Laboratory experimental studies of the multiphase separator
Keywords:
multiphase flow fluid, study of the multiphase separator, subsea separators, vortex type separator.Abstract
In this paper we have characterized the vortex type separator for the four-phase mixture separation in traditional system of
separation and redesign or improvement of the vortex type horizontal separator with gravity filter for minimizing the dimension
and mass of the separator. There are also presented the experimental studies made on the basis of this equipment.
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References
[1] Zuniga, SO & Gudmundsson, JS 2013, ’Separation
technologies in oil and gas production’; Institutt for
petroleumsteknologi og anvendt geofysikk; Innlevert: juni
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[2] Prescott, CN 2012, ’Subsea Separation and
Processing of Oil, Gas & Produced Water Past, Present and
Future: Why We Need It Now’, Fluor Offshore Solutions,
USA [13 January 2012].
[3] Acker, RM 1978, Liquid – Gas Separator Apparatus,
US Patent 4231767, Int. cl. B01D 19/00; date of filling
23.10.78, date of publication 4.11.80.
[4] Yuriev, ЕV 2010, ’Computer investigations of
optimal design separator’, Scientific Bulletin of Ivano-
Frankivsk National Technical University of Oil and Gas,
no. 2(24), pp. 90–93. (in Ukrainian)
[5] Kopey, BV & Kryvonozhko, TA 2014,
Development of subsea separation system for multiphase
pump, in Abstract series: proceeding of 5th International
Students Geological Conference, Budapest, vol. 8, p. 60.
[6] Kopey, BV, Liakh, MM & Kryvonozhko, TA 2015,
’Subsea separation systems with multiphase pumps’.
proceeding of SWorld conference “Modern problems and
ways of their solution in science, transport, production and
education”, Scientific World, Ivanovo, vol. 6, iss. 2(39),
pp. 24–28. (in Russian)
[7] Kopey, BV & Kryvonozhko, TA 2015,
’Development of vertical and horizontal vortex type separator
for subsea application’, Journal оf Hydrocarbon Power
Engineering, vol. 2, іss. 1, рp. 13–20.
technologies in oil and gas production’; Institutt for
petroleumsteknologi og anvendt geofysikk; Innlevert: juni
2013.
[2] Prescott, CN 2012, ’Subsea Separation and
Processing of Oil, Gas & Produced Water Past, Present and
Future: Why We Need It Now’, Fluor Offshore Solutions,
USA [13 January 2012].
[3] Acker, RM 1978, Liquid – Gas Separator Apparatus,
US Patent 4231767, Int. cl. B01D 19/00; date of filling
23.10.78, date of publication 4.11.80.
[4] Yuriev, ЕV 2010, ’Computer investigations of
optimal design separator’, Scientific Bulletin of Ivano-
Frankivsk National Technical University of Oil and Gas,
no. 2(24), pp. 90–93. (in Ukrainian)
[5] Kopey, BV & Kryvonozhko, TA 2014,
Development of subsea separation system for multiphase
pump, in Abstract series: proceeding of 5th International
Students Geological Conference, Budapest, vol. 8, p. 60.
[6] Kopey, BV, Liakh, MM & Kryvonozhko, TA 2015,
’Subsea separation systems with multiphase pumps’.
proceeding of SWorld conference “Modern problems and
ways of their solution in science, transport, production and
education”, Scientific World, Ivanovo, vol. 6, iss. 2(39),
pp. 24–28. (in Russian)
[7] Kopey, BV & Kryvonozhko, TA 2015,
’Development of vertical and horizontal vortex type separator
for subsea application’, Journal оf Hydrocarbon Power
Engineering, vol. 2, іss. 1, рp. 13–20.
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Published
2018-06-06
How to Cite
M.M. Liakh, E.V. Youriev, B. K. T. K. (2018). Laboratory experimental studies of the multiphase separator. JOURNAL OF HYDROCARBON POWER ENGINEERING, 3(2), 46–51. Retrieved from https://ogpe.nung.edu.ua/index.php/jhpe/article/view/52
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OIL AND GAS EXPLORATION AND PRODUCTION
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