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Literature review on flow characteristics of multi-hole orifices
Języki publikacji
Abstrakty
Przedstawiono najważniejsze opublikowane wyniki badań eksperymentalnych i symulacji numerycznych, dotyczące charakterystyk kryz wielootworowych. Opublikowane wyniki potwierdzają mniejsze straty ciśnienia w przepływie przez kryzy wielootworowe, w porównaniu ze standardową kryzą jednootworową. Natomiast zwiększona odporność pomiarowych kryz wielootworowych na zaburzenia przepływu jest słabo udokumentowana i wymaga dalszych badań.
The paper presents the key published results of experimental research and numerical (CFD) simulations concerning the flow characteristics of multi-hole orifices. Published results confirm reduction of pressure loss in the flow through the multi-holed orifice in comparison to a standard single-hole orifice. However, often quoted increased resistance of measuring multi-hole orifices to the flow disturbances is not adequately documented and needs further investigation.
Wydawca
Czasopismo
Rocznik
Tom
Strony
374--379
Opis fizyczny
Bibliogr. 23 poz., rys., wykr.
Twórcy
autor
- Instytut Maszyn Przepływowych im. Roberta Szewalskiego, PAN, ul. Fiszera 14, 80-231 Gdańsk
autor
- Instytut Maszyn Przepływowych im. Roberta Szewalskiego, PAN, ul. Fiszera 14, 80-231 Gdańsk
autor
- Zakład Produkcji Doświadczalnej Automatyki Spółka z o.o., ul. Wysocka 46, 63-400 Ostrów Wielkopolski
autor
- Zakład Produkcji Doświadczalnej Automatyki Spółka z o.o., ul. Wysocka 46, 63-400 Ostrów Wielkopolski
Bibliografia
- [1] Cahyono Yanuaris Dwi, Fajar Adi Prasetyo, Salvius Patangke, P.H. Hendrick Siregar. 2015. “Conditioning orifice application for steam flow measurement at Lahendong Geothermal Field". Proceedings World Geothermal Congress 2015, Melbourne, Australia, 19-25 April 2015, Paper No. 25019.
- [2] Emerson Rosemount. 2014. “Flow Test Data Book and Flow Handbook for 405 Compact Orifice Series and 1595 Conditioning Orifice Plate". Emerson Process Management - Rosemount Measurement, Chanhassen MN, USA, dokument No. 00821-0100-4810, Rev EA.
- [3] Emerson Rosemount. 2015. “Product Data Sheet - Rosemount DP Flowmeters and Primary Elements". Emerson Process Management, Shakopee MN, USA, dokument No. 00813-0100-4485, Rev FB.
- [4] Erdal A., H.I. Andrersson. 1997. “Numerical aspects of flow computation through orifices". Flow Measurement and Instrumentation 8 (1) : 27-37.
- [5] Evans Russell, Stephen Ifft, David Hodges. 2007. “Wet gas performance of differential pressure flowmeters". Proceedings of 25th North Sea Flow Measurement Workshop, 16-18 October 2007. Energy Institute, Oslo, Norway : 138-151.
- [6] Geng Yanfeng, Jinwu Zheng, Tianming Shi. 2006. “Study on the metering characteristics of a slotted orifice for wet gas flow". Flow Measurement and Instrumentation (17) : 123-128.
- [7] Geng Yanfeng, Jinwu Zheng, Tianming Shi, Gang Shi. 2007. “Wet gas meter development based on slotted orifice couple and neural network techniques". Chinese Journal of Chemical Engineering 15 (2) : 281-285.
- [8] Gryboś Ryszard. 1989. "Podstawy mechaniki płynów". PWN, Warszawa : 305-306.
- [9] Guo B.Y., Q.F. Hou, A.B. Yu, L.F. Li, J. Guo. 2013. “Numerical modelling of the gas flow through perforated plates". Chemical Engineering Research and Design 91 : 403-408.
- [10] Holt Gavin J., Dan Maynes, Jonathan Blotter. 2011. “Cavitation at sharp edge multi-hole baffle plates". Proceedings of the ASME 2011 International Mechanical Engineering Congress and Exposition IMECE 2011, Volume 6: Fluids and Thermal Systems; Advances for Process Industries, Parts A and B : 401-410.
- [11] Huang Shanfang, Taiyi Ma, Dong Wang, Zonghu Lin. 2013. “Study on discharge coefficient of perforated orifices as a new kind of flowmeter". Experimental Thermal and Fluid Science (46) : 74-83.
- [12] Idelchik I.E. 1992. “Spravočnik po gidravličeskim soprotivleniâm" [ros.]. Mašinostrojenie, Moskwa (wydanie 3).
- [13] Kumar Perumal, Michael Wong Ming Bing. 2011. “A CFD study of low pressure wet gas metering using slotted orifice meters". Flow Measurement and Instrumentation (22) : 33-42.
- [14] Li Yuxing, Jun Wang, Yanfeng Geng. 2009, “Study on wet gas online flow rate measurement based on dual slotted orifice plate". Flow Measurement and Instrumentation (20) : 168-173.
- [15] Malavasi Stefano, Gianandrea Messa, Umberto Fratino, Alessandro Pagano. 2012. “On the pressure losses through perforated plates". Flow Measurement and Instrumentation (28) : 57-66.
- [16] Morrison Gerald L., Dwayne Terracina, Carl Brewer, K.R. Hall. 2001. “Response of a slotted orifice flow meter to an air/water mixture". Flow Measurement and Instrumentation (12) : 175-180.
- [17] Özahi Emrah. 2015. “An analysis on the pressure loss through perforated plates". Flow Measurement and Instrumentation (43) : 6-13.
- [18] Shaaban S. 2015. “On the performance of perforated plate with optimized hole geometry". Flow Measurement and Instrumentation (46) : 44-50.
- [19] Shah Manish S., Jyeshtharaj B. Joshi, Avtar S. Kalsi, C.S.R. Prasad, Daya S. Shukla. 2012. “Analysis of flow through an orifice meter: CFD simulation". Chemical Engineering Science (71) : 300-309.
- [20] Singh V.K., T. John Tharakan. 2015. “Numerical simulations for multi-hole orifice flow meter". Flow Measurement and Instrumentation (45) : 375-383.
- [21] Weber L.J., M.P. Cherian, M.E. Allen, M. Muste. 2000. “Headloss characteristics for perforated plates and flat bar screens". Iowa Institute of Hydraulic Engineering Technical Report No. 411, Iowa City, USA.
- [22] Yu Hongshi, Tao Zhang, Shanshan Zhao, Wei Jiang. 2014. “Simulation of the flow field of multi-hole orifice flow meter" [artykuł w języku chińskim]. Journal of Tianjin University (Science and Technology) 47 (1) : 61-66.
- [23] Zhao Tianyi, Jili Zhang, Liangdong Ma. 2011. “A general structural design methodology for multi-hole orifices and its experimental application". Journal of Mechanical Science and Technology 25 (9) : 2237-2246.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-7200b82c-555c-46f6-be88-f28f5b0dd92f