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RESEARCH OF WATER HYDRAULIC COMPONENTS AND SYSTEMS FROM ASPECTS OF QUALITY OF LIFE

Authors:

Nenad Todić1

, Slobodan Savić1, Saša Jovanović1, Zorica Djordjević1

1University of Kragujevac, Faculty of Engineering, Kragujevac, Serbia

Received: 24.06.2019.
Accepted: 26.09.2019.
Available: 30.09.2019.

Abstract:

This article describes the importance of water hydraulic components and systems from the aspect of quality of life. Water hydraulics has become of major interest because it is human friendly and environmentally safe. The continuous introduction of new materials and technologies in the production of components and systems of water hydraulics ensures the increasing application of these systems.The most important component of a water hydraulic system is the pump. Research of piston axial water hydraulic pumps is presented in this paper. A test stand was developed to validate the computational fluid dynamics simulations for the water hydraulic axial piston pump

Keywords:

Water, hydraulic, axial, piston, pump, experimental, research

References:

[1] N. Todić, S. Savić, D. Gordić, Development and Design of Water Hydraulics Components. 2nd International conference on Qulaity of Life, 8th-10th June, 2017, Kragujevac, Serbia, pp.175-180.
[2] G. W. Krutz, P. S.K. Chua, Water Hydraulics Theory and Applications 2004. Agricultural Equipment Technology Conference, 8th February, 2004, Louisville, Kentucky, USA, pp.1-33
[3] W. Dong, Research on key problems in water hydraulic piston pump and its experiment. 4th FPNI-Symp., 2004, Sarasota, Florida, USA, pp.171-179
[4] W. Backe, Water or oil-hydraulics in the future. 6th Scandinavian International Conference on Fluid Power, SICFP’99, 26th-28th May, 1999, Tampere, Finland, pp.51-65.
[5] E. Trostmann, B. Frolund, B. Olesen, B. Hilbrecht, Tap Water as Hydraulic Pressure Medium. Marcel Dekker, 2001.
[6] K. E. Rydberg, Energy Efficient Water Hydraulic Systems. The Fifth International Conference on Fluid Power Transmission and Control, 2nd-7th April, 2001, Hang Zhou, China, pp.440-446.
[7] T. Bech, S. Olsen, P. Klit, Design of Pumps for Water Hydraulic Systems. 6th Scandinavian International Conference on Fluid Power, SICFP’99, 26th-28th May, 1999, Tampere, Finland, pp.231-242.
[8] N. Todić, S. Vulović, M. Živković, S. Savić, V. Ranković, Analysis of Loads and Deformation of Valve Plate in Contact With Cylinder Block at Axial Piston Pump for Water Hydraulic. 4th South-East European Conference on Computational Mechanics, SEECCM 2017, 3rd-4th July, 2017, Kragujevac, Serbia, pp.1-7.
[9] J. Ivantysyn, M.Ivantysynova, Hydrostatic Pumps and Motors, First English Edition. Akademia Books international, 2001.
[10] M. Vilenius, K. Koskinen, T. Virvalo, Water and mobile hydraulics research in Finland. Proceedings of the Fifth International Conference on Fluid Power Transmission and Control (ICFP’2001), 3rd-5th April, 2001, Hangzhou, China, pp.12-27.
[11] K. E. Rydberg, Energy efficient water hydraulic systems. Proceedings of the Fifth International Conference on Fluid Power Transmission and Control (ICFP’2001), 3rd-5th April, 2001, Hangzhou, China, pp. 440-446.
[12] F. Conrad, Trends in design of water hydraulics – motion control and open-ended solutions. Proceedings of the 6th JFPS International Symposium on Fluid Power, 7th-10th November, 2005, Tsukuba, Japan, pp. 420-431.
[13] M. Takashima, Development of High Performance Components for Pollution Free Water Hydraulic System. Third JHPS Int. Symp. on Fluid Power, 4th-6th November, 1996, Yokohama, Japan, pp.465-471.
[14] H. Sairiala, K. T. Koskinen, M. Vilenius, Proportional Valves in Low-pressure Water Hydraulics. 3rd FPNI-PhD Symposium on Fluid Power, 30th June – 2nd July, 2004, Terrassa, Spain, pp.501-508.
[15] M. Bergada, S. Kumar, Fluid Power, Mathematical Design of Several Components. Nova Science Publishers, Inc., 2014.
[16] K. T. Koskinen, T. Leino, H. Riipinen, Sustainable Development with Water Hydraulics-Possibilities and Challenges. 7th JFPS International Symposium on Fluid Power, 15th-18th September, 2008, Toyama, Japan, pp.11-18.
[17] M. Rokala, Analysis of Slipper Structures in Water Hydraulic Axial Piston Pump, (Ph.D. Thesis). Tampere University of Technology, Tampere, Finland, 2012.
[18] C. A. Brookes, M. J. Fagan, R. D. James, P. Kerry, J. McConnachie, The Development of Water Hydraulic Pumps Using Advanced Engineering Ceramics. The Fourth Scandinavian International Conference on Fluid Power, SICFP’95, 26th-29th September, 1995, Tampere, Finland, pp.965-977.
[19] U. Samland, B. Hollingworth, The Use of New Materials in Water Hydraulics. The Fourth Scandinavian International Conference on Fluid Power, SICFP’95, 26th-29th September, 1995, Tampere, Finland, pp.955-964.
[20] R. Petrović, Mathematical Modeling and Experimental Research of Characteristic Parameters of Hydrodynamic Processes in an axial piston Pump. Strojniški vestnik, 55 (4), 2009: 224-229.

