CONTROL OF UNDERWATER SYSTEM FOR MULTIPHASE FLUID GATHERING AND TRANSPORTATION IN RUSSIA’S OFFSHORE ARCTIC FIELDS

Alexander N. Papusha – deputy chairman of department of continuum mechanics and offshore engineering, Dr.Tech.Sci., the Murmansk State Technical University, papushaan@mstu.edu.ru papushaan@mstu.edu.ru;
Alexander A. Nankin – postgraduate student, department of continuum mechanics and offshore engineering, the Murmansk State Technical University, vrp@alliance-auto.ru vrp@alliance-auto.ru.

УДК 622.279.04
Key words: газоконденсат, многофазный поток, магистральный и технологический трубопровод,  пробковый режим течения, подводный добычной комплекс.

ДTo achieve a stable the transportation of a multiphase fluid flow (gas + gas condensate) via industrial and trunk pipelines, both specialized automatic transportation systems and subsea production systems are used. Special computer-aided design tools are used to create engineering solutions for these systems.         One of such multiphase fluid transportation design systems is OLGA. Traditionally, dynamic modeling of multiphase flows is necessary and is used to determine the hydraulic diameter of a pipeline, to analyze the plug flow in different operation modes of a pipeline, to study the formation of hydrates, and address other operational challenges.

CONTROL OF UNDERWATER SYSTEM FOR MULTIPHASE FLUID GATHERING AND TRANSPORTATION IN RUSSIA’S OFFSHORE ARCTIC FIELDS 

Alexander N. Papusha – deputy chairman of department of continuum mechanics and offshore engineering, Dr.Tech.Sci., the Murmansk State Technical University, papushaan@mstu.edu.ru
Alexander A. Nankin – postgraduate student, department of continuum mechanics and offshore engineering, the Murmansk State Technical University, vrp@alliance-auto.ru

Key words: gas condensate, multiphase flow, trunk and industrial pipeline,  plug flow, subsea production unit.

To achieve a stable the transportation of a multiphase fluid flow (gas + gas condensate) via industrial and trunk pipelines, both specialized automatic transportation systems and subsea production systems are used. Special computer-aided design tools are used to create engineering solutions for these systems.         One of such multiphase fluid transportation design systems is OLGA. Traditionally, dynamic modeling of multiphase flows is necessary and is used to determine the hydraulic diameter of a pipeline, to analyze the plug flow in different operation modes of a pipeline, to study the formation of hydrates, and address other operational challenges.