楊矞琦���,男�,漢族�����,中共黨員,博士����,副教授,博士生導(dǎo)師��,新疆維吾爾自治區(qū)天山英才����,校青年拔尖人才,《Petroleum Science》和《精細(xì)化工》期刊青年編委���,現(xiàn)任中國石油大學(xué)(北京)克拉瑪依校區(qū)工學(xué)院副院長�����、化工與環(huán)境系教師�����。
教育經(jīng)歷
2008-2012 中國石油大學(xué)(北京)本科
2012-2015 中國石油大學(xué)(北京)碩士
2017-2019 澳大利亞墨爾本大學(xué)博士聯(lián)合培養(yǎng)
2015-2019 中國石油大學(xué)(北京)博士
工作經(jīng)歷
2019-2022 中國石油大學(xué)(北京)克拉瑪依校區(qū) 講師
2022-至今 中國石油大學(xué)(北京)克拉瑪依校區(qū) 副教授����、博士生導(dǎo)師
講授課程
1. 化工原理
2. 過程裝備成套技術(shù)
研究方向
1. 電催化
2. 功能型納米粒子和水凝膠制備
3. 油氣田開發(fā)
科研項目
1、國家自然科學(xué)基金委�,重油-氣-水三相垂直管流氣泡碰撞水滴協(xié)同上升的動力學(xué)研究,2022-2024�����,主持��。
2�����、自治區(qū)院士“一事一議”項目�,高效低成本電解含油污水副產(chǎn)氫關(guān)鍵技術(shù)研發(fā)��,2024-2026��,主持�。
3、自治區(qū)廳廳聯(lián)動重點研發(fā)計劃課題���,CO2提高低效油田驅(qū)油及埋存效率技術(shù)研究���,2022-2025���,主持。
4�、中央引導(dǎo)地方科技發(fā)展專項資金項目,難處理高酸值原油乳化轉(zhuǎn)相機(jī)制及應(yīng)用堵水研究����,2023-2024,主持�。
5、新疆維吾爾自治區(qū)天山英才-青年優(yōu)秀科技創(chuàng)新人才��,地層原油注CO2條件下瀝青質(zhì)析出規(guī)律及抑制技術(shù)研究�����,2023-2025���,主持��。
6�����、新疆維吾爾自治區(qū)面上項目��,低/超低界面能重油-水垂直管流運動波傳播特性及流型轉(zhuǎn)變機(jī)理研究�����,2020-2023��,主持�����。
7�、克拉瑪依市創(chuàng)新人才專項項目�����,頁巖油多場耦合乳化滲流規(guī)律及對產(chǎn)能的影響機(jī)理研究�����,2020-2021��,主持����。
8���、新疆新易通石油科技有限公司,稠油開采注氣量的確定方法及系統(tǒng)���,專利成果轉(zhuǎn)化��,2023-2028�����,主持����。
9�、新疆維吾爾自治區(qū)特種設(shè)備檢驗研究院,多相不穩(wěn)定流動誘導(dǎo)壓力管道疲勞失效機(jī)理研究�����,2021-2024�����,主持�。
10�、中國石油天然氣股份有限公司���,上下甜點高效立體開發(fā)及排采制度優(yōu)化研究����,2019-2024���,主持���。
代表性論文
1、Liping Huo, Minghui Lv, Mingjin Li, Xuepeng Ni, Jingyu Guan, Jian Liu, Shuxing Mei, Yuqi Yang*, et al. Amorphous MnO2 Lamellae Encapsulated Covalent Triazine Polymer-Derived Multi-Heteroatoms-Doped Carbon for ORR/OER Bifunctional Electrocatalysi[J]. Advanced Materials (IF=29.4), 2024.
2��、Yuqi Yang, Zhengchao Xu, Siyu Chen, Haipeng Zhang, Yuequn Fu*, Siqi Liu, Shuxing Mei*, Hang Lv*. Study on The Secondary Flow in T-shaped Pipe with Different Outlet Surface. Physics of Fluids (IF=4.9), 2024.
