天然气地球科学

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大型致密砂岩气藏水平井产能评价与新认识

吕志凯,贾爱林,唐海发,刘群明,王泽龙   

  1. 中国石油勘探开发研究院,北京 100083
  • 收稿日期:2018-02-01 修回日期:2018-04-19 出版日期:2018-06-10 发布日期:2018-06-10
  • 作者简介:吕志凯(1984-),男,河北任丘人,工程师,博士,主要从事低渗致密气藏开发与评价研究.E-mail:lvzk@petrochina.com.cn.
  • 基金资助:
    “十三五”国家科技重大专项“复杂天然气开发关键技术”(编号:2016ZX05015);中国石油天然气股份有限公司
    科技攻关项目“天然气藏开发关键技术”(编号:2016B-15)联合资助.
     

Productivity evaluation and new understanding for horizontal well of large scale tight sandstone gas

Lü Zhi-kai,Jia Ai-lin,Tang Hai-fa,Liu Qun-ming,Wang Ze-long   

  1. Research Institute of Petroleum Exploration and Development,PetroChina,Beijing 100083,China
  • Received:2018-02-01 Revised:2018-04-19 Online:2018-06-10 Published:2018-06-10

摘要: 压裂水平井技术是开发致密砂岩气藏的有效手段,已经在苏里格气田取得了良好应用效果,但存在生产规律认识不清、产能评价困难、生产工作制度不合理等问题,影响了水平井部署和生产管理。为此,深入研究了苏里格气田地质和水平井生产特征,评价了水平井产能并形成了新的认识,建立了考虑长期稳产的水平井合理产量确定方法。研究结果表明,苏里格气田历年投产水平井初期递减率很高,中后期递减率变低,符合衰竭式递减规律,且新完钻井的初期递减率逐年增大;水平井日均产量与无阻流量呈幂函数关系、与单井控制储量呈线性关系;提出了用单井控制储量指导压裂水平井合理配产的经验方法,以实现单井长期稳产。研究结果对致密气藏产能建设有积极意义。

关键词: 致密气藏, 压裂水平井, 衰竭式递减, 绝对无阻流量, 单井控制储量, 合理配产

Abstract: Fractured horizontal well technology is an effective means to develop tight sandstone gas reservoirs.While horizontal wells development have achieved excellent performance in Sulige Gasfield,there are practical problems including difficulty in production characteristics,productivity evaluation and unreasonable production system,which influence horizontal well deployment and production management.For this,the gas field geology and horizontal well production characteristics were studied firstly.Then,productivity of horizontal wells was evaluated.Finally,reasonable production rate of horizontal wells considering long-term stable production is established.Results show that the initial decline rate of the horizontal wells in the Sulige Gasfield is very high in the different years,the decline rate in the middle and late stage is low,and the decline rate in the early stage of the new drilling increases year by year.The production of single well decreases rapidly in the early stage and gradually slows down in the middle and late stages,which is in line with the decrement law of exhaustion.The relationship of reasonable horizontal well production and absolute open flow rate is power function.Reasonable production proration gradually decreases with the increase of absolute open flow.The relationship of reasonable horizontal well production and well-controlled reserves is linear relation.It is the first time that single well controlled reserves are used to guide the rational distribution of fractured horizontal wells in order to achieve long-term stable production of single well.The research results have positive significance on the production of tight gas reservoirs.

Key words: Tight gas reservoir, Fractured horizontal well, Depletion decline, Absolute open flow rate, Well-controlled reserves, Reasonable production;Recovery ratio

中图分类号: 

