第 41 卷     第 1 期                        摩  擦  学  学  报                                  Vol 41   No 1
            2021  年 1  月                                 Tribology                                    Jan, 2021


            DOI: 10.16078/j.tribology.2020034



                            基于电容法的温度对舰船汽轮机油

                                             分水性影响研究




                                                           *
                                                     张  博 , 王建华
                                            (中国人民解放军92228部队，北京 100072)

                摘   要: 依据汽轮机油与水的介电常数差值大，其混合相作为电介质，会发生电容值变化显著的原理，采用同轴圆柱
                形电容作为测试传感器，选取符合世界主流海军舰船汽轮机油产品规范的8个油样，利用电容法对比研究室温
                (18~24 ℃)和54 ℃对油样的分水性影响规律，选取了分水性变化明显的油样进行分水后油层微观形貌分析. 试验结
                果表明：在54 ℃条件下，从油水混合到分离结束，电容值-时间曲线重合度更高，油水均匀混合重复性好，表现出了
                优于室温的重复性和稳定性；分水速率曲线具有良好的重复性，验证了电容法评定汽轮机油分水性的可靠性，在相
                同温度下分水速率和破乳化时间受水相分布与运动态势影响小；确定用电容法评定汽轮机油分水性时，环境温度选
                择54 ℃为最佳；作用机理分析说明，温度是影响舰船汽轮机油分水性的关键指标.
                关键词: 电容法; 汽轮机油; 温度; 分水性
                中图分类号: TH117.3                  文献标志码: A                   文章编号: 1004-0595(2021)01–0137–12


                 Effect of the Temperature Based on Capacitance Method on the

                       Oil-Water Separation Performance of Ship Turbine Oil


                                                          *
                                                ZHANG Bo , WANG Jianhua
                                           (92228 Unit of the PLA, Beijing 100072, China)
                 Abstract: According to the principle that the difference between the dielectric constant of steam turbine oil and water is
                 large, and the mixed phase acts as a dielectric, the capacitance value will change significantly. Using coaxial cylindrical
                 capacitors as test sensors, eight oil samples that meeted the specifications of the world's mainstream naval ship steam
                 turbine oil products were selected. The capacitance method was used to study the influence of room temperature (18 ~
                 24 ℃) and 54 ℃ on the water separation of oil samples. The oil samples with obvious changes in water separation were
                 selected to analyze the microscopic morphology of the oil layer after water separation. The results showed that: 1) At
                 54 ℃, from the mixing of oil and water to the end of separation, the capacitance value-time curve had a higher degree of
                 coincidence, and the uniform mixing of oil and water had good repeatability, showing better repeatability and stability
                 than room temperature; 2) The water separation rate curve had good repeatability, which verified the reliability of the
                 capacitance method to evaluate the water separation of steam turbine oil, and at the same temperature, the water
                 separation rate and demulsification time were less affected by the water phase distribution and movement; 3) When
                 determining the water content of steam turbine oil by capacitance method, the ambient temperature was 54 ℃; 4) The
                 analysis of the action mechanism showed that temperature was a key indicator that affected the water separation of the
                 steam turbine oil.
                 Key words: method of electrical capacitance; turbine oil; temperature; oil-water separation performance


                汽轮机油是应用广泛的工业润滑油，舰船汽轮机                          等任务   [1-2] . 与电厂汽轮机组相比，舰船动力汽轮机组
            油担负给汽轮主机、汽轮辅机提供润滑、冷却和防护                            结构设计更加紧凑，所占用布置空间更小，以致汽轮


            Received 3 March 2020, revised 28 May 2020, accepted 24 June 2020, available online 28 January 2021.
            *Corresponding author. E-mail: zb79216@163.com, Tel: 86- 18101363522.