STUDY ON KEY TECHNOLOGIES OF ENERGY-SAVING AND ENVIRONMENT-PROTECTIVE PUMPS
Abstract
To meet energy-saving and environment-protective purpose, a series of plastic
pumps are developed by composite molding. There are four key techniques involved, firstly, plastic hydraulic components with light-weight; secondly, steel
barrel as a pump casing and a connection component as well; thirdly, floating
impeller strategy where impeller is drifting freely along shaft; and lastly, a self
balancing impeller technique which can totally keep axial force balancing. The
manufacturing process is energy-saving, and the components can be recycled,
which have great potentials for conservation of environment.
Dates
- Submission Date2013-03-12
- Revision Date2013-04-25
- Acceptance Date2013-04-26
- Online Date2013-12-28
References
- Shi, W. D., et al., Hydraulic Design of New-Type Deep Well Pump and Its Flow Calculation, J. Jiangsu University (Natural Science Edition), 27 (2006), 6, pp. 528-531
- Roclawski, H., Hellmann, D. H., Rotor-Stator-Interaction of a Radial Centrifugal Pump Stage with Minimum Stage Diameter, Proceedings, 4th WSEAS International Conference on Fluid Mechanics and Aerodynamics, Elounda, Greece, 2006, pp. 301-308
- Wang, H. L., et al., Optimization Design of Deep Well Pump Based on Latin Square Test, Transactions of the Chinese Society for Agricultural Machinery, 41 (2010), 5, pp. 56-63
- Zhou, L., et al., Performance Analysis on Deep-Well Centrifugal Pump Guide Vanes Based on Numerical Simulation. Transactions of the Chinese Society of Agricultural Engineering, 27 (2011), 9, pp. 38-42
- Zhou, L., et al., Numerical Prediction and Experiment of Axial Force on Deep-Well Centrifugal Pump, Transactions of the Chinese Society for Agricultural Machinery, 43 (2012), 7, pp. 100-103
- Shi, W. D., et al., Analysis on Pressure Fluctuation of Unsteady Flow in Deep-Well Centrifugal Pump, Transactions of the Chinese Society of Agricultural Engineering, 27 (2011), 10, pp. 44-49
- Zhang, Q. H., et al., Research and Development on the Hydraulic Design System of the Guide Vanes of Deep-Well Pumps, Applied Mechanics and Materials, 197 (2012), pp. 24-30
- Guan, X. F., Modern Pumps Theory and Design, China Astronautic Publishing House, Beijing, China, 2011
Volume
17,
Issue
5,
Pages1556 -1559