Prediction of hydraulic fracturing fracture parameters based on the study of reservoir rock geomechanics

被引:21
作者
Agishev, E. R. [1 ]
Dubinsky, G. S. [2 ]
Mukhametshin, V. V. [2 ]
Bakhtizin, R. N. [2 ]
Andreev, V. E. [2 ,3 ]
Kuleshova, L. S. [4 ]
Vafin, T. R. [4 ]
机构
[1] JV Vietsovpetro, Vung Tau, Vietnam
[2] Ufa State Petr Technol Univ, Ufa, Russia
[3] Inst Strateg Res Republ Bashkortostan, Ufa, Russia
[4] Ufa State Petr Technol Univ, Inst Oil & Gas, Branch City Oktyabrsky, Oktyabrsky, Russia
关键词
Hydraulic fracturing; Geomechanical properties of the formation; Increase in production; Reduction of waterflooding; OIL; DEPOSITS;
D O I
10.5510/OGP20220400789
中图分类号
O43 [光学];
学科分类号
070207 ; 0803 ;
摘要
The article is devoted to the search for ways to reduce the risks of water inflow during hydraulic fracturing and its more reliable design in order to increase technological efficiency. The methodology and approach to forecasting the parameters of hydraulic fracturing fractures based on the study of geomechanics of reservoir rocks are presented. Analytical, laboratory and field studies were carried out. The design adjustment was tested when planning hydraulic fracturing, the possibility of using such an algorithm of actions and its success were shown. Recommendations are given on the correct design of hydraulic fracturing and improving the quality of work, which reduces the risk of flooding of the productive reservoir.
引用
收藏
页码:107 / 116
页数:10
相关论文
共 45 条
[31]   MATHEMATICAL MODELLING OF CARBONATE RESERVOIR DISSOLUTION AND PREDICTION OF THE CONTROLLED HYDROCHLORIC ACID TREATMENT EFFICIENCY [J].
Rabaev, R. U. ;
Chibisov, A., V ;
Kotenev, A. Yu ;
Kotenev, M. Yu ;
Dubinskiy, G. S. ;
Muhametshin, V. Sh ;
Efimov, E. R. .
SOCAR PROCEEDINGS, 2021, (02) :37-43
[32]   Improving the efficiency of using resource base of liquid hydrocarbons in Jurassic deposits of Western Siberia [J].
Rogachev, Mikhail K. ;
Mukhametshin, Vyacheslav V. ;
Kuleshova, Lyubov' S. .
JOURNAL OF MINING INSTITUTE, 2019, 240 :711-715
[33]  
Rozman M. S., 2020, NEFTEGAZRU, V2, P62
[34]   New Microbiological Method of Oil Recovery Increase Containing Highly Mineralized Water [J].
Rzayeva, S. J. .
SOCAR PROCEEDINGS, 2019, (02) :38-44
[35]   Experimental research of the colloidal systems with nanoparticles influence on filtration characteristics of hydraulic fractures [J].
Sergeev, V. V. ;
Sharapov, R. R. ;
Kudymov, A. Y. ;
Zeigman, Y., V ;
Mukhametshin, V. S. .
NANOTECHNOLOGIES IN CONSTRUCTION-A SCIENTIFIC INTERNET-JOURNAL, 2020, 12 (02) :100-107
[36]   Evolution of Hydraulic Fracturing Fluid: from Guar Systems to Synthetic Gelling Polymers [J].
Stabinskas, A. P. ;
Sultanov, Sh Kh ;
Mukhametshin, V. Sh ;
Kuleshova, L. S. ;
Churakov, A., V ;
Safiullina, A. R. ;
Veliev, E. M. .
SOCAR PROCEEDINGS, 2021, Oil Gas Scientific Research Project Institute (2021) :172-181
[37]  
Tikhonov S., 2019, OIL AND GAS VERTICAL, V6, P10
[38]   On the Prospects for the use of CO2 to Enhance Oil Recovery in the Fields of Azerbaijan [J].
Valiyev, N. A. ;
Jamalbayov, M. A. ;
Ibrahimov, Kh M. ;
Hasanov, I. R. .
SOCAR PROCEEDINGS, 2021, (01) :83-89
[39]   Mechanisms of Polymer Retention in Porous Media [J].
Veliyev, E. F. .
SOCAR PROCEEDINGS, 2020, 2020 (03) :126-134
[40]   Review of Modern In-Situ Fluid Diversion Technologies [J].
Veliyev, E. F. .
SOCAR PROCEEDINGS, 2020, 2020 (02) :50-66