  • TE243+.1

[1]Zou Caineng,Zhu Rukai,Wu Songtao,et al.Types,characteristics,genesis and prospects of conventional and unconventional hydrocarbon accumulations:Taking tight oil and tight gas in China as an instance[J].Acta Petroleum Sinica,2012,33(2):173-187.
邹才能,朱如凯,吴松涛,等.常规与非常规油气聚集类型、特征、机理及展望——以中国致密油和致密气为例[J].石油学报,2012,33(2):173-187.
[2]Yang Hua,Fu Jinhua,Liu Xinshe,et al.Formation condition sand exploration technology of large-scale tight sandstone gas reservoir in Sulige[J].Acta Petrolei Sinica,2012,33(supplement 1):27-26.
杨华,付金华,刘新社,等.苏里格大型致密砂岩气藏形成条件及勘探技术[J].石油学报,2012,33(增刊1):27-36.
[3]Zou Caineng,Yang Zhi,Tao Shizhen,et al.Nano-hydrocarbon and the accumulation in coexisting source and reservoir[J].Petroleum Exploration and Development,2012,39(1):13-26.
邹才能,杨智,陶士振,等.纳米油气与源储共生型油气聚集[J].石油勘探与开发,2012,39(1):13-26.
[4]Wen Xiaohong,Zhou Tuo,Hu Yong,et al.Experimental study of properties and influence factors of gas flow in tight core[J].Petroleum Geology & Experiment,2010,32(6):592-595.
温晓红,周拓,胡勇,等.致密岩心中气体渗流特征及其影响因素实验研究[J].石油实验地质,2010,32(6):592-595.
[5]Surdam R C.A new paradigm for gas exploration in anomalously pressured “tight gas sands” in the Rocky Mountain Laramide basins[C]//Surdam R C.AAPG Memoir 67:Seals,Traps,and the Petroleum System.Tulsa:AAPG,1997:283-298.
[6]Holditch S A.Tight gas sands[J].JPT,2006,58(6):85-90.
[7]Dai Jinxing,Ni Yunyan,Wu Xiaoqi.Tight gas in China and its significance in exploration and exploitation[J].Petroleum Exploration and Development,2012,39(3):257-264.
戴金星,倪云燕,吴小奇.中国致密砂岩气及在勘探开发上的重要意义[J].石油勘探与开发,2012,39(3):257-264.
[8]He Dongbo,Jia Ailin,Ji Guang,et al.Well type and pattern optimization technology for large scale tight sand gas,Sulige Gasfield[J].Petroleum Exploration and Development,2013,40(1):79-89.
何东博,贾爱林,冀光,等.苏里格大型致密砂岩气田开发井型井网技术[J].石油勘探与开发,2013,40(1):79-89.
[9]Lu Tao,Zhang Ji,Li Yuegang,et al.Horizontal well development technology for tight sandstone gas reservoirs in the Sulige Gasfield,Ordos Basin[J].Natural Gas Industry,2013,33(8):38-43.
卢涛,张吉,李跃刚,等.苏里格气田致密砂岩气藏水平井开发技术及展望[J].天然气工业,2013,33(8):38-43.
[10]Liu Qunming,Tang Haifa,Ji Guang,et al.Geological target optimization for horizontal well development of tight gas,Sulige Gasfield,Ordos Basin,China[J].Natural Gas Geoscience,2015,26(3):1360-1365.
刘群明,唐海发,冀光,等.苏里格致密砂岩气田水平井开发地质目标优选[J].天然气地球科学,2016,27(7):1360-1365.
[11]Li Jianqi,Yang Zhilun,Chen Qiwen,et al.Horizontal well technology for the development of the Sulige Gasfield[J].Natural Gas Industry,2011,31(8):60-64.
李建奇,杨志伦,陈启文,等.苏里格气田水平井开发技术[J].天然气工业,2011,31(8):60-64.
[12]Guo Zhi,Jia Ailin,Ji Guang,et al.Reserve classification and well pattern infilling method of tight sandstone gasfield:A case study of Sulige Gasfield[J].Acta Petroleum Sinica,2017,38(11):1299-1309.
郭智,贾爱林,冀光,等.致密砂岩气田储量分类及井网加密调整方法——以苏里格气田为例[J].石油学报,2017,38(11):1299-1309.
[13]Li Bo,Jia Ailin,He Dongbo,et al.Productivity evaluation of horizontal wells in Sulige tight gas reservoir with strong heterogeneity[J].Natural Gas Geoscience,2015,26(3):539-549.
李波,贾爱林,何东博,等.苏里格气田强非均质性致密气藏水平井产能评价[J].天然气地球科学,2015,26(3):539-549.
[14]Li Yuegang,Xu Wen,Xiao Feng,et al.Development well pattern optimization based on dynamic characteristics:A case study from the Sulige tight sandstone gas field with great heterogeneity[J].Natural Gas Industry,2014,34(11):56-61.
李跃刚,徐文,肖峰,等.基于动态特征的开发井网优化——以苏里格致密强非均质砂岩气田为例[J].天然气工业,2014,34(11):56-61.
[15]Zhuang Huinong.Gas Reservoir Dynamic Description and Well Testing[M].Beijing:Petroleum Industry Press,2003:56-67.
庄惠农.气藏动态描述和试井[M].北京:石油工业出版社,2003:56-67.
[16]Fetkovich M J,Fetkovich E J,Fetkovich M D.Useful concepts for decline curve forecasting,reserve estimation,and analysis[J].SPE Reservoir Engineering,1996,11(1):13-22.
[17]Blasingame T A,Johnston J L,Lee W J.Type-Curve Analysis Using the Pressure Integral Method[C].SPE 18799,1989.
[18]Wei Yunsheng,Jia Ailin,He Dongbo,et al.Classification and evaluation of horizontal well performance in Sulige tight gas reservoirs,Ordos Basin[J].Natural Gas Industry,2013,33(7):47-51.
位云生,贾爱林,何东博,等.苏里格气田致密气藏水平井指标分类评价及思考[J].天然气工业,2013,33(7):47-51.

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