留言板

尊敬的读者、作者、审稿人, 关于本刊的投稿、审稿、编辑和出版的任何问题, 您可以本页添加留言。我们将尽快给您答复。谢谢您的支持!

姓名
邮箱
手机号码
标题
留言内容
验证码

压裂支撑剂新进展与发展方向

光新军 王敏生 韩福伟 耿黎东

downloadPDF
文章导航 > 钻井液与完井液  > 2019 >  36(5): 529-533,541
光新军, 王敏生, 韩福伟, 耿黎东. 压裂支撑剂新进展与发展方向[J]. 钻井液与完井液, 2019, 36(5): 529-533,541. doi: 10.3969/j.issn.1001-5620.2019.05.001
引用本文: 光新军, 王敏生, 韩福伟, 耿黎东. 压裂支撑剂新进展与发展方向[J]. 钻井液与完井液, 2019, 36(5): 529-533,541. doi: 10.3969/j.issn.1001-5620.2019.05.001
shu
GUANG Xinjun, WANG Minsheng, HAN Fuwei, GENG Lidong. Proppants for Fracturing Fluids: New Progress Made and Direction of Future Development[J]. DRILLING FLUID & COMPLETION FLUID, 2019, 36(5): 529-533,541. doi: 10.3969/j.issn.1001-5620.2019.05.001
Citation: GUANG Xinjun, WANG Minsheng, HAN Fuwei, GENG Lidong. Proppants for Fracturing Fluids: New Progress Made and Direction of Future Development[J]. DRILLING FLUID & COMPLETION FLUID, 2019, 36(5): 529-533,541. doi: 10.3969/j.issn.1001-5620.2019.05.001
shu

压裂支撑剂新进展与发展方向

doi: 10.3969/j.issn.1001-5620.2019.05.001

  • 1. 中国石化石油工程技术研究院, 北京 100101;

  • 2. 中国石油集团渤海钻探工程有限公司第三钻井公司, 天津 300280

基金项目: 

中石化科技部项目"国内外石油工程技术装备发展趋势与发展战略研究"(P19029-5)

详细信息
    作者简介:

    光新军,博士,现在主要从事钻井新技术及石油工程战略规划方面的研究工作。电话(010)84988695;E-mail:guangxinjun@126.com

  • 中图分类号: TE357.12

Proppants for Fracturing Fluids: New Progress Made and Direction of Future Development

  • 1. Sinopec Research Institute of Petroleum Engineering, Beijing 100101;

  • 2. No. 3 Drilling Engineering Company, BHDC, Tianjin 300280

    摘要
  • 摘要: 压裂支撑剂是油气储层改造中用来支撑压裂人工裂缝的一种关键材料,是提高压裂成功率和大幅提高改造效果的关键。国外近年来研发了一系列新型支撑剂,值得我们学习借鉴。笔者分析了压裂支撑剂的应用现状,总结了压裂支撑剂的最新进展及现场实验情况,包括高强度低密度支撑剂、高导流支撑剂、多功能支撑剂和智能支撑剂。结合我国油气勘探开发趋势,提出了压裂支撑剂的科技攻关和技术发展方向。围绕这些方向进行研究,尽快形成适应于我国油气储层的压裂支撑剂技术,对于提高油气产量,保障国家能源安全具有重要意义。

     

    Abstract: Proppant is a key material used in fracturing fluids to prop up artificial fractures for reservoir stimulation. It plays a key role in increasing the success rate of fracturing job and in improving the results of reservoir stimulation. A series of new proppants have recently been developed abroad and the ideas of the new proppant development is worth studying by us. In this paper the status quo of proppant application is analyzed and the newest progresses made in developing new proppants and field experiment of new proppants (including high strength low density proppant, high flow-conductivity proppant, multi-function proppant and intelligent proppant etc.) are summarized. Direction of scientific research and technical development is presented in this paper in connection with the trend of oil and gas exploration and development in China. Researches performed in this direction to develop proppant technologies suitable for fracturing oil and gas reservoirs in China is of great importance to the security of national energy resources.