3�����、E. Zhao, H. Lv, J. Fan, H. P Zhang, S. Wu, Y. Yu, Y. Q Yang*, S.X Mei*. Iron-carbon composite as flow electrode active material for highly efficient electrosorption of uranium from radioactive wastewater. Separation and Purification Technology (IF=8.1), 2024, 354, 128405.
4��、Y. Ning#, Y. Yang#, D. Shan, S. Mei, Y. Yan, L. Ding and Y. Zhang*, Sulfonic acid-modified MOFs as heterogeneous bifunctional catalysts for ethylene oligomerization at room temperature without cocatalysts. Catal. Sci. Technol., 2024, DOI: 10.1039/D4CY00502C.
5�����、H. H Li#, J. Y Guan#, Y. Q Yang#, J. Liu, S.X Mei*, S. S Wang*, Ternary-grafted tarch-based hydrogel with improved adsorption capacity for dyes. ChemCatChem (IF=3.8). 2024, e202401034.
6�、Shiling Zhang, Yuqi Yang*, Jixiang Guo, et al. Temperature-resistant and salt-tolerant mixed surfactant system for EOR in the Tahe Oilfield. Petroleum Science(IF=6.0), 2021.
7、Yuqi Yang, Matthew D. Biviano, Jixiang Guo, Joseph D. Berry*, Raymond R. Dagastine*. Mass transfer between microbubbles. Journal of Colloid and Interface Science (IF=9.9), 2020, 571, 253-259.
8�、Yuqi Yang, Jixiang Guo*, Zijing Yu, et al. A Surfactant for Enhanced Heavy Oil Recovery in High-salt and High-temperature Carbonate Reservoir. Energies, 2020, 20: 320.
9、Yuqi Yang, Jixiang Guo*, Bo Ren, et al. Oil–Water flow patterns, holdups and frictional pressure gradients in a vertical pipe under high temperature/pressure conditions. Experimental Thermal and Fluid Science, 2019, 100: 217–291.
10���、Yuqi Yang, Jixiang Guo*, Zhongfu Cheng, et al. New Composite Viscosity Reducer with Both Asphaltene Dispersion and Emulsifying Capability for Heavy and Ultra–heavy Crude Oils. Energy&Fuels, 2017, 31 (2): 1159–1173.
11�����、Jixiang Guo, Yuqi Yang*, Zhang Dengshan, et al. A general model for predicting apparent viscosity of crude oil or emulsion in laminar pipeline at high pressures. Journal of Petroleum Science & Engineering, 2018, (160):12—23.
12�����、Jixiang Guo*, Yuqi Yang*, Shuai Zhang, et al. Heavy Oil–Water Flow Patterns in a Small Diameter Vertical Pipe under High Temperature/Pressure Conditions. Journal of Petroleum Science & Engineering�,2018 (17): 1350—1365.
13�、楊矞琦, 郭繼香*, 任波, 等. 稠油-水兩相高溫高壓垂直管流壓降規(guī)律研究[J]. 科學(xué)技術(shù)與工程, 2021, 21(6): 02164-08.
14、郭繼香*, 楊矞琦, 張江偉, 等. 超稠油復(fù)合降黏劑SDG–3的研究和應(yīng)用[J]. 精細(xì)化工, 2017, 34(3):341–348.
學(xué)術(shù)專著:
郭繼香, 楊矞琦. 稠油降黏開采技術(shù)原理與應(yīng)用. 北京:科學(xué)出版社, 2020.10. ISBN 978-7-03-060808-6.(430萬字)
主要成果(專利及獎勵等)
1����、楊矞琦, 張海鵬, 等.一種模擬高溫高壓下油氣水混合物在彎管內(nèi)流動的裝置. 國家發(fā)明專利, ZL20211 0482086.6, 2023.04.30.
2、楊矞琦, 李焱, 宋偉, 等. 一種用于模擬氣泡與液滴相互碰撞的裝置. 國家發(fā)明專利, ZL202310046999.2, 2023.01.31.
