职 称:副研究员
导师 资格:硕导
所属 部门:采油所
学科 专业:油气田开发
研究 方向:非常规油藏高效开发理论与方法
联系 方式:zhouxiang@tom.com;zhouxiang@swpu.edu.cn
联系 地址:610500 版权所有 红宝石官方网站hbs123 - 红宝石最新线路手机版红宝石官方网站hbs123科技园大厦1401A
周翔,男,副研究员,博士,Professional Engineer(加拿大),2019年获加拿大里加纳大学(University of Regina)石油系统工程专业博士学位,同年获国家优秀自费留学生奖,现主要从事致密油藏注气、稠油油藏热力提高采收率理论与方法研究,数值模拟与模型研究等科研与教学工作。博士期间主研加拿大萨省研究院科研基金项目5项,国际合作项目2项。在《Applied Energy》《Fuel》《Journal of Petroleum Science and Engineering》等期刊发表学术论文30余篇,其中SCI论文20余篇,参加国际学术会议6次。
●2005.09-2009.06 长江大学,石油工程,学士
●2009.07-2012.04 中海油天津分公司,采油工程,工程师
●2012.10-2015.08 加拿大里贾纳大学,石油系统工程,硕士
●2015.09-2019.04 加拿大里贾纳大学,石油系统工程,博士
●2019.09-至今 红宝石官方网站hbs123石油与天然气工程学院,副研究员
●中国博士后基金项目,2020M673288,CO2辅助稠油热采过程中泡沫油实验及数模研究,2020.08-2021.12,主持
●四川省财政厅支持项目,2018FZ0070,溶剂助SAGD改善稠油开采效率技术研究,2018.07-2020.07,主研
●风城油砂矿风砂73井断块难动用储量开采技术研究,2020.06-2021.12,主持
●国内外新型稠油开采技术探索评价与咨询,2020.06-2020.12,主研
●玛湖致密油藏注气工艺提高采收率研究,2019.06-2020.10,主研
●九6区齐古组二氧化碳辅助蒸汽驱机理及关键参数研究,2019.06-2020.06,主研
●Effects of the Water Saturation and Foamy Oil Stability Agent on the Foamy Oil Flow and Cyclic Solvent Injection Process(PTRC,Husky Energy and Devon Energy,Canada),2018.01-2020.10,主研
●Non-Equilibrium Characterization of CO2-Heavy Oil Systems under Different Viscosities and ●Temperatures(PTRC,Husky Energy and Devon Energy,Canada),2016.02-2018.10,主研
●Non-equilibrium Phase Behavior Study of Heavy Oil-Solvent System under Bulk Systems(PTRC and Husky Energy,Canada),2015.10-2017.10,主研
●Study of Foamy Oil Non-equilibrium PVT Properties and Flow Behaviors in Solvent Injection Process(Husky Energy,Canada),2014.10-2016.10,主研
●Study of Post-CHOPS Cyclic Solvent Injection Process(Devon Energy,Canada),2012.01-2013.10, 主研
●稠油泡沫驱增产技术研究,2013.12-2014.12,主研
●CO2驱油与单井吞吐室内实验及测试,2012.07-2013.12,主研
(1)代表性期刊文章
●Zhou X,Jiang Q,Yuan Q,et al. Determining CO2 diffusion coefficient in heavy oil in a bulk phase and in porous media using experimental and mathematical modeling methods[J]. Fuel,2020,263:116205.
●Zhou X.,Zeng F,Zhang L,et al. Experimental and mathematical modeling studies on foamy oil stability using a heavy oil-CO2 system under reservoir conditions[J]. Fuel,2020,264:116771:1-13.
●Zhou X,Yuan Q,Rui Z,et al. Feasibility study of CO2 huff ‘n’ puff process to enhance heavy oil recovery via long core experiments[J]. Applied Energy,2019,236:526-539.
●Zhou X,Yuan Q,Zhang Y, et al. Performance evaluation of CO2 flooding process in tight oil reservoir via experimental and numerical simulation studies[J]. Fuel,2019,236:730-746.
●Zhou X,Yuan Q,Peng X,et al. A critical review of the CO2 huff ‘n’ puff process for enhanced heavy oil recovery[J]. Fuel,2018,215:813-824.
