Development of an accurate method to prognosticate choke flow coefficients for natural gas flow through nozzle and orifice type chokes
Author:
Publisher
Elsevier BV
Subject
Electrical and Electronic Engineering,Computer Science Applications,Instrumentation,Modelling and Simulation
Reference41 articles.
1. Natural gas engineering handbook;Guo,2014
2. Choke pressure in pipeline restrictions;Morris;J. Hazard. Mater.,1996
3. E.M. Alsafran, M.G. Kelkar, Predictions of Two-Phase Critical-Flow Boundary and Mass-Flow Rate Across Chokes, SPE-109243-PA, 2009.
4. Perry’s Chemical Engineers' Handbook;Green,2008
5. Erosion in choke valves—oil and gas industry applications;Nøkleberg;Wear,1995
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