3����、楊矞琦, 郭繼香, 趙海洋等. 油氣兩相流動型態(tài)表征方法及裝置. 國家發(fā)明專利, ZL201910015725.0, 2019.01.08.
4、楊矞琦, 張海鵬, 等. A device and method for observing flow pattern in vertical tube under high temperature and high pressure condition, 2023/00482(南非), 國家發(fā)明專利, 2022.07.08.
5、楊矞琦, 郭繼香, 熊瑞穎等. 稠油開采注氣量的確定方法及系統(tǒng). 國家發(fā)明專利, ZL201910016376.4, 2019.01.08.
6�、郭繼香, 楊矞琦, 趙海洋等. 一種高溫高壓井筒模擬裝置, 國家發(fā)明專利, ZL201410852548.9.
7、郭繼香, 楊矞琦, 楊祖國等. 高溫高壓油水混合流體在線粘度檢測裝置及方法, 國家發(fā)明專利, ZL201710021310.5.
獲得獎勵:
1�、中國石油和化工自動化行業(yè)協(xié)會技術(shù)發(fā)明獎,一等獎��,排名第1����,2024年;(省部級一等獎)
2����、“一種高溫高壓井筒模擬裝置”獲中國石化聯(lián)合會專利獎優(yōu)秀獎,省部級��,排名第2��,2020年����。
3����、指導(dǎo)學(xué)生獲第十二屆過程裝備實踐與創(chuàng)新大賽國家級一等獎,優(yōu)秀指導(dǎo)教師,2022年�����。
聯(lián)系方式
E-mail:yuqiyang@cupk.edu.cn
辦公電話:0990-6633315
Yuqi Yang, doctor, associate professor, doctoral supervisor, young top-notch talent, young editorial board member of "Petroleum Science" and "Fine Chemicals" journals, deputy dean of the School of Engineering, work in the Department of Chemical Engineering and Environment in China University of Petroleum (Beijing) at Karamay Campus.
Education
2008-2012 B.S., China University of Petroleum (Beijing).
2012-2015 M.S., China University of Petroleum (Beijing).
2017-2019 Joint Ph.D. Programming, University of Melbourne, Australia
2015-2019 Ph.D., China University of Petroleum (Beijing).
Work experience
2019-2022 Lecturer, Karamay Campus, China University of Petroleum (Beijing).
2022-present, Associate Professor, Doctoral Supervisor, Karamay Campus, China University of Petroleum (Beijing).
Teach courses
1. Principles of chemical engineering
2. The process is equipped with a complete set of technology
Research Interests
1. Electrocatalysis
2. Preparation of functional nanoparticles and hydrogels
3. Oil and gas field development
Scientific research projects
1. National Natural Science Foundation of China, Dynamics of Bubble Collision and Water Droplet Rise in Heavy Oil-Gas-Water Three-phase Vertical Pipe Flow, 2022-2024, PI.
2. Autonomous Region Academician "One Matter, One Discussion" Project, Research and Development of Key Technologies for By-product Hydrogen of Efficient and Low-cost Electrolysis of Oily Wastewater, 2024-2026, Principal Investigator.
3. Key R&D Program of Autonomous Region Departments and Departments, Research on CO2 Technology for Improving Oil Flooding and Storage Efficiency in Inefficient Oilfields, 2022-2025, Principal Investigator.
4. Research on the emulsion and phase transfer mechanism and application of refractory high acid value crude oil, 2023-2024, presided over.
5. Xinjiang Uygur Autonomous Region Tianshan Talents-Young Outstanding Scientific and Technological Innovation Talents, Research on Asphaltene Precipitation Law and Inhibition Technology under CO2 Injection in Formation Crude Oil, 2023-2025, Principal Investigator.
6. Xinjiang Uygur Autonomous Region Project, Research on the Motion Wave Propagation Characteristics and Flow Pattern Transformation Mechanism of Low/Ultra-low Interfacial Energy Heavy Oil-Water Vertical Pipe Flow, 2020-2023, PI.
