PROSPECTS FOR VALVELESS POSITIVE DISPLACEMENT PUMPS
UDC: 621.512:65:656.1
DOI: 10.33285/0130-3872-2021-7(343)-49-53
Authors:
SHAIDAKOV VLADIMIR VLADIMIROVICH 1,
SHESTAKOVA EVGENIA VLADIMIROVNA 1,
CHERNOVA KATERINA VLADIMIROVNA 2,
BARABANOV ALEXEY ALEXANDROVICH 1,
KHRAMOVSKIKH VITALY ALEXANDROVICH 2
1 Ufa State Petroleum Technical University, Ufa, Russian Federation
2 Irkutsk Research National Technical University, Irkutsk, Russian Federation
Keywords: scientific-technical information, literature review, patent review, publication activity, valvelesspositive displacement pump, piston valveless pump, hydraulic diode, dosing unit
Annotation:
Based on the analysis of patent and scientific-technical information, the paper evaluates the publication activity in respect of positive displacement pumpsin order to identify promising trends of improving the dosing chemical reagents units for oil production facilities. The databases of the scientific electronic library Elibrary, the ResearchGate website, the Federal Institute of Industrial Property and the European Patent Office were used. The emphasis is made on valveless positive displacement pumps with hydraulic diodes. The leaders in the patenting of hydraulic diodes are Russia, USA, Great Britain and Japan. The prospect forvalveless pumping units with hydraulic diodes, including those ones for dosing units, has been revealed.
Bibliography:
1. Лебедев И.В., Трескунов С.Л., Яковенко В.С. Элементы струйной автоматики. - М.: Машиностроение, 1973. - 359 с.
2. Спиридонов Е.К., Хабарова Д.Ф. Принципиальные схемы и характеристики бесклапанных насосов с вытеснителем возвратно-поступательного перемещения // Изв. Самарского науч. центра РАН. - 2016. - Т. 18, № 1-2. - С. 309-313.
3. Khabarova D.F., Podzerko A.V., Spiridonov E.K. Experimental investigation of fluidic diodes // Procedia Engineering. - 2017. - Vol. 206. - P. 93-98. - DOI: 10.1016/J.PROENG.2017.10.443
4. Ястребова Е.В. Струйные диоды (обзор) // Автоматика и телемеханика. - 1971. - Вып. 3. - С. 101-106.
5. A Valveless Piezoelectric Micropump Based on Projection Micro Litho Stereo Exposure Technology / Jun Huang, Lei Zou, Peng Tian [et al.] // IEEE Access. - 2019. - Vol. 7. - P. 77340-77347. - DOI: 10.1109/ACCESS.2019.2919691
6. Pressure Drop Across Vortex Diodes: Experiments and Design Guidelines / A.A. Kulkarni, V.V. Ranade, R. Rajeev, S.B. Koganti // Chemical Engineering and Science. - 2009. - Vol. 64, Issue 6. - P. 1285-1292. - DOI: 10.1016/j.ces.2008.10.060
7. CFD Simulation of Flow in Vortex Diodes / A.A. Kulkarni, V.V. Ranade, R. Rajeev, S.B. Koganti // AIChE journal. - 2008. - Vol. 54, Issue 5. - P. 1139-1152. - DOI: 10.1002/aic.11439
8. Pandare A., Ranade V.V. Flow in Vortex Diodes // Chemical Engineering Research and Design. - 2015. - Vol. 102. - P. 274-285. - DOI: 10.1016/j.cherd.2015.05.028
9. Pat. 1329559 USA, IPC F15C 1/00, F15D 1/02, F16K 15/00, F16K 51/00, F28F 2210/02, Y10T 137/2273. Valvular conduit / N. Tesla. - No US19160079703; appl. 1916.02.21; publ. 1920.02.03. - 6 p.
10. Simulation Analysis of Flow Characteristics in the Vortex Diode with Double Tangential Tube / Lijun Zhang, Yuelai Dai, Yulei Li [et al] // Open J. of Modelling and Simulation. - Scientific Research. - 2017. - Vol. 5, No 3. - P. 174-181. - DOI: 10.4236/ojmsi.2017.53013
Back to issue