耐高温复合盐加重压裂液体系性能研究
TQ421%TE39; 从加重性能和价格因素方面考虑,优选了比例为1:3的甲酸钠和氯化钠复合盐作为加重剂,合成了一种耐高温改性羟丙基胍胶NHPG,并使用有机硼交联剂制备了一种复合盐加重压裂液体系,根据SY/T 5107—2016《水基压裂液性能评价方法》中的要求评价了该体系的性能.复合盐加重压裂液体系密度为1.35 g/cm3,在160℃、170 s-1下剪切120 min的剩余黏度高于50 mPa·s,现场应用测试表明,该体系可降低井口压力9~11 MPa,为超深高温高压油气储层的开发提供了技术支持....
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| Published in | 应用化工 Vol. 51; no. 10; pp. 2898 - 2907 |
|---|---|
| Main Authors | , , , , , , |
| Format | Journal Article |
| Language | Chinese |
| Published |
中国石油大学(华东)石油工业训练中心,山东 青岛 266580%青岛黄海学院,山东 青岛 266555%青海油田采油一厂,青海 海西 817000%中国石油大学(华东)石油工程学院,山东 青岛 266580
2022
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1671-3206 |
| DOI | 10.3969/j.issn.1671-3206.2022.10.018 |
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| Abstract | TQ421%TE39; 从加重性能和价格因素方面考虑,优选了比例为1:3的甲酸钠和氯化钠复合盐作为加重剂,合成了一种耐高温改性羟丙基胍胶NHPG,并使用有机硼交联剂制备了一种复合盐加重压裂液体系,根据SY/T 5107—2016《水基压裂液性能评价方法》中的要求评价了该体系的性能.复合盐加重压裂液体系密度为1.35 g/cm3,在160℃、170 s-1下剪切120 min的剩余黏度高于50 mPa·s,现场应用测试表明,该体系可降低井口压力9~11 MPa,为超深高温高压油气储层的开发提供了技术支持. |
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| AbstractList | TQ421%TE39; 从加重性能和价格因素方面考虑,优选了比例为1:3的甲酸钠和氯化钠复合盐作为加重剂,合成了一种耐高温改性羟丙基胍胶NHPG,并使用有机硼交联剂制备了一种复合盐加重压裂液体系,根据SY/T 5107—2016《水基压裂液性能评价方法》中的要求评价了该体系的性能.复合盐加重压裂液体系密度为1.35 g/cm3,在160℃、170 s-1下剪切120 min的剩余黏度高于50 mPa·s,现场应用测试表明,该体系可降低井口压力9~11 MPa,为超深高温高压油气储层的开发提供了技术支持. |
| Author | 费瑛 李小娜 赵博 高飞 侯丽娟 赵海龙 夏星帆 |
| AuthorAffiliation | 中国石油大学(华东)石油工业训练中心,山东 青岛 266580%青岛黄海学院,山东 青岛 266555%青海油田采油一厂,青海 海西 817000%中国石油大学(华东)石油工程学院,山东 青岛 266580 |
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| Author_FL | GAO Fei FEI Ying XIA Xing-fan ZHAO Hai-long ZHAO Bo HOU Li-juan LI Xiao-na |
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| Keywords | 耐高温 性能评价 加重压裂液 改性胍胶 复合盐 |
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| Snippet | TQ421%TE39; 从加重性能和价格因素方面考虑,优选了比例为1:3的甲酸钠和氯化钠复合盐作为加重剂,合成了一种耐高温改性羟丙基胍胶NHPG,并使用有机硼交联剂制备了一种复合盐加重压裂液体系,根据SY/T 5107—2016《水基压裂液性能评价方法》中的要求评价了该体系的性能.复合盐加重压裂液体系密度为1.35... |
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| Title | 耐高温复合盐加重压裂液体系性能研究 |
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