Volume 47 Issue 2
Apr.  2019
Turn off MathJax
Article Contents
Abstract
References
SONG Jinxing, YU Shiyao, SU Xianbo, WANG Qian. Experimental of water unlocking stimulation mechanism on surfactant fracturing fluid[J]. COAL GEOLOGY & EXPLORATION, 2019, 47(2): 98-102. DOI: 10.3969/j.issn.1001-1986.2019.02.016
Citation: SONG Jinxing, YU Shiyao, SU Xianbo, WANG Qian. Experimental of water unlocking stimulation mechanism on surfactant fracturing fluid[J]. COAL GEOLOGY & EXPLORATION, 2019, 47(2): 98-102. DOI: 10.3969/j.issn.1001-1986.2019.02.016
shu

Experimental of water unlocking stimulation mechanism on surfactant fracturing fluid

  • 1. School of Energy Science and Engineering, Henan Polytechnic University, Jiaozuo 454000, China;

  • 2. Collaborative Innovation Center of Coalbed Methane and Shale Gas for Central Plains Economic Region, Henan Province, Jiaozuo 454000, China

Funds: 

National Natural Science Foundation of China(41872176)

More Information
  • Received Date: April 05, 2018
  • Published Date: April 24, 2019
    Graphical Abstract
    • Abstract
  • This paper presents an experimental study of water unlocking stimulation mechanism on surfactant fracturing fluid based on the measurements of surface tension, contact angle, gas-phase permeabilities and desorption of nitrogen on synthetic coal samples. The coking coal in Liulin zone of Hedong coal field was used as testing object in this study. Active water and surfactant fracturing fluids were used as testing liquids in this study. Results show that the surfactant fracturing fluid(1.5%KCl+0.05%AN) reduces the surface tension of active water fracturing fluid(1.5%KCl) and increases the wettabil-ity of active water fracturing fluid to coal reservoir; the surfactant fracturing fluid reduces the capillary pressure of fluid in coal pore to make the fracturing fluid easily access into the coalbed methane reservoir; the surfactant fracturing fluid can re-duce the water blocking damage rates of coal reservoirs by about 40%; and the surfactant fracturing fluid inhibits the occur-rence of water blocking damage efficiently. Regarding to the coalbed methane reservoir, the surfactant fracturing fluid has the stimulation effect. It is concluded that the surfactant fracturing fluid increases the gas-phase permeabilities at bound wa-ter saturation of coal reservoir, thus realizing the permeability increasing, and the surfactant fracturing fluid reduces the crit-ical diameter of coalbed methane production, thus realizing the desorption increasing.
    • FullText(HTML)
    • References (16)
  • [1]
    张国华,梁冰,毕业武. 水锁对含瓦斯煤体的瓦斯解吸的影响[J]. 煤炭学报,2012,37(2):253-258.

    ZHANG Guohua,LIANG Bing,BI Yewu. Impact of water lock on gas desorption of coal with gas[J]. Journal of China Coal Society,2012,37(2):253-258.
    [2]
    杨永利. 低渗透油藏水锁伤害机理及解水锁实验研究[J]. 西南石油大学学报(自然科学版),2013,35(3):137-141.

    YANG Yongli. Study of water locking damage mechanism and water unlocking of low permeability reservoir[J]. Journal of Southwest Petroleum University,2013,35(3):137-141.
    [3]
    谢向向,张玉贵,姜家钰,等. 钻井液对煤心煤层气解吸损失量的影响[J]. 煤田地质与勘探,2015,43(1):30-34.

    XIE Xiangxiang,ZHANG Yugui,JIANG Jiayu,et al. The influence of drilling fluid on coalbed methane desorption loss of coal core[J]. Coal Geology & Exploration,2015,43(1):30-34.
    [4]
    YUAN B,WOOD D A,YU W. Stimulation and hydraulic fracturing technology in natural gas reservoirs:Theory and case studies(2012-2015)[J]. Journal of Natural Gas Science & Engineering,2015,26:1508-1509.
    [5]
    曹彦超,曲占庆,郭天魁,等. 水基压裂液的储层伤害机理实验研究[J]. 西安石油大学学报(自然科学版),2016,31(2):87-92.

    CAO Yanchao,QU Zhanqing,GUO Tiankui,et al. Experimental study on damage dechanism of water-based fracturing fluid to reservoir[J]. Journal of Xi'an Shiyou University(Natural Science),2016,31(2):87-92.
    [6]
    宋金星. 煤储层表面改性增产机理及技术研究[D]. 焦作:河南理工大学,2016:99-100.
    [7]
    BEATON A,LANGENBERG W,PANĂ C. Coalbed methane resources and reservoir characteristics from the Alberta Plains,Canada[J]. International Journal of Coal Geology,2006,65(1):93-113.
    [8]
    邱正松,逄培成,黄维安,等. 页岩储层防水锁微乳液的制备与性能[J]. 石油学报,2013,34(2):334-339.

