Performance of a Horizontally Mounted Venturi in Low-pressure Wet Gas Flow

Agar, J., Farchy, D., “Wet gas metering using dissimilar flow sensors: Theory and field trial results”, In: SPE Annual Technical Conference and Exhibition, San Antonio, Texas, 1-6 (2002). Lupeau, 2007, “Influence of the presence of an upstream annular liquid film on the wet gas flow measured by a Venturi in a downward vertical configuration”, Flow Meas. Instrum., 18, 1, 10.1016/j.flowmeasinst.2006.09.002 Geng, 2006, “Study on the metering characteristics of a slotted orifice for wet gas flow”, Flow Meas. Instrum., 17, 123, 10.1016/j.flowmeasinst.2005.08.004 Steven, 2002, “Wet gas metering with a horizontally mounted venturi meter”, Flow Meas. Instrum., 12, 361, 10.1016/S0955-5986(02)00003-1 National Engineering Laboratory of UK, 1997, “Effects of two-phase flow on single phase flowmeters”, Flow Measurement Guidance Note, 6, 1 Stewart, 2002, 33 National Engineering Laboratory of UK, “The evaluation of wet gas metering technologies for offshore application (1) Differential pressure meters”, Flow Measurement Guidance Note No.40.2 (2003). http://www.flowprogramme.co.uk/docs/reports.asp?rtype=6. Britton, C., Seidl, W., Kinney, J., “Experimental, wet gas data for a Herschel style Venturi”, In: 5th International Symposium on Fluid Flow Measurement, Arlington, VA (2002). Kegel, 2003, 1 ISO5167-1, “Measurement of fluid flow by mean of pressure differential deices inserted in circular cross-section conduits running full, part 1 General principles and requirements” (2003). ISO5167-4, “Measurement of fluid flow by mean of pressure differential deices inserted in circular cross-section conduits running full, part 4 Venturi tubes” (2003). Chisholm, D., “The influence of mass velocity on frictional pressure gradients during steam-water flow”, Inst. Mech. Eng., Thermodynam. Fluid Mech. Conv. Bristol, Paper No.35 (1968). Chen, 1983, 46 Lin, 2003, 167 de Leeuw, 1994