江礼武，男，汉族，博士研究生，副教授，安徽潜山，自治区“天池英才”，校青年拔尖

教育经历：

2007年至2011年   中国石油大学（华东）   学士

2011年至2014年   中国石油大学（北京）   硕士

2016年至2021年   University of Regina     博士

工作经历：

2021.01 至 2023.11   University of Regina     Research associate

2023.12 至 2025.06   中国石油大学（北京）克拉玛依校区   讲师

2025.07 至今             中国石油大学（北京）克拉玛依校区   副教授

主讲课程：

《渗流力学》、《高等油藏工程》、《石油工程导论》、《数智油气开发理论与实践》、《油藏数值模拟基础》

研究方向：

1. 油藏工程理论与开发技术

2. 复杂渗流介质表征与反演

3. CO₂强化驱油与地质封存

4. 机理-数据驱动建模与求解

代表性成果：

近年来主持参与国内外科研课题多项，总计发表论文20余篇，代表性成果如下：1. 裂缝性油藏动态监测解释；2. 多源数据约束的缝网高效反演；3. 稠油出砂冷采蚯蚓洞动态表征；4. 机理-数据联合驱动模型应用。

论文：

石油工程顶刊SPE Journal文章：

[1]     Jiang, L., Liu, J*., Liu, T., Yang, D*., 2024. Characterization of Wormhole Growth and Propagation Dynamics during CHOPS Processes by Integrating Rate Transient Analysis and a Pressure-Gradient-Based Sand Failure Criterion in the Presence of Foamy Oil Behavior. SPE Journal, SPE-218027-PA (SCI, Top期刊)

[2]     Jiang, L., Liu, J., Liu, T., Yang, D*., 2022. Characterization of Wormhole Growth and Propagation Dynamics During Cold Heavy Oil Production with Sand (CHOPS) Processes by Integrating Rate Transient Analysis and a Pressure-Gradient-Based Sand Failure Criterion. SPE Journal, 27(5), 2703-2722. (SCI, Top期刊)

[3]     Jiang, L., Liu, T., Yang, D*., 2019. Effect of Stress-Sensitive Fracture Conductivity on Transient Pressure Behavior for a Horizontal Well with Multistage Fractures. SPE Journal, 24(3), 1342-1363. (SCI, Top期刊)

[4]     Jiang, L., Liu, T., Yang, D*., 2019. A Semianalytical Model for Predicting Transient Pressure Behavior of a Hydraulically Fractured Horizontal Well in a Naturally Fractured Reservoir With Non-Darcy Flow and Stress-Sensitive Permeability Effects. SPE Journal, 24(3), 1322-1341. (SCI, Top期刊)

[5]     Liu, J., Jiang, L., Liu, T*., Yang, D*., 2023. Field-Scale Modelling of Interwell Tracer Flow Behaviour to Characterize Complex Fracture Networks Based on the Embedded Discrete Fracture Model in a Naturally Fractured Reservoir. SPE Journal, 28(3), 1062-1082. (SCI, Top期刊)

其他文章：

[6]     Jiang, L., Liu, J., Liu, T*., Yang, D*., 2022. Production Decline Analysis for a Fractured Vertical Well with Reorientated Fractures in an Anisotropic Formation with an Arbitrary Shape Using the Boundary Element Method. Journal of Petroleum Science and Engineering, 208, 109213. (SCI, Top期刊)

[7]     Jiang, L., Liu, J., Liu, T., Yang, D*., 2021. Semi-analytical Modeling of Transient Pressure Behaviour for Fractured Horizontal Wells in a Tight Formation with Fractal-Like Discrete Fracture Network. Journal of Petroleum Science and Engineering, 197, 107937. (SCI, Top期刊)

[8]     Jiang, L., Liu, J., Liu, T., Yang, D*., 2020. A semianalytical model for transient pressure analysis of a horizontal well with non-uniform fracture geometry and shape-dependent conductivity in tight formations. Journal of Petroleum Science and Engineering, 195, 107860. (SCI, Top期刊)