7. Karamay Innovative Talent Special Project, Research on the Law of Multi-field Coupled Emulsion Seepage of Shale Oil and Its Impact Mechanism on Production Capacity, 2020-2021, Principal Investigator.
8. Xinjiang Xinyitong Petroleum Technology Co., Ltd., Method and System for Determining Gas Injection Volume of Heavy Oil Exploitation, Transformation of Patent Achievements, 2023-2028, Principal Investigator.
9. Xinjiang Uygur Autonomous Region Special Equipment Inspection and Research Institute, Research on the fatigue failure mechanism of multiphase unstable flow-induced pressure pipelines, 2021-2024, Principal Investigator.
10. PetroChina Co., Ltd., Research on Efficient Three-dimensional Development of Upper and Lower Desserts and Optimization of Drainage and Production System, 2019-2024, Principal Investigator.
Representative Papers
1�、Liping Huo, Minghui Lv, Mingjin Li, Xuepeng Ni, Jingyu Guan, Jian Liu, Shuxing Mei, Yuqi Yang*, et al. Amorphous MnO2 Lamellae Encapsulated Covalent Triazine Polymer-Derived Multi-Heteroatoms-Doped Carbon for ORR/OER Bifunctional Electrocatalysi[J]. Advanced Materials (IF=29.4), 2024.
2、Yuqi Yang, Zhengchao Xu, Siyu Chen, Haipeng Zhang, Yuequn Fu*, Siqi Liu, Shuxing Mei*, Hang Lv*. Study on The Secondary Flow in T-shaped Pipe with Different Outlet Surface. Physics of Fluids (IF=4.9), 2024.
3�����、E. Zhao, H. Lv, J. Fan, H. P Zhang, S. Wu, Y. Yu, Y. Q Yang*, S.X Mei*. Iron-carbon composite as flow electrode active material for highly efficient electrosorption of uranium from radioactive wastewater. Separation and Purification Technology (IF=8.1), 2024, 354, 128405.
4�����、Y. Ning#, Y. Yang#, D. Shan, S. Mei, Y. Yan, L. Ding and Y. Zhang*, Sulfonic acid-modified MOFs as heterogeneous bifunctional catalysts for ethylene oligomerization at room temperature without cocatalysts. Catal. Sci. Technol., 2024, DOI: 10.1039/D4CY00502C.
5���、H. H Li#, J. Y Guan#, Y. Q Yang#, J. Liu, S.X Mei*, S. S Wang*, Ternary-grafted tarch-based hydrogel with improved adsorption capacity for dyes. ChemCatChem (IF=3.8). 2024, e202401034.
6�、Shiling Zhang, Yuqi Yang*, Jixiang Guo, et al. Temperature-resistant and salt-tolerant mixed surfactant system for EOR in the Tahe Oilfield. Petroleum Science(IF=6.0), 2021.
7�、Yuqi Yang, Matthew D. Biviano, Jixiang Guo, Joseph D. Berry*, Raymond R. Dagastine*. Mass transfer between microbubbles. Journal of Colloid and Interface Science (IF=9.9), 2020, 571, 253-259.
8、Yuqi Yang, Jixiang Guo*, Zijing Yu, et al. A Surfactant for Enhanced Heavy Oil Recovery in High-salt and High-temperature Carbonate Reservoir. Energies, 2020, 20: 320.
9�、Yuqi Yang, Jixiang Guo*, Bo Ren, et al. Oil–Water flow patterns, holdups and frictional pressure gradients in a vertical pipe under high temperature/pressure conditions. Experimental Thermal and Fluid Science, 2019, 100: 217–291.
10、Yuqi Yang, Jixiang Guo*, Zhongfu Cheng, et al. New Composite Viscosity Reducer with Both Asphaltene Dispersion and Emulsifying Capability for Heavy and Ultra–heavy Crude Oils. Energy&Fuels, 2017, 31 (2): 1159–1173.
