Design and implementation of volume fracturing horizontal well quick evaluation system for productivity in tight oil reservoirs based on the mixed programming of Matlab and JavaWeb

• Published in: International Conference on Measuring Technology and Mechatronics Automation (Print) pp. 1162 - 1165
• Main Authors: Lv, Miao, Chen, Yuan-Tao, Cai, Qing, He, Long-Yi, Fu, Meng, Wang, Zhiyuan
• Format: Conference Proceeding
• Language: English
• Published: IEEE 01.01.2022
• Subjects: Decision making; imbibition; JavaWebIntroduction; mixed programming; multi-threaded; Oils; Productivity; Programming; Solid modeling; Stability criteria; tight oil reservoirs; Visualization; volume fracturing
• ISSN: 2157-1481
• DOI: 10.1109/ICMTMA54903.2022.00234

Tight oil resources are abundant and widely distributed in China. Its large-scale development is an important guarantee for achieving national energy security "independent and controllable" and "long-term stability". Volumetrically fractured horizontal wells are the main development mode of tight oil reservoirs. Based on the physical laws of reservoir porous flow, and considering the impact of imbibition on oil production during the production process of volume fracturing horizontal wells in tight oil reservoirs, a web-based quick evaluation system for productivity prediction of tight oil reservoirs under volume fracturing was designed and implemented. The use of MATLAB and JavaWeb mixed programming technology to realize the functions of project management, model calculation, analysis and comparison visualization, etc. As a scientific decision-making tool for modern development and development technology, the rapid evaluation system for productivity prediction under volume compression fractures of tight oil reservoirs provides the necessary theoretical basis and technical support for the effective development decision-making of tight oil reservoirs.