●Zhou X,Yuan Q,Zeng F,et al. Experimental study on foamy oil behaviour using a heavy oil‒methane system in the bulk phase[J]. Journal of Petroleum Science and Engineering,2017,158:309-321.
●Zhou X,Zeng F,Zhang L,et al. Foamy oil flow in heavy oil–solvent systems tested by pressure depletion in a sandpack[J]. Fuel,201,171:210-223.
●Zhou X,Zeng F,Zhang L. Improving steam-assisted gravity drainage performance in oil sands with a top water zone using polymer injection and the fishbone well pattern[J]. Fuel,2016,184:449-465.
●Tan Y,Li H,Zhou X,et al. Experimental study on performance of horizontal wells in sulfur gas reservoirs[J]. Fuel,2019,238:267-274.
●Huang X,Guo X,Zhou X,et al. Effects of water invasion law on gas wells in high temperature and high pressure gas reservoir with a large accumulation of water-soluble gas[J]. Journal of Natural Gas Science and Engineering,2019,62:68-78.
●Huang X,Guo X,Zhou X,et al. Productivity model for water-producing gas well in a dipping gas reservoir with an aquifer considering stress-sensitive effect[J]. Journal of Energy Resources Technology,2019,141(2):022903-1-9.
●Tan Y,Li H,Zhou X,et al. A Semi-Analytical Model for Predicting Horizontal Well Performances in Fractured Gas Reservoirs with Bottom-Water and Different Fracture Intensities[J]. Journal of Energy Resources Technology,2018,140(10):102905.
●Ni, J,Zhou X,Yuan Q, et al. Numerical simulation study on Steam-Assisted Gravity Drainage performance in a heavy oil reservoir with a bottom water zone[J]. Energies,2017,10(12),1999:1-24.
●Zhang K.,Zhou X,Peng X,et al. A comparison study between N-Solv method and cyclic hot solvent injection (CHSI) method[J]. Journal of Petroleum Science and Engineering,2018,173:258-268.
●Lu X,Zhou X,Luo J,et al. Characterization of foamy oil and gas/oil two-phase flow in porous media for a heavy oil/methane system[J]. ASME Journal of Energy Resources Technology,2018,141(3):032801-12.
●Yuan Q,Zhou X,Wang J,et al. Control of viscous fingering and mixing in miscible displacements with time-dependent rates[J]. AIChE J.,2018,65(1):360-371.
●Yuan Q,Zhou X,Zeng F,et al. Investigation of concentration-dependent diffusion on frontal instabilities and mass transfer in homogeneous porous media[J]. The Canadian Journal of Chemical Engineering,2018,96:323-338.
●Yang .,Zhou X,Zhang K,et al. Investigation of methane dynamical properties in slit-like quartz pores using molecular simulation[J]. RSC Advances,2018,8:33798-33816.
●Yuan Q,Zhou X,Zeng F,et al. Nonlinear simulation of miscible displacements with concentration-dependent diffusion coefficient in homogeneous porous media[J]. Chemical Engineering Science,2017,172:528-544.
(2)代表性学术会议
●Zhou X,Zhao Y,Luo J,et al. A novel process to enhance oil recovery in heavy oil reservoir with a bottom-water zone[C]. Chengdu:Thermal EOR workshop,15-19 Oct.,2018.
●Zhou X,Wang H,Zeng F, et al. Study on foamy oil production performance by using different solvents in laboratory[C]. Beijing:IEA EOR conference,15-17 October, 2014.
●Zhou X,Zeng, F. Feasibility study of using polymer to improve SAGD performance in oil sands with top water[C] Calgary, Canada:SPE 170164,SPE Heavy Oil Conference,10-12 June,2013.
●稠油热力/泡沫油开发理论与方法
●注气提高致密油/页岩油开发理论与方法
●CO2利用与埋存理论
●稠油/煤就地改质技术与理论
依托“油气藏地质及开发工程国家重点实验室”提高采收率基础理论及配套技术研究团队和国家能源局稠重油研发中心-西南分中心。以蒋琪教授为领衔,目前团队成员有王志彬、黄思源、于春生、周翔等4名中青年骨干教师。该研究团队专门从事非常规油藏开采技术研究,攻克制约开采的瓶颈技术,降本增效,降低温室气体排放强度,提高非常规油藏开采综合经济效益。