1) single progressing cavity pump system
单螺杆泵系统
2) screw-pump control system
螺杆泵控制系统
3) screw pump system
螺杆泵采油系统
1.
Feasibility of applying raceway reducer on screw pump system.;
论滚道式减速器用于螺杆泵采油系统的可行性
4) sprial pole pump measuring system
螺杆泵测量系统
5) Single Screw Pump
单螺杆泵
1.
Research on Enveloping Boring Method for Inner Spiral Surface of Single Screw Pump Stator;
单螺杆泵定子内螺旋曲面包络镗削技术研究
2.
Design and application of GD135-3 type supper-short single screw pump;
GD135-3型超短长度单螺杆泵的设计
3.
Running faulty and type selection process are introduced for the slurry pump in phosphoric acid tank area, summarization is made for type selection of slurry pump, as well as for application effect after its reformation; by means of reformation for coupling of single screw pump imported, running rate is increased by 1% , phosphoric gain rate is increased by 3%.
介绍磷酸罐区泥浆泵的运行故障和改型过程,总结了泥浆泵选型及改造后的使用效果,通过对进口单螺杆泵联轴节的改造,运转率提高1%,磷酸装置磷得率提高3%。
6) single progressive cavity pump
单螺杆泵
1.
Startup torque dynamic model of single progressive cavity pump in surface-driven pumping system;
单螺杆泵采油系统启动扭矩动力学模型研究
2.
The stator of the general single progressive cavity pump is studied in this paper,using finite element analyzing software,at 5 MPa uniformity pressure of the stator,which concluded the stress,the strain and inner-figure deformation of the progressive cavity pump stator,the stator rubber and the stator steel thimble.
利用ANSTYS有限元分析软件对常规单螺杆泵的定子进行研究,在定子承受5 MPa均匀压力作用下,得出了定子、定子橡胶和定子钢套的应力、应变和内轮廓的变形量;分析了常规单螺杆泵定子变形的特点及规律。
3.
The rules of the single progressive cavity pump pressure modeling and transfering were studied based on the theory analysis.
通过理论分析,得出了单螺杆泵压力的产生和传递规律。
补充资料:橡胶单螺杆泵
分子式:
CAS号:
性质:又称橡胶摩伊诺泵。是一种内啮合的密闭式螺杆泵,属回转式容积泵。其主要组成为转子(螺杆)和弹性定子(衬套)。转子用硬质钢材制造,定子是在金属壳体内衬各种橡胶而制成。所衬的橡胶具有良好的耐磨、耐冲击、耐热和耐腐蚀性能。衬胶采用移模注压法注胶、硫化罐硫化的工艺。橡胶螺杆泵用于输送各种液体物料,具有扰动小、流量均匀、压力稳、效率高、吸入性好等特点。
CAS号:
性质:又称橡胶摩伊诺泵。是一种内啮合的密闭式螺杆泵,属回转式容积泵。其主要组成为转子(螺杆)和弹性定子(衬套)。转子用硬质钢材制造,定子是在金属壳体内衬各种橡胶而制成。所衬的橡胶具有良好的耐磨、耐冲击、耐热和耐腐蚀性能。衬胶采用移模注压法注胶、硫化罐硫化的工艺。橡胶螺杆泵用于输送各种液体物料,具有扰动小、流量均匀、压力稳、效率高、吸入性好等特点。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条