    QIU Zhengsong,PANG Peicheng,HUANG Wei'an,et al. Preparation and performance of anti-waterblock microemulsion for shale reservoirs[J]. Acta Petrolei Sinica,2013,34(2):334-339.
    [9]
    胡友林,乌效鸣. 煤层气储层水锁损害机理及防水锁剂的研究[J]. 煤炭学报,2014,39(6):1107-1111.

    HU Youlin,WU Xiaoming. Research on coalbed methane reservoir water blocking damage mechanism and anti-water blocking[J]. Journal of China Coal Society,2014,39(6):1107-1111.
    [10]
    刘谦. 水力化措施中的水锁效应及其解除方法实验研究[D]. 徐州:中国矿业大学,2014:12-14.
    [11]
    卢义玉,杨枫,葛兆龙,等. 清洁压裂液与水对煤层渗透率影响对比实验研究[J]. 煤炭学报,2015,40(1):93-97.

    LU Yiyu,YANG Feng,GE Zhaolong,et al. Comparative experiment on influence of clear fracturing fluid and water on coal seam permeability[J]. Journal of China Coal Society,2015,40(1):93-97.
    [12]
    宋金星,陈培红,王乾. 煤储层水基压裂液用表面活性剂的筛选实验[J]. 煤田地质与勘探,2017,45(6):79-83.

    SONG Jinxing,CHEN Peihong,WANG Qian. Laboratory study on screening and optimizing surfactant of water-based fracturing fluid for coalbed methane reservoir[J]. Coal Geology & Exploration,2017,45(6):79-83.
    [13]
    苏现波,马耕,宋金星,等. 煤系气储层缝网改造技术及应用[M]. 北京:科学出版社,2017:182-183.
    [14]
    宋金星,于世耀,苏现波. 煤储层速敏伤害机理及防速敏试验研究[J]. 煤炭科学技术,2018,46(6):173-177.

    SONG Jinxing,YU Shiyao,SU Xianbo. Study on velocity sensitivity damage mechanism and its proof test of coal reservoir[J]. Coal Science and Technology,2018,46(6):173-177.
    [15]
    中国煤炭工业协会. 煤的高压等温吸附实验方法:GB/T 19560-2008[S]. 北京:中国标准出版社,2008.
    [16]
    中国煤炭工业协会. 煤层气含量测定方法:GB/T 19559-2008[S]. 北京:中国标准出版社,2008.
    • Related Articles

  • Cited by

    Periodical cited type(11)

    1. 张松航,唐书恒,孟尚志,信迪,张远远,王希栋. 煤储层含水性及其对煤层气产出的控制机理. 煤炭学报. 2023(S1): 171-184 .
    2. 张黄鹤,程兴生,李永平,张智勇,张大年. 致密气藏压裂用防水锁剂的性能评价. 油田化学. 2023(03): 401-407 .
    3. 李树刚,闫冬洁,严敏,田佳敏,白杨. 糖脂活性剂对煤体润湿及微观结构特性影响试验. 安全与环境学报. 2022(02): 680-687 .
    4. 何嘉郁,王艳玲,旷正超. 新型纳米防水锁表面活性剂的研发与应用. 钻采工艺. 2022(03): 131-135 .
    5. 刘军,杨通,王立国,陈向军. 煤层水锁效应的消除及其对甲烷解吸特性的影响. 煤炭科学技术. 2022(09): 82-92 .
    6. 胡千庭,李晓旭,陈强,梁运培. 酸性压裂液防治低渗煤层水锁损害实验研究. 煤炭学报. 2022(12): 4466-4481 .
    7. 王恩东,吴海明,沈健,刘晶,魏波,王国锋. 表面活性剂对煤层气解吸能力的影响. 钻采工艺. 2021(01): 106-109 .
    8. 冯玉龙,周林元,王乾,刘程瑞. 基于多层次模糊数学法的煤层气井产能综合评价模型. 煤田地质与勘探. 2021(02): 125-132 . 本站查看
    9. 宋金星,刘程瑞. 基于改性表面活性剂的煤储层表面物理改性增产机理分析. 煤矿安全. 2020(06): 202-206+211 .
    10. 苏现波,宋金星,郭红玉,蔺海晓,刘晓,韩颖,张双斌,李贤忠,于世耀. 煤矿瓦斯抽采增产机制及关键技术. 煤炭科学技术. 2020(12): 1-30 .
    11. 宋峙潮,宋瑞,卓振州,李小刚,任军林. 表面活性剂对煤层的多尺度伤害研究进展. 石油化工应用. 2020(12): 6-10+25 .

    Other cited types(11)

Catalog

    Get Citation
    PDF
    XML

    Article Metrics

    Article views (116) PDF downloads (12) Cited by(22)
    Related

    Copyright of website design © Editorial Office of Coal Geology & Exploration 陕ICP备05001372号-6 陕公网安备 61019002002193号

    Address: Editorial Office of Coal Geology & Exploration, No.82 Jinye 1st Rd, High-Tech Zone, Xi'an City, Shaanxi, China

    Tel: 029-81778075 E-mail: ccrimtdzykt@vip.163.com

    Supported by: Beijing Renhe Information Technology Co., Ltd. Baidu Analytics

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return