摘要
针对轴承油使用时受水污染后遇到的油水分离的问题,对高粘度轴承油抗乳化性能进行剖析,分析了轴承油在运行时温度、油箱容积与沉淀时间、乳化层的厚度、抗乳化添加剂、界面张力等技术条件的状态关系;根据分散项系的技术特点,提出轴承油表面张力动态稳定技术,实现油水分离净化,为科学合理地使用轴承油提供了一种新的思路。
Bearing oil may often be contaminated by water during operation and oil-water separation after contamination was discussed in this paper.Combining with the feasibility study on oil-water separation technique applied to bearing oil for Baosteel hot-rolling plant,the performance of emulsion resistance of high-viscosity bearing oil was analyzed.Dependence of oil temperature and capacity of the oil-tank on the parameters of bearing oil during operation was discussed,such as the deposition period,thickness of emulsion layer,additive for emulsion resistance,and surface tension.Based on the dispersed-phase principle,a dynamic stability device for surface tension of bearing oil was developed to carry out high efficiency oil-water separation,which offers a new method for scientific utilization of bearing oil.
出处
《能源研究与信息》
2009年第4期234-239,共6页
Energy Research and Information
关键词
轴承油
抗乳化性能
表面张力
动态稳定
bearing oil
performance of emulsion resistance
surface tension
dynamic stability