渤海油田注水用液体脱硫剂的筛选和现场应用
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摘要
针对渤海某油田注水系统硫化氢浓度过高的现状,通过测定脱硫剂对注入水的脱硫效率和阻垢剂对注入水中钙离子浓度的影响,优选出改性三嗪类液体脱硫剂和聚磷酸盐防垢剂,并在注水水源井所在C平台进行了现场中试。结果表明,改性三嗪类液体脱硫剂对注入水的脱硫效率为98.1%,脱硫效果最好,但会使水中钙离子浓度降低,出现结垢。与聚磷酸盐防垢剂一起使用可明显减少钙离子的沉积。在平台现场药剂中试时,脱硫剂和防垢剂加量分别为500 mg/L和20 mg/L,水源井系统的硫化氢浓度由800 mg/m~3降至约20 mg/m~3,产液中的硫化氢量从150 mg/m~3降至约4 mg/m~3,满足平台脱硫的需求,同时避免了沉积垢。图2表2参12
In view of the high concentration of hydrogen sulfide in water injection system of an oilfield in Bohai Sea,the modified triazine liquid desulfurizer and polyphosphate scale inhibitor were selected by measuring the desulfurization efficiency of desulfurizer on injected water and the effect of scale inhibitor on calcium ion concentration in injected water. Furthermore,the field pilot test was carried out on platform C where was the location of water injection well. The results showed that the desulfurization efficiency of modified triazine liquid desulfurizer for injected water was 98.1%,and the desulfurization effect was the best,but the concentration of calcium ion in water would reduce and scaling would occur. While used with polyphosphate scale inhibitor,the deposition of calcium ion could be significantly reduced. During the pilot test of the platform,the dosage of desulfurizer and scale inhibitor was 500 mg/L and 20 mg/L respectively. The concentration of hydrogen sulfide in the water source well system reduced from 800 mg/m~3 to about 20 mg/m~3,and the amount of hydrogen sulfide in the production fluid reduced from 150 mg/m~3 to about 4 mg/m~3,which met the desulfurization requirement of the platform and avoided depositing scale.
In view of the high concentration of hydrogen sulfide in water injection system of an oilfield in Bohai Sea,the modified triazine liquid desulfurizer and polyphosphate scale inhibitor were selected by measuring the desulfurization efficiency of desulfurizer on injected water and the effect of scale inhibitor on calcium ion concentration in injected water. Furthermore,the field pilot test was carried out on platform C where was the location of water injection well. The results showed that the desulfurization efficiency of modified triazine liquid desulfurizer for injected water was 98.1%,and the desulfurization effect was the best,but the concentration of calcium ion in water would reduce and scaling would occur. While used with polyphosphate scale inhibitor,the deposition of calcium ion could be significantly reduced. During the pilot test of the platform,the dosage of desulfurizer and scale inhibitor was 500 mg/L and 20 mg/L respectively. The concentration of hydrogen sulfide in the water source well system reduced from 800 mg/m~3 to about 20 mg/m~3,and the amount of hydrogen sulfide in the production fluid reduced from 150 mg/m~3 to about 4 mg/m~3,which met the desulfurization requirement of the platform and avoided depositing scale.
引文
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[2]许德禹,范全伟,范平革.分压注水技术的应用[J].中国设备工程,2012(10):24-25.
[3]管虹翔,谭杨,李海津,等.海上注水油田多压力注水系统可行性分析[J].钻采工艺,2014,37(5):53-55.
[4]赵见平,王金兰,高兴旺.油田注水系统效率提升探讨[J].现代商贸工业,2012,18(4):264.
[5]陈领君.提高油田注水系统效率理论与技术研究[D].北京:中国石油大学,2010:1-3.
[6]杜宁波,李俊成,朱名昭.提高靖安油田注水系统效率技术研究与应用[J].石油化工应用,2010,26(7):39-42.
[7]王伟.浅谈H2S气体对油、套管的腐蚀特性及防护措施[J].中国科技信息,2005,24(12):69.
[8]严思明,王杰,卿大咏,等.硫化氢对固井水泥石腐蚀研究[J].油田化学,2010,27(4):366-370.
[9]刘永刚,罗琼英,李三昌,等.硫化氢腐蚀环境下的钻具失效研究[J].石油矿场机械,2009,38(3):62-65.
[10]刘伟,蒲晓林,白小东,等.油田硫化氢腐蚀机理及防护的研究现状及进展[J].石油钻探技术,2008,36(1):83-86.
[11]张永成,王洪辉,李应祥,等.青海油田三厂硫化氢形成机理及腐蚀性研究[J].西南石油大学学报(自然科学版),2011,33(1):151-155.
[12]魏斌,严密林,白真权,等.四羟甲基季盐:一种新型多功能油田化学剂[J].油田化学,2006,23(2):184-187.
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