Effects of Flow Regimes on Maximum Pressure in Offshore Pipelines
Subject Areas : Article frome a thesisZahra Ghadampour 1 , Mohammad sadegh Narges 2
1 - Department of civil engineering, Islamic Azad University, Estahban Branch
2 - Department of civil engineering, Islamic Azad University, Estahban branch
Keywords: Maximum pressure, Two phase flow, Offshore pipeline, Flow regime,
Abstract :
One of the most important factors in pipeline hydraulics and its protection against probable damages is
keeping the pressure in a specific limit and also knowing how the pressure functions in the pipe
through the pipeline route. Pressure function and pressure amount differ from each other regarding the
phase of the fluid (single phase or multiple phase), and when gas phase (air) enters the pipeline, it
affects the flow regime (simultaneously when gas-liquid flows there are such regimes as stratified,
slug, etc.) and the applied pressure. The present study aims to investigate the effects of flow patterns
and phases on maximum pressures along pipelines and to compare it with those of single-phase flows.
Results show that the geometry and the percentage of entrained air are the main factors affecting flow
patterns and pressure experienced by pipeline systems. For single phase mode, pressure is increased up
to 26% in vertical upward flows compared to air-water flows with a different air percentage. Moreover,
among various geometries considered in this research for two-phase flows, pressure at most has a 23-
percent increase compared to that of single-phase flows.
1) Adljo, S. Y., Ansari, M., Rostami, P., 2017. Numerical simulation of upward co-current gas-liquid two-phase flow in the vertical pipes of large diameter by volume of fluid method, Modares Mechanical Engineering, Vol. 17, Vo. 1, pp. 441-452. (In Persian).
2) Barnea, D., Shoham, O., and Taitel, Y., 1980. Flow pattern transition for gas-liquid flow in horizontal and inclined pipes. International Journal of Multiphase Flow, Pergamon Press, Vol. 6, pp217-225.
3) Beggs, H.D., and Brill, J.P.: “A Study of Two-Phase Flow in Inclined Pipes,” Journal of Petroleum Technologists, p. 607, May (1973).
4) Brill, J.P., and Beggs, H.D., 1991. TWO-PHASE FLOW IN PIPES.
5) Frank, T., 2005. Numerical Simulation of Slug Flow Regime for an Air-Water Two-Phase Flow in Horizontal Pipes. The 11th International Topical Meeting on Nuclear Reactor Thermal-Hydraulics (NURETH-11) Popes’ Palace Conference Center, Avignon, France.
6) Guo, B., Song, S., Ghalambor, A., Lin, T.R., 2005&20014. Offshore Pipelines, ELSEVIER PUBLICATION.
7) Hoogendoorn, C.J., 1959. Gas-Liquid Flow in Horizontal Pipes. Chem. Eng. Sci. 9, 205.
8) Kyriakides, S., Corona, E., 2007. Mechanics of Offshore Pipelines (volume1), ELSEVIER PUBLICATION.
9) Lai, Hau, K.F., Noghrehkar, R, Swartz, R., 2000. Investigation of waterhammer inpiping networks with void containing non-condensable gas, Nuclear Engineering and Design, Vol. 197, Pts 1 and 2, pp61-74
10) Lauchlan, C.S., Escarameia, M., RWP, M., Gahan, C., 2005. Air in Pipeline (A Literature Review), HR Wallingford.
11) Narges, M.S. and Ghadampour, Z.: “A Study of Pressure Loss and Recovery in Offshore Pipelines,” The 11th International Conference on Coasts, Ports and Marine Structures (ICOPMAS 2014) Tehran, Iran, 24-26 Nov. 2014.
12) Pothof, I.: “Co-current air-water flow in downward sloping pipes,” The University of Delf at Switzerland (2011).
13) Simsci, Simulation Sciences INC, 2001. Introduction to Pipephase.
14) Taitel, Y. and Dukler, A.E., 1976. A model for predicting flow regime trans Takacs, G., 2005.Gas Lift Manual, PennWell Corp.
15) Zeynalabedini, M., Ansari, M. R., 2017. Evaluation of the slug flow parameters in a horizontal two- dimensional duct, Modares Mechanical Engineering, Vol. 17, No. 4, pp. 349-358. (In Persian).nsition in horizontal and near horizontal liquid flow, AIChE, Journal, Vol. 22, No. 1, pp47-55.
16) Thome, J.R., 2014, Two-Phase Flow ition in horizontal and near horizontal liquid flow, AIChE, Journal, Vol. 22, No. 1, pp47-55.
17) Zeynalabedini, M., Ansari, M. R., 2017. Evaluation of the slug flow parameters in a horizontal two -dimensional duct, Modares Mechanical Engineering, Vol. 17, No. 4,pp.349-358. (In Persian).
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