11���、Jixiang Guo, Yuqi Yang*, Zhang Dengshan, et al. A general model for predicting apparent viscosity of crude oil or emulsion in laminar pipeline at high pressures. Journal of Petroleum Science & Engineering, 2018, (160):12—23.
12���、Jixiang Guo*, Yuqi Yang*, Shuai Zhang, et al. Heavy Oil–Water Flow Patterns in a Small Diameter Vertical Pipe under High Temperature/Pressure Conditions. Journal of Petroleum Science & Engineering���,2018 (17): 1350—1365.
13、Yuqi Yang, Jixiang Guo *, Bo Ren, et al. Study on pressure drop law of high-temperature and high-pressure vertical pipe flow in heavy oil-water phase(稠油-水兩相高溫高壓垂直管流壓降規(guī)律研究 )[J]. Science Technology and Engineering, 2021, 21(6): 02164-08.
14��、Jixiang Guo *, Yuqi Yang, Jiangwei Zhang, et al. Research and application of SDG–3 super-heavy oil composite viscosity reducer(超稠油復(fù)合降黏劑SDG–3的研究和應(yīng)用)[J]. Fine Chemicals, 2017, 34(3): 341–348.
Academic Monographs
Jixiang GUO, Yuqi Yang. Principles and Applications of Heavy Oil Viscosity Reduction Mining Technology(稠油降黏開采技術(shù)原理與應(yīng)用). Beijing:Science Press, 2020.10. ISBN 978-7-03-060808-6. (4.3 million words)
Major Achievements (Patents, Awards, etc.)
1. Yuqi Yang, Haipeng Zhang, et al. A device for simulating the flow of oil-gas-water mixture in an elbow under high temperature and high pressure.( 一種模擬高溫高壓下油氣水混合物在彎管內(nèi)流動的裝置) . National Invention Patent, ZL20211 0482086.6, 2023.04.30.
2. Yuqi Yang, Yan Li,Wei Song, et al. A device for simulating the collision of bubbles and droplets(一種用于模擬氣泡與液滴相互碰撞的裝置). National Invention Patent, ZL202310046999.2, 2023.01.31.
3. Yuqi Yang, Jixiang Guo, Haiyang Zhao, et al. Method and device for characterization of two-phase flow patterns of oil and gas(油氣兩相流動型態(tài)表征方法及裝置). National Invention Patent, ZL201910015725.0, 2019.01.08.
4. Yuqi Yang, Haipeng Zhang, et al. A device and method for observing flow pattern in vertical tube under high temperature and high pressure condition, 2023/00482(South Africa), National Invention Patent, 2022.07.08.
5. Yuqi Yang, Jixiang Guo, Ruiying Xiong, et al. Method and system for determining gas injection volume in heavy oil extraction(稠油開采注氣量的確定方法及系統(tǒng)). National Invention Patent, ZL201910016376.4, 2019.01.08.
6. Jixiang Guo, Yuqi Yang, Haiyang Zhao, et al. A high-temperature and high-pressure wellbore simulation device(一種高溫高壓井筒模擬裝置). National Invention Patent, ZL201410852548.9.
7. Jixiang Guo, Yuqi Yang,Guoguo Yang, et al. On-line viscosity detection device and method for high-temperature and high-pressure oil-water mixed fluid(高溫高壓油水混合流體在線粘度檢測裝置及方法). National Invention Patent, ZL201710021310.5.
Get Rewarded
1. Technology Invention Award of China Petroleum and Chemical Automation Industry Association, first prize, ranked 1st, 2024; (First Prize at Provincial and Ministerial Level)
2. "A high-temperature and high-pressure wellbore simulation device" won the Excellence Award of the Patent Award of China Petrochemical Federation, provincial and ministerial level, ranked 2nd, 2020.
3. Instructed students to win the first prize of the 12th National Process Equipment Practice and Innovation Competition, Excellent Instructor, 2022.
Contact
E-mail:yuqiyang@cupk.edu.cn
Office phone:0990-6633315
