Petroleum and Natural Gas Engineering (Oil and Gas Field Development Engineering)

Jianye Mou

Personal Profile

College of Petroleum Engineering

Ph.D

Professor & PhD Supervisor

Oil and Gas Field Development Engineering

moujianye@cup.edu.cn

Research Areas

Reservoir modification

Research Projects

[1] "13th Five-Year Plan" National Science and Technology Major Project, Targeted Acid Pressing Process Technology Experiment and Digital Model Research, 2016-2020
[2] National Natural Science Foundation of China, Research on the Steering Mechanism of Viscoelastic Surfactants self-steering acidification under complex media conditions, 2013-2016
[3] "Twelfth Five-Year Plan" National Science and Technology Major Project, Research on Large-scale Penetration Composite Acid Pressure Technology, 2011-2015
[4] Research on Acid Pressure Process Technology in Ultra-deep and Ultra-high Temperature Gas Reservoirs in Shunnan Area: Experimental Evaluation and Process Optimization of Reservoir Transformation in Dolomite Reservoirs, 2016-2017
[5] Research and development of deep penetration acid liquid system for ultra-deep ultra-high temperature dolomite, 2016-2017
[6] The key technology of segmented completion and acid pressure of horizontal wells in ultra-deep carbonate rocks- test evaluation and field application of multi-stage alternating acid pressure process, 2015-2016
[7] Sadi Low Permeability Carbonate Reservoir Segmentation Process Parameters Preferred, 2014-2015
[8] Basic Study on Improving The Diversion Capacity of Ordovician Deep Wells in Tovtai, 2013
[9] Evaluation of adaptability of dense reservoir address and reservoir transformation in Sulige Gas Field, 2012-2013
[10] Research and Protocol Design of NISOC Acid Pressure Project in Iran, 2012

Publications

[1]] Xinfang Ma, Jianye Mou, Hun Lin, Feng Jiang. Lattice Boltzmann Simulation of Wormhole Propagation in Carbonate Acidizing. Journal of Energy Resources Technology, February: 1-19, 2017.
[2] Jianye Mou, Chunyue Li, Shicheng Zhang, Dong Li. Research on Acid Leakoff Reduction by Injecting Large Volume of Slick Water in Acid Fracturing of Naturally Fractured Oil Reservoirs. Oxidation Communications 39, No 3-II, 2566-2579 (2016).
[3] Jianye Mou, Jin Zhang, Shicheng Zhang, Lufeng Zhang. Research on Effective Viscosity of VES Acid in Porous Media. Oxidation Communications, 39, No 3-I, 2354–2365 (2016).
[4] Mou, Jianye; Zhang, Shicheng. Modeling acid leakoff during multistage alternate injection of pad and acid in acid fracturing. Journal of Natural Gas Science and Engineering, 2015, 226: 1161-1173.
[5] Mou, Jianye; Liu, Ming; Zhang, Shicheng; Diversion Conditions for Viscoelastic Surfactant-Based Self-Diversion Acid in Carbonate Acidizing. SPE Production & Operation, 2015, 30(2): 191-199.
[6] Mou, Jianye; Zhang, Shicheng; Zhang, Ye. Acid Leakoff Mechanism in Acid Fracturing of Naturally Fractured Carbonate Oil Reservoirs. TRANSPORT IN POROUS MEDIA, 2012, V91(2):573-584.
[7] Zhang, Ye; Yang, Shenglai; Zhang, Shicheng; Mou, Jianye. Wormhole Propagation Behavior and Its Effect on Acid Leakoff under In Situ Conditions in Acid Fracturing. TRANSPORT IN POROUS MEDIA, 2014, V101(1):99-114.
[8] Xu, Linjing; Zhang, Shicheng; Mou, Jianye. Acid Leakoff Mechanism in Acid Fracturing of Naturally Fractured Carbonate gas Reservoirs. EXPLORATION AND PROCESSING OF MINERAL RESOURCES, 2014, V868: 682-685.
[9] Liu, Ming; Zhang, Shicheng; Mou, Jianye; Zhou Fujian. Wormhole Propagation Behavior Under Reservoir Condition in Carbonate Acidizing. TRANSPORT IN POROUS MEDIA, 2013, V96(1): 203-220.