[9]     Jiang, L., Liu, J., Liu, T., Yang, D*., 2020. Semi-analytical modeling of transient rate behaviour of a horizontal well with multistage fractures in tight formations considering stress-sensitive effect. Journal of Natural Gas Science and Engineering, 82, 103461. (SCI)

[10]   Jiang, L., Liu, J., Liu, T., Yang, D*., 2020. Semi-analytical modeling of transient pressure behaviour for a fractured vertical well with hydraulic/natural fracture networks by considering stress-sensitive effect. Journal of Natural Gas Science and Engineering, 82, 103477. (SCI)

[11]   Jiang, L., Liu, J., Liu, T., Yang, D*., 2022. Characterization of Dynamic Wormhole Growth and Propagation During CHOPS Processes by Integrating Rate Transient Analysis and Pressure-Gradient-Based Sand Failure Criterion. Paper SPE-208938-MS, presented at SPE Canadian Energy Technology Conference and Exhibition, Calgary, AB, March 16-17. (EI)

[12]   Jiang, L., Liu, J., Liu, T., Yang, D*., 2024. Characterization of Wormhole Growth and Propagation Dynamics During CHOPS Processes by Integrating Rate Transient Analysis and a Pressure-Gradient-Based Sand Failure Criterion in the Presence of Foamy Oil Flow. Paper SPE-218027-MS, presented at SPE Canadian Energy Technology Conference and Exhibition, Calgary, AB, March 13-14. (EI)

[13]   Jiang, L., Liu, T., Yang, D; 2017. Performance Evaluation of Hydraulically Fractured Horizontal Wells in a Tight Formation by Coupling Fluid Flow and Fracture Mechanics, 25th Williston Basin Petroleum Conference, Regina, SK, May 2-4.

[14]   Liu, J., Jiang, L., Liu, T., Yang, D*., 2020. Modeling tracer flowback behaviour for a fractured vertical well in a tight formation by coupling fluid flow and geomechanical dynamics, Journal of Natural Gas Science and Engineering, 84, 103656. (SCI)

[15]   Liu, J., Jiang, L., Liu, T*., Yang, D*. 2022. Modeling Tracer Flowback Behaviour for a Multifractured Horizontal Well in a Tight Oil Reservoir Using Embedded Discrete Fracture Method. Journal of Petroleum Science and Engineering, 212,110347. (SCI, Top期刊)

[16]   Liu, J., Jiang, L., Liu, T*., Yang, D*. 2022. Characterization of Fractal-like Fracture Network Using Tracer Flowback Tests for a Multifractured Horizontal Well in a Tight Formation. Fractals. 30(7), 2250133. (SCI)

[17]   Liu, J., Jiang, L., Liu, T*., Yang, D*., 2023. Field-Scale Modelling of Interwell Tracer Flow Behaviour to Characterize Complex Fracture Networks Based on the Embedded Discrete Fracture Model in a Naturally Fractured Reservoir. Paper SPE-212741-MS, to be presented at the SPE Canadian Energy Technology Conference and Exhibition, Calgary, AB, 15-16 March. (EI)

[18]   Hou, S., Yang, S., Jiang, L., Yang, D*., 2023. Integrated Optimization of Hybrid Steam-Solvent Injection in Post-CHOPS Reservoirs Under Uncertainty. Proceedings of the ASME 2023 42nd International Conference on Ocean, Offshore and Arctic Engineering. Volume 9: Offshore Geotechnics; Petroleum Technology. Melbourne, Australia. June 11-16. (EI)

