|
|
空压机机头排气温度的影响因素研究
|
Abstract:
为研究轨道交通车辆极限运用工况条件下螺杆空压机耐温能力,在环境箱内开展地面试验,通过控制环境箱内吸气温度、吸气压力及空压机运转率等参数,分析空压机机头排气温度的变化规律。试验结果表明,该空压机能够满足高低温试验要求,同时其极限耐高温能力达到62℃。
In order to study the temperature resistance capability of the screw air compressor under the extreme operating conditions of rail transit vehicles, ground tests were carried out in the environmental box, and the air suction temperature, suction pressure and air compressor operating rate in the environmental box were controlled to analyze the variation law of the exhaust temperature of air compressor head. The test results show that the air compressor can meet the requirements of high and low temperature tests, and its ultimate high temperature resistance capability reaches 62?C.
| [1] | 喻志强, 刘福来, 鲍洋洋, 辛安见. 螺杆压缩机产品质量状况分析[J]. 化工机械, 2014, 41(6): 718-721. |
| [2] | 杨信一, 孙庆东, 郭新, 罗玉龙. 螺杆空压机温度的影响和改进分析[J]. 天然气技术与经济, 2017, 11(4): 40-42+83. |
| [3] | 张缓缓, 鲍洋洋, 刘玉勇, 李金荣. 吸气温度对喷油螺杆空压机能效检测的影响研究[J]. 通用机械, 2016(5): 76-78. |
| [4] | 陈刚. 螺杆空压机机油温度高的原因分析及改进措施[J]. 铁道机车与动车, 2015(12): 38-39. |
| [5] | 莫臻峰. 螺杆空压机机头排气温度高缺陷分析与处理[J]. 应用能源技术, 2016(10): 40-43. |
| [6] | 张海飞. 喷油螺杆空压机主机机头排气温度高的分析及处理[J]. 压缩机技术, 2015(3): 50-52. |
| [7] | 陆蕊坚. 喷油螺杆空压机机头排气温度高的原因分析及处理[J]. 压缩机技术, 2019(2): 60-64. |
| [8] | 古钦培. 空压机运行温度高的原因分析及处理对策[J]. 科技创新导报, 2019, 16(25): 58+60. |