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License (CC BY-NC 4.0)

Volume 9
Number 4
December 2024

Last Edition

Volume 9
Number 4
December 2024

How to Cite

N. Todić, S. Savić, S. Jovanović, Z. Djordjević, Research of Water Hydraulic Components and Systems from Aspects of Quality of Life. Applied Engineering Letters, 4(3), 2019: 93–97. https://doi.org/10.18485/aeletters.2019.4.3.3

More Citation Formats

Todić, N., Savić, S., Jovanović, S., & Djordjević, Z. (2019). Research of Water Hydraulic Components and Systems from Aspects of Quality of Life. Applied Engineering Letters4(3), 93–97. https://doi.org/10.18485/aeletters.2019.4.3.3

Todić, Nenad, et al. “Research of Water Hydraulic Components and Systems from Aspects of Quality of Life.” Applied Engineering Letters, vol. 4, no. 3, 2019, pp. 93–97, https://doi.org/10.18485/aeletters.2019.4.3.3.

Todić, Nenad, Slobodan Savić, Saša Jovanović, and Zorica Djordjević. 2019. “Research of Water Hydraulic Components and Systems from Aspects of Quality of Life.” Applied Engineering Letters 4 (3): 93–97. https://doi.org/10.18485/aeletters.2019.4.3.3.

Todić, N., Savić, S., Jovanović, S. and Djordjević, Z. (2019). Research of Water Hydraulic Components and Systems from Aspects of Quality of Life. Applied Engineering Letters, 4(3), pp.93–97. doi:10.18485/aeletters.2019.4.3.3.

RESEARCH OF WATER HYDRAULIC COMPONENTS AND SYSTEMS FROM ASPECTS OF QUALITY OF LIFE

Authors:

Nenad Todić1

, Slobodan Savić1, Saša Jovanović1, Zorica Djordjević1

1University of Kragujevac, Faculty of Engineering, Kragujevac, Serbia

Received: 24.06.2019.
Accepted: 26.09.2019.
Available: 30.09.2019.

Abstract:

This article describes the importance of water hydraulic components and systems from the aspect of quality of life. Water hydraulics has become of major interest because it is human friendly and environmentally safe. The continuous introduction of new materials and technologies in the production of components and systems of water hydraulics ensures the increasing application of these systems.The most important component of a water hydraulic system is the pump. Research of piston axial water hydraulic pumps is presented in this paper. A test stand was developed to validate the computational fluid dynamics simulations for the water hydraulic axial piston pump

Keywords:

Water, hydraulic, axial, piston, pump, experimental, research

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License (CC BY-NC 4.0)

Volume 9
Number 4
December 2024

Last Edition

Volume 9
Number 4
December 2024