科研项目：

主持参与完成科研课题多项，部分如下：

[1] 国家自然科学基金青年基金，大规模时空非均质裂缝储层渗流问题快速多极子边界元模拟方法研究，2025至2027，负责人

[2] 自治区自然科学基金青年基金，基于数据驱动的多源信息约束致密油藏复杂缝网反演方法研究，2024至2027，负责人

[3] 自治区“天池英才”引进计划项目，致密储层考虑支撑剂铺置及动态行为的压裂水平井生产动态预测研究，2025-2027，负责人

[4] 新疆维吾尔自治区教育厅，致密油藏压裂水平井复杂缝网刻画研究，2024-2025，负责人

[5] 中国石化页岩油气勘探开发重点实验室，陆相页岩凝析气压裂水平井关井压恢试井分析方法研究，2025-2027，负责人

[6] 新疆二氧化碳高效利用与封存重点实验室，裂缝性油藏注CO2提高采收率机理研究，2024-2025，负责人

[7] 新疆油田分公司，新疆油田战略规划及优化决策方法研究，2025-2025，负责人

[8] 加拿大自然科学与工程研究理事会(NSERC)，不确定条件下致密油藏提高采收率的动态裂缝表征和集成优化，2019-2024，主研

[9] 加拿大自然科学与工程研究理事会(NSERC)，出砂冷采后期用于提高稠油采收率的烃溶剂强化蒸汽+烟道气技术研究，2019-2024，主研

[10] 长庆油田分公司勘探开发研究院，致密油藏全信息孔-缝精细雕刻表征方法研究，2023-2024，第二负责人

[11] 中石油勘探开发研究院，都沃内项目页岩挥发油区带注气吞吐提高采收率技术研究，2019-2020，技术负责人

专利：

[1] 一种确定注气井注入中早期CO2等效波及半径的方法及装置，授权号: ZL201710057392.9

[2] 基于含水率的稠油边底水油藏多轮CO2吞吐的评价方法，授权号: ZL201710003679.3

[3] 一种聚驱过程中产聚曲线的量化分析方法及装置，授权号: ZL201610515517.3

[4] 多孔介质中微球状态动态分级表征方法及装置，授权号: ZL201710096438.8

[5] 一种气驱开发下的油藏工程动态分析方法，授权号: ZL201410521206.9

[6] 一种油气藏数值模拟计算方法，授权号: ZL201310188684.8

[7] 一种稠油热采直井试井解释方法，授权号: ZL201310079396.9

[8] 一种稠油热采水平井试井解释方法，授权号: ZL201310080017.8

[9] 一种稠油边底水油藏多轮CO2吞吐评价方法，授权号: ZL201710003680.6

[10] 一种非常规泄压速度分析方法、装置、系统及可存储设备，授权号: ZL201910073236.0

奖励：

[1] 国家优秀自费留学生奖学金-B类（全球50人），国家留学基金管理委员会，2021

[2] 自治区“天池英才”引进计划青年博士，2025

[3] 校青年拔尖人才，中国石油大学（北京），2024

[4] 院长荣誉奖，University of Regina，2020

[5] Graduate Research Fellowship, University of Regina, 2016-2020

[6] 2017 Williston Basin Petroleum Conference，Poster Award，2017

参加会议情况：

[1]   2025年第一届提高采收率技术国际研讨会，Almaty，2025

[2]   2024年碳捕集、利用与封存（CCUS）技术国际学术研讨会，抚顺，2024

[3]   第五届非常规油气藏开发与油气藏动态监测技术研讨会，昆明，2024

[4]   2024 SPE Canadian Energy Technology Conference and Exhibition, Calgary, AB, 2024

[5]   2023 SPE Canadian Energy Technology Conference and Exhibition, Calgary, AB, 2023

[6]   2022 SPE Canadian Energy Technology Conference and Exhibition, Calgary, AB, 2022

[7]   2017 Williston Basin Petroleum Conference, Regina, SK, 2017

学术兼职：

[1] Petroleum Science期刊第二届青年编委、油气地质与采收率第一届青年编委、Subsurface Exploration and Exploitation第一届编委、《海洋石油》第七届编委

[2] SPE Journal、Petroleum Science、Fuel等期刊审稿人

联系方式：

E-mail：jiang_liwu@cupk.edu.cn