Technology Research About Super Large Composite Acid Fracturing
Filtration in Tahe Oilfield

doi:10.11885/j.issn.1674-5086.2012.10.18.02

Abstract

Abstract:

Abstract：In order to meet the needs of super large composite acid fracturing stimulation technology of the carbonate reservoirs
in Tahe Oilfield ，the particle size of 0.150 mm ceramic powder，oil soluble temporary plugging agent and biodegradable fiber
were evaluated in laboratory as filtrate reducer. Ceramic powder can decrease the filtrate loss by nearly 2 L in 15 min compared
with no ceramic powder，the filtration rate drop from 3.3×10-6 m/min down to 2.0×10-6 m/min；oil soluble temporary plugging
agent more than 85%；biodegradable fiber filtration reducing agent，reduce the liquid filtrate volume by 37.70%～22.99% when
temperature is at 80～120 ℃. Given reservoir characteristics and technological requirements of ceramic powder of different
particle size and of the permeability test results，we found that a 0.150 mm particle size powder pottery is applicable to Tahe
Oilfield super large composite acid. Based on the analysis of different action mode of ceramic powder on natural fracture，
ceramic powder was added around 10%，in ascending sequential order. Based on proppant slugs technique principle and fracture
shape，the ceramic powder amount is optimized. In Well TH12227H field test，satisfactory results were obtained，which have
an important guiding significance.

Key words: Key words：Tahe Oilfield, super large composite acid fracturing, filtration, fluid loss additive, experimental evaluation

Zhang Ye1，2, Yang Shenglai1, Jiao Kebo2. Technology Research About Super Large Composite Acid Fracturing
Filtration in Tahe Oilfield[J]. 西南石油大学学报(自然科学版), DOI: 10.11885/j.issn.1674-5086.2012.10.18.02.

0
/ Save 0 / Recommend

Add to citation manager EndNote|Ris|BibTeX

URL: http://journal15.magtechjournal.com/Jwk_xnzk/EN/10.11885/j.issn.1674-5086.2012.10.18.02

http://journal15.magtechjournal.com/Jwk_xnzk/EN/Y2014/V36/I3/121

References

[1] 江夏，张烨. 塔河油田缝洞型碳酸盐岩油藏深度改造

技术研究与应用[J]. 油气地质与采收率，2010，17（6）：

107–110，118.

Jiang Xia，Zhang Ye. The study and application of fracturing

for ultra deep hole in crack-cave carbonate oil

reservoir[J]. Petroleum Geology and Recovery Efficiency，

2010，17（6）：107–110，118.

[2] 何春明，郭建春，王文耀，等. 致密碳酸盐岩酸蚀蚓孔

研究[J]. 断块油气田，2010（2）：235–238.

He Chunming，Guo Jianchun，Wang Wenyao，et al. Study

on acidizing wormhole of tight carbonate reservoir[J].

Fault-Block Oil & Gas Field，2010（2）：235–238.

[3] 陈赓良，黄瑛. 酸化工作液缓速作用的理论与实践[J].

钻井液与完井液，2004，21（1）：50–54.

Chen Gengliang，Huang Ying. Retarded acting theory of

acidizing fluid and its application[J]. Driuing Fluid and

Completion Fluld，2004，21（1）：50–54.

[4] Rushing J A，Sullivan R B. Evaluation of a hybrid waterfrac

stimulation technology in the bossier tight gas sand

play[C]. SPE 84394，2003.

[5] Dong C. Acidizing of naturally-fractured reservoir formations[

D]. Austin：The University of Texas at Austin，2000.

[6] Hill A D，Zhu D，Wang Y. The effect of wormholing on

the fluid loss coefficient in acid fracturing[J]. SPE Production

& Facilities，1995，10（4）：257–264.

[7] 张烨，赵文娜. 塔河油田缝洞型碳酸盐储层重复酸压

实践[J]. 新疆石油科技，2009，19（2）：34–36.

[8] 李富俊，张烨. 复合酸压工艺技术在塔河油田的研究

与应用[J]. 天然气勘探与开发，2010，33（4）：73–76.

Li Fujun，Zhang Ye. Composite acid fracturing and its application

to Tahe Oilfield[J]. Natural Gas Exploration and

Development，2010，33（4）：73–76.

[9] 赵洪涛，郭建春，王建. 深层裂缝性储层压裂技术研

究与应用[J]. 重庆科技学院学报：自然科学版，2010，

12（3）：48–51.

Zhao Hongtao，Guo Jianchun，Wang Jian. Application research of fracturing techniques in deep fractured reservoirs[

J]. Journal of Chongqing University of Science

and Technology：Natural Sciences Edition，2010，12（3）：

48–51.

[10] 崔明月，邱小惠，陈彦东，等. 压裂液降滤失剂的使

用性能及评价方法[J]. 油田化学，1998，15（1）：76–81.

Cui Mingyue，Qiu Xiaohui，Chen Yangdong，et al. Performance

properties and evaluating methods for filtrate

loss controllers of hydraulic fracturing fluids[J]. Oilfield

Chemistry，1998，15（1）：76–81.

[11] 张涛. 潜山裂缝性变质岩储层大型水力压裂技术研

究[D]. 大庆：大庆石油学院，2008.

[12] 马飞，黄贵存，杨逸，等. 深层裂缝性储层降滤失技术

研究[J]. 石油地质与工程，2009，23（1）：90–92.

[13] 陶良军，胡永全，林景禹，等. 安棚裂缝性储层压裂技

术研究与应用[J]. 天然气工业，2005，25（10）：91–93.

Tao Liangjun，Hu Yongquan，Lin Jingyu，et al. Study and

application of fracturing techniques for anpeng fractured

reservoir[J]. Natural Gas Industry，2005，25（10）：91–93.

[14] 罗天雨，王嘉淮，赵金洲，等. 多裂缝防治措施研究[J].

断块油气田，2007，13（6）：40–42.

Luo Tianyu，Wang Jiahuai，Zhao Jinzhou，et al. Study

on prevention and treatm ent of m ultiple hydraulic fractures[

J]. Fault-Block Oil & Gas Field，2007，13（6）：

40–42.

[15] 岳迎春，郭建春，李勇明. 支撑剂段塞用量计算模型

与影响因素分析[J]. 石油地质与工程，2009，23（6）：

121–122.

[16] 赵正龙，李建国，杨朝辉，等. 支撑剂段塞技术在大

位移斜井压裂中的应用[J]. 钻采工艺，2004，27（2）：

102–104.

[17] 王玉斌. 新疆油田水力压裂多裂缝研究及应用[D]. 成

都：西南石油大学，2007.