Gas Hydrate Formation Risk and Prevention for the Development Wells in the Lingshui Gas Field in South China Sea

Gas Hydrate Formation Risk and Prevention for the Development Wells in the Lingshui Gas Field in South China Sea

Hydrate formation risk is an important challenge in the development of deep-water gas field. Considering the characteristics of the Lingshui (LS) gas field in the South China Sea and the difference of well structures, a model for calculating wellbore temperature and pressure in deep-water gas produc...

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Main Authors: Donglei Jiang, Yi Yu, Yi Huang, Wenbo Meng, Jianbo Su, Zhenggang Gong
Format: Article
Language:English
Published: Hindawi-Wiley 2021-01-01
Series:Geofluids
Online Access:http://dx.doi.org/10.1155/2021/9122863
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spelling doaj-bc25b0bca30b40cea3bf30c8ede7b4f52021-08-16T00:00:31ZengHindawi-WileyGeofluids1468-81232021-01-01202110.1155/2021/9122863Gas Hydrate Formation Risk and Prevention for the Development Wells in the Lingshui Gas Field in South China SeaDonglei Jiang0Yi Yu1Yi Huang2Wenbo Meng3Jianbo Su4Zhenggang Gong5Zhanjiang Branch CompanyZhanjiang Branch CompanyZhanjiang Branch CompanyZhanjiang Branch CompanyZhanjiang Branch CompanySchool of Petroleum EngineeringHydrate formation risk is an important challenge in the development of deep-water gas field. Considering the characteristics of the Lingshui (LS) gas field in the South China Sea and the difference of well structures, a model for calculating wellbore temperature and pressure in deep-water gas production well is proposed and verified by the field data. Combining the hydrate equilibrium models with varied gas components, the prediction method of hydrate formation region in deep-water gas well in the South China Sea is obtained. The hydrate formation regions under different operating conditions for a deep-water gas well in the South China Sea were given by the proposed model. The results show that no hydrate formation risk exists in the production operation, but the risk exists in the shut-in and testing operations. Meanwhile, the determination of the hydrate inhibitor injection parameters during the testing operation is studied, and the influence of the inhibitors’ injection concentration and pressure on preventing gas hydrates is analyzed. This work provides useful advice for the prediction and prevention of hydrate formation risk in the development of deep-water gas fields, especially in the South China Sea.http://dx.doi.org/10.1155/2021/9122863
collection DOAJ
language English
format Article
sources DOAJ
author Donglei Jiang
Yi Yu
Yi Huang
Wenbo Meng
Jianbo Su
Zhenggang Gong
spellingShingle Donglei Jiang
Yi Yu
Yi Huang
Wenbo Meng
Jianbo Su
Zhenggang Gong
Gas Hydrate Formation Risk and Prevention for the Development Wells in the Lingshui Gas Field in South China Sea
Geofluids
author_facet Donglei Jiang
Yi Yu
Yi Huang
Wenbo Meng
Jianbo Su
Zhenggang Gong
author_sort Donglei Jiang
title Gas Hydrate Formation Risk and Prevention for the Development Wells in the Lingshui Gas Field in South China Sea
title_short Gas Hydrate Formation Risk and Prevention for the Development Wells in the Lingshui Gas Field in South China Sea
title_full Gas Hydrate Formation Risk and Prevention for the Development Wells in the Lingshui Gas Field in South China Sea
title_fullStr Gas Hydrate Formation Risk and Prevention for the Development Wells in the Lingshui Gas Field in South China Sea
title_full_unstemmed Gas Hydrate Formation Risk and Prevention for the Development Wells in the Lingshui Gas Field in South China Sea
title_sort gas hydrate formation risk and prevention for the development wells in the lingshui gas field in south china sea
publisher Hindawi-Wiley
series Geofluids
issn 1468-8123
publishDate 2021-01-01
description Hydrate formation risk is an important challenge in the development of deep-water gas field. Considering the characteristics of the Lingshui (LS) gas field in the South China Sea and the difference of well structures, a model for calculating wellbore temperature and pressure in deep-water gas production well is proposed and verified by the field data. Combining the hydrate equilibrium models with varied gas components, the prediction method of hydrate formation region in deep-water gas well in the South China Sea is obtained. The hydrate formation regions under different operating conditions for a deep-water gas well in the South China Sea were given by the proposed model. The results show that no hydrate formation risk exists in the production operation, but the risk exists in the shut-in and testing operations. Meanwhile, the determination of the hydrate inhibitor injection parameters during the testing operation is studied, and the influence of the inhibitors’ injection concentration and pressure on preventing gas hydrates is analyzed. This work provides useful advice for the prediction and prevention of hydrate formation risk in the development of deep-water gas fields, especially in the South China Sea.
url http://dx.doi.org/10.1155/2021/9122863
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