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地质工程原生数据预测深层小尺度裂缝性地层漏失特征

何旭晟周井红管桐代红魏攀峰潘孝青

石油钻采工艺2024，Vol.46Issue(1)：33-44,12.

石油钻采工艺2024，Vol.46Issue(1)：33-44,12.DOI:10.13639/j.odpt.202404005

地质工程原生数据预测深层小尺度裂缝性地层漏失特征

Prediction of loss characteristics in deep small-scale fractured formations using geological engineering native data

何旭晟 ¹周井红 ¹管桐 ²代红 ³魏攀峰 ⁴潘孝青⁴

作者信息

1. 中国石油西南油气田勘探事业部,四川成都 610095
2. 中国石油华北油田分公司油气工艺研究院,河北任丘 062550
3. 中国石油集团西部钻探工程有限公司,新疆鄯善 838200
4. 北京力会澜博能源技术有限公司,北京 102249
折叠

摘要

Abstract

Gongzhusi group in Zhongjiang-Penglai gas province is typical deep fractured formation,with unknown vertical depth of leakage point before drilling and specific leakage rate.The existing plugging methods fail to solve the challenges in such formation,and the treatment lasts for long period.In view of this,138 geological engineering factors are extracted from the history data of logging and drilling,the characteristic coefficient of all factors on the leakage rate are calculated and 16 leakage control factors are screened out by the element reduction method.While the formation fracture scale for lab simulation is 0.008～0.130 mm,the contribution coefficient of 6 drilling fluid performance main control factors to the leakage rate is consistent with the on-site value.The test formation fracture scale exceeds the observation range of the core,and the analysis shows the friction and sliding effect of fracture.The nanometer active particles of 0.001～0.010 mm particle size are preferred.While the water base drilling fluid with density 2.24 g/cm3,adding mass fraction 0.1%～0.8%of particles,is tested,the leakage resistance of drilling fluid in the crack of 0.008 mm wide is increased by 0.01～0.16 MPa.After 0.1%～0.5%particles are added to the bridge plugging system,the pressure on wide 0.008～0.140 mm crack is increased to 7.2～10.9 MPa,showing feasible plugging effect.The leakage point prediction in 2 wells was carried out on site,with actual rate of 80%,and the predicted vertical depth deviation was no more than 31 m,indicating remarkable improvement compared to the traditional methods.Five plugging operations was performed in two wells,the success ratio reached 80%,and one single leakage treatment lasted for 28.25～39.15 h,with averaged value 32.39 h,decreased by 68.60%compared to the existing wells.The filed application shows that prediction of loss characteristics in deep small-scale fractured formations using geological engineering native data is feasible to improve the plugging efficiency.

关键词

天然气/非常规油气/深层/工程技术/剥茧算法/防漏堵漏/裂缝/纳米颗粒

Key words

natural gas/unconventional oil and gas/deep reservoirs/engineering technology/cocoon stripping algorithm/leakage prevention and plugging/fracture/nanometer

分类

能源科技

引用本文复制引用

何旭晟,周井红,管桐,代红,魏攀峰,潘孝青..地质工程原生数据预测深层小尺度裂缝性地层漏失特征[J].石油钻采工艺,2024,46(1):33-44,12.

基金项目

国家科技重大专项"多气合采钻完井技术和储层保护"(编号:2016ZX05066002). （编号:2016ZX05066002）

石油钻采工艺

OA北大核心CSTPCD

ISSN：1000-7393

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