“htmlview段”的在高空掩护介绍帮助减少摩擦loss<热身行为;/ div> & lt; / li> & lt; / ol> & lt; / div> & lt; div类=“htmlview段”在基础上结果发现，所有的改变都有助于减少0.7 kW的功率损失，此外，每个齿轮的效率提高了2%到5%。

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Improving the Gearbox Efficiency by Reducing Drag Loss IN Automotive Manual Transmission

Internal combustion engine vehicles are major contributors to many environmental and health hazardous emissions and sometimes consume more fuel. New regulations like Corporate Average Fuel Efficiency (CAFÉ) norms are coming up and demand lower emissions. Original Equipment Manufacturers (OEMs) are committed to bringing various technological advancements in Internal Combustion Engine (ICE)powered vehicles to maximize their efficiency. Hence it is important to reduce the loss and improve the fuel economy. This paper explains a new approach methodology used for reducing the gearbox drag by 5- 10 %. This improvement can significantly contribute to the overall efficiency improvement thus carbon footprints of vehicle getting reduced. The following optimization areas are considered for such improvements,

1
Deflector @ various locations
2
Lubrication oil viscosity change
3
Preload optimized for the benefit of the power/drag loss,
4
Oil quantity changes to improve the power loss
5
Top cover introduction helped warm up behavior to reduce the friction loss

Based on the results, it was found that all changes helped to reduce the power loss by 0.7 kW and in addition to that each gear efficiency improved by 2 to 5 %.

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来源期刊

SAE Technical Papers Engineering-Industrial and Manufacturing Engineering

CiteScore

1.00

自引率

0.00%

发文量

1487

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