     

    • HTML全文
    • 参考文献(15)
  • [1] SINGER B, SYED W, SAMA V S, et al. Shale innovation:brawn to brains to bytes[R/OL].[2017-06-23]. http://www.altiragroup.com/sites/default/files/resourcesShaleInnovation.pdf.
    [2] Rystad Energy research. Mixed outlook for proppant in 2019[R/OL].[2018-12-11]. http://www.drillingcontractor.org/mixed-outlook-proppant-2019-49751
    [3] FULLENBAUM R,SMITH C,RAO M,et al.Trends in US oil and natural gas upstream costs[J].Oil and Gas Upstream Cost Study Houston Texas,IHS,2016:141-143.
    [4] SALDUNGARAY P M, PALISCH T T. Hydraulic fracture optimization in unconventional reservoirs[C]//SPE Middle East unconventional gas conference and exhibition. Society of Petroleum Engineers, 2012.
    [5] PALISCH T, DUENCKEL R, WILSON B. New technology yields ultrahigh-strength proppant[J]. SPE Production & Operations, 2015, 30(01):76-81.
    [6] KALE J, OLATUNJI O. Low density proppant in slickwater application improves reservoir contact and fracture complexity-a Permian basin case history[J].SPE 187498, 2017.
    [7] RADWAN A.A multifunctional coated proppant:a review of over 30 field trials in low permeability formations[J].SPE 187329, 2017.
    [8] GREEN J,DEWENDT A,TERRACINA J,et al. First proppant designed to decrease water production[J].SPE 191394, 2018.
    [9] MCDANIEL G,ABBOTT J,MUELLER F,et al. Changing the shape of fracturing:new proppant improves fracture conductivity[J].SPE 135360, 2010.
    [10] PALISCH T, AL-TAILJI W, CANNAN C, et al. Recent advancements in far-field proppant detection[J].SPE 179161, 2016.
    [11] PALISCH T,AL-TAILJI W, BARTEL L,et al. Farfield proppant detection using electromagnetic methods:latest field results[J]. SPE Production & Operations, 2018,33(3):557-568.
    [12] LEASURE J G, DUENCKEL R J, HEBERT J. Effective scale prevention using chemically infused proppant-a uinta basin case history[J]. SPE 173792,2015.
    [13] SANTOS L, TALEGHANI A D, LI G. Smart expandable proppants to achieve sustainable hydraulic fracturing treatments[C]//SPE Annual Technical Conference and Exhibition, ATCE 2016. Society of Petroleum Engineers (SPE), 2016.
    [14] CHANG F F, BERGER P D, LEE C H. In-situ formation of proppant and highly permeable blocks for hydraulic fracturing[J]. SPE 173328, 2015.
    [15] 王宗礼,娄钰,潘继平. 中国油气资源勘探开发现状与发展前景[J]. 国际石油经济,2017,25(3):1-6.

    WANG Zongli,LOU Yu, PAN Jiping. China's oil & gas resources exploration and development and its prospect[J]. International Petroleum Economics, 2017, 25(3):1-6.
    • 相关文章
    • 施引文献
  • 资源附件(0)
  • 加载中
WeChat 点击查看大图
计量
  • 文章访问数:  1041
  • HTML全文浏览量:  245
  • PDF下载量:  324
  • 被引次数: 0
出版历程
  • 收稿日期:  2019-05-04
  • 刊出日期:  2019-10-30

目录

    /

    返回文章
    返回

    网站版权所有 《钻井液与完井液》津ICP备13002319号-1

    地址:河北省任丘市燕山南道渤海钻探工程院《钻井液与完井液》编辑部邮政编码:062552

    电话:(0317)2725487 2722354Email:zjyywjy@126.com

    本系统由 北京仁和汇智信息技术有限公司 开发    百度统计