摘要
南海某平台为深水采气平台,由水下生产系统、乙二醇回收单元和生产水处理系统等单元组成。投产初期对外排生产水的生物毒性进行检测发现,生物毒性处于排放标准附近,随时有超标风险。对该平台处理工艺进行了全面分析,确定导致生物毒性偏高的主要原因为开井期间水下井口注入甲醇所致,并通过开井程序优化、甲醇注入量校核、工艺参数调整等改进措施,解决海上深水采气平台开井期间生产水生物毒性高的问题。该方法对同类气田设施提供了借鉴和指导。
A certain platform in the South China Sea is a deep-water gas production platform,consisting of underwater production systems,ethylene glycol recovery units,and production water treatment systems.During the initial stage of production,the biological toxicity of the discharged production water was tested and found to be near the discharge standard,with a risk of exceeding the standard at any time.A comprehensive analysis was conducted on the treatment process of the platform,and it was determined that the main cause of high biological toxicity was the injection of methanol into the wellhead during the well opening period.Improvement measures such as optimizing the well opening program,verifying the injection amount of methanol,and adjusting process parameters were taken to solve the problem of high biological toxicity in the production water of offshore deepwater gas production platforms during the well opening period.This method provides reference and guidance for similar gas field facilities.
作者
马振华
李春辉
杨勇
吴攀
王吉成
姚爽
Ma Zhenhua;Li Chunhui;Yang Yong;Wu Pan;Wang Jicheng;Yao Shuang(CNOOC Deep Sea Development Co.,Ltd.,Zhuhai Guangdong 519000,China)
出处
《山西化工》
CAS
2024年第7期246-249,共4页
Shanxi Chemical Industry
关键词
生产水
生物毒性
化学药剂
注入量
程序优化
production water
biological toxicity
chemical agents
injection volume
program optimization
作者简介
马振华,男,1986年出生,毕业于长江大学,本科,工程师,从事海洋石油天然气工程开发及技术应用工作。;通信作者:李春辉,1989年出生,毕业于广东石油化工学院,本科,工程师,从事海洋石油天然气的开采、处理和集输工作。
