当前位置: 首页 > 师资队伍 > 专家学者 > 石油工程系 > 正文

丁亚男

【 作者: | 发布日期:2022-11-08 】

丁亚男,男,1990年9月生,安徽黄山人,博士。2013年毕业于中国石油大学(华东)石油工程专业获得学士学位,2021年毕业于加拿大里贾纳大学石油系统工程专业获得博士学位。2022年7月任教于红一世足球网。主要从事支撑剂/微纳米颗粒裂缝运移理论及模拟、提高稠油采收率技术、油藏数值模拟以及井下作业管柱力学等研究。发表学术论文10余篇,承担和参与国内外科研项目10余项。

邮箱:dyn9208@163.com

代表性论文:

(1)Ding, Y., Yang, D., Huang, H., and Wang, H.Numerical Simulation of Proppant Transport in Hydraulic Fractures with the Hybrid PKN-C Model and Particle Tracking Algorithm.SPE Journal2022.SCI

(2) Wang, H., Zhao, Z., Gao, Z.,Ding, Y.*, and Yang, D. Experimental and Mechanistic Characterizations of Oil-Based Cement Slurry (OBCS) Flow Behaviour through Fractures in a Carbonate Reservoir.Journal of Energy Resources Technology2022,144(12), 123104.SCI

(3) Zhang,C., Hou, S.,Ding,Y., Wang, H., and Yang, D. Experimental and Numerical Evaluation of Enzyme-Assisted Hot Waterflooding Performance in A Heavy Oil Reservoir.Journal of Energy Resources Technology2022,145(3), 033502.SCI

(4)Ding, Y., Wang, H., and Yang, D. Numerical Simulation of Reactive Particle Transport in A Random-Orientated Rough Fracture with Reversible and Irreversible Surface Attachments.Colloids and Surfaces A: Physicochemical and Engineering Aspects,2021,626, 127008.SCI

(5)Ding, Y., Wang, H., and Yang, D. Determination of Effective Drag Forces and Torques for Jam Release during Drilling and Workover Operations in Directional Wells.Journal of Energy Resources Technology,2021,144(1), 013002.SCI

(6) Shi, Y.,Ding, Y., Feng, Q., and Yang, D.Improvement of Displacement Efficiency in Heavy Oil Reservoirs with Enzyme.Journal of Energy Resources Technology,2021, 143(5), 053007.SCI

(7)Ding, Y., Meng, X., and Yang, D. Numerical Simulations of Polydisperse Dense Particles Transport in A Random-Orientated Fracture with Spatially Variable Apertures.Colloids and Surfaces A: Physicochemical and Engineering Aspects,2020, 610, 125729.SCI

(8)Ding, Y., Meng, X., and Yang, D. Determination of Dynamic Dispersion Coefficient for Solid Particles Flowing in a Fracture with Consideration of Gravity Effect.Journal of Energy Resources Technology,2020, 145(2), 053101.SCI

(9)Ding, Y., Zheng, S., Meng, X., and Yang, D. Low Salinity Hot Water Injection with Addition of Nanoparticles for Enhancing Heavy Oil Recovery.Journal of Energy Resources Technology,2019, 141(7), 072904.SCI

(10) Shi, Y., Liu, L.,Ding, Y., and Yang, D. Improvement of Transient Interfacial Tension and Displacement Efficiency with Enzyme: An Application of Enzyme on the Heavy Oil Recovery.Paper presented at the International Field Exploration and Development Conference, Xi’an, China, October 16-18,2019.

(11)Ding, Y., Zheng, S., Meng, X., and Yang, D. Low Salinity Hot Water Injection with Addition of Nanoparticles for Enhancing Heavy Oil Recovery under Reservoir Conditions. Paper SPE 190132-MS, presented at the SPE Western Regional Meeting, Garden Grove, CA, April 22-26,2018.

(12)Ding, Y., Wang, H, and Yang, D. Determination of Effective Forces and Torques for Jam Release during Workover Operations in Directional Wells. Poster, presented at the 25th Williston Basin Petroleum Conference (WBPC), Regina, SK, May 2-4,2017.

承担和参与的科研项目:

(1)Natural Sciences and Engineering Research Council of Canada (NSERC)《Dynamic Fracture Characterization and Integrated Optimization of Enhanced Oil Recovery Performance in Tight Formations under Uncertainty》2019-2024

(2) NSERC《Transport Phenomena of Nanoparticles and Their Applications in Enhancing Oil Recovery》2018-2019

(3) NSERC《Integrated Reservoir Characterization and Performance Optimization for Maximizing Hydrocarbon Recovery with and without Nanoagents under Uncertainty》 2016-2018

(4) NSERC《Development of Alkane Solvents Enhanced Steam + Flue Gas Processes for Enhancing Heavy Oil Recovery from Post-CHOPS Reservoirs》2019-2024

(5)胜利油田《水平井修井作业管柱力学分析及辅助决策软件的开发》2015-2016

(6)胜利油田《大位移井分层防砂施工中的管柱力学分析及软件开发》2015

(7)胜利油田《长水平井修井作业水力循环多相流研究》 2015-2016

(8)胜利油田《油管内刮蜡器设计及其参数优化》 2015

(9)胜利油田《非标钻具强度计算与水力参数影响分析》 2016

(10)胜利油田《快速补能吞吐数模与渗析剂评价》 2021-2022

(11)长庆油田《鄂尔多斯盆地乌拉力克页岩气压裂液伤害评价方法及机理研究》2021-2022

Baidu
sogou