當前位置: 油氣田化學研究所
楊紅斌 副教授
作者: 發布者:趙小明 發布時間:2022-07-25 訪問次數:8038
»姓名:楊紅斌 »職稱:副教授

»單位:油氣田化學研究所 »最高學曆/學位:博士/博士後
»學科:油氣田開發工程學科,石油與天然氣工程領域 »所學專業:油氣田開發工程
»電子郵箱:hongbinyang@upc.edu.cn
»聯係電話:18663938523
»地址郵編:山東省青島市經濟技術開發區長江西路66號工科樓E座2017, 266580
»個人主頁:
學習與工作經曆
2006.9-2010.6,中國石油大學(華東),石油工程,學士;
2010.9-2013.6,中國石油大學(華東),油氣田開發工程,碩士;
2013.9-2016.6,中國石油大學(北京),油氣田開發工程,博士;
2016.8-2018.7,中國石油大學(華東),石油與天然氣工程博士後流動站,師資博士後;
2018.7-2021.12,Betway88必威 ,油氣田化學研究所,講師。
2021.12-至今,Betway88必威 ,油氣田化學研究所,副教授。

研究方向
(1)多尺度功能型凝膠顆粒(PPG、聚合物微球等)研發及應用
(2)裂縫性/非均質油藏多功能凝膠/凍膠體係研發及應用
(3)稠油冷采降黏劑體係研發及應用
(4)CCUS防竄封竄調堵劑研發及應用
(5)苛刻油氣藏超分子功能聚合物研發及應用
(6)非常規油氣藏壓裂液體係研發及應用
(7)多維多尺度岩心物理模擬實驗及油田化學劑滲流及作用機理研究

學術/專業碩士研究生招生方向:石油與天然氣工程(04油氣田化學與提高采收率技術、02油氣開采工程理論與技術、07非常規地質能源開發工程理論與技術)

學術兼職
1、SPE和中國化學會會員;
2、《非常規油氣》、《新疆石油天然氣》期刊青年編委;
3、擔任《SPE Journal》、 《Petroleum Science》、《Fuel》、 《Industrial & Engineering Chemistry Research》、《Journal of Natural Gas Science and Engineering》、《Journal of Petroleum Science and Engineering》、《Colloids and Surfaces A: Physicochemical and Engineering Aspects》等20餘個SCI期刊審稿人;
4、擔任《石油鑽探技術》、《日用化學工業》等國內核心期刊審稿人。

主講課程
《Principles and Methods for Enhanced Oil Recovery》 留學生研究生課程

指導研究生
指導碩士研究生2人,作為副導師指導博士研究生1人、協助指導碩士研究生3人。

2020級:周博博(副導師)、王佳琦(協助)
2021級:呂誌琦、徐喆、沈靜靜(協助)、王華正(協助)、寧長元(協助)、郝繼婷(協助)

歡迎具有石油工程、化學、材料等相關專業背景的學生加盟!

承擔科研課題
(1)末端主客識別型速溶聚合物設計合成及其超分子體係黏度剪切調控機製,國家自然科學基金青年基金(52104055),2022-2024,主持;
(2)高效耐鹽兩親聚合物超分子包合驅油體係增效方法及作用機理 (52130401) ,國家自然科學基金重點項目,2022~2026,子課題長;
(3)納米材料與石油能源領域高校科研合作項目,科技部國家級外專項目,2020-2021,主持;
(4)低滲油藏可控功能聚合物納球穩定CO2泡沫機製研究(ZR2021ME171),山東省自然科學基金,2022-2024,主持;
(5)低滲油藏CO2驅封竄用耐鹽抗溫兩親聚合物/納米顆粒複合凝膠的研發及應用研究(2019GGX102074),山東省重點研發計劃,2019-2021,主持;
(6)示蹤型熒光聚合物微球與油藏多孔介質的匹配作用機製研究(ZR2017LEE001),山東省自然科學基金,2017-2019,主持;
(7)采用熒光聚合物微球研究其與油藏的匹配機製及驅油機理(2017M612378),中國博士後科學基金,2017-2018,主持;
(8)耐溫型超長碳鏈季銨鹽清潔壓裂液粘控方法及機理研究(201702026),山東省博士後基金,2017-2019,主持;
(9)高溫高鹽低滲裂縫性油藏CO2驅防竄及封堵體係研究與應用(2016222),青島市博士後資助項目,2016-2018,主持;
(10)稠油自乳化複合冷采驅油體係構築及作用機理研究,教育部重點實驗室開放課題,2020-2021,主持
(11)耐溫抗鹽納米顆粒/兩親聚合物複合凝膠研製及其CO2驅封竄機製研究(18CX05013A),自主創新科研計劃項目(理工科),2018-2020,主持;
(12)納米SiO2聚合物功能微球的研製及其與油藏的匹配作用機製研究(YJ201601088),學校項目(人才引進),2017-2019,主持;
(13)吉林油田CO2驅氣竄封堵材料性能測試及油藏適應性評價,中石油課題,2022-2023,主持;
(14)不同複合驅體係對驅油效率與波及係數的影響規律實驗測試,中石化課題,2017-2018,主持;
(15)活性功能聚合物結構表征與調驅效果測試,中石化課題,2020-2021,主持;
(16)化學劑的結構及微觀致效機理表征測試,中石化課題,2019-2020,主持;
(17)聚合物微球滲流及調驅性能研究,安徽省重點研發計劃子課題,2020-2021,主持;
(18)一種SiO2增強型聚合物微球製備方法,專利轉化課題,2020-2023,主持;
(19)渤海注聚井區堵塞機理研究,中海油課題,2018-2019,主持;
(20)低濃度兩親聚合物驅油體係增效方法與機理研究(51774309),國家自然科學基金麵上項目,2018-2021,技術骨幹;
(21)低滲高溫油藏超分子清潔壓裂液的粘控機理及應用研究(2018GGX102010),山東省重點研發計劃,2018-2019,技術骨幹;
(22)防竄泡沫體係及封堵材料研發,中石油課題,2016-2017,技術骨幹;
(23)綏中36-1油田非均衡注聚提高采收率研究,中海油課題,2016-2017,技術骨幹;
(24)隴東地區原油低溫破乳劑配方研究,中石油課題,2015-2016,技術骨幹;
(25)非均相粘彈體複合驅油技術研究,中石油課題,2013-2014,技術骨幹;
(26)延長油田低滲/特低滲/致密油藏高效開發關鍵技術創新研究,延長油田課題,2021-2022,技術首席;
(27)黃3區CO2驅氣竄防治在線用堵劑研發評價,中石油課題,2020-2021,技術骨幹;
(28)油水流度控製提高水驅稠油油藏采收率機製研究,中石化課題,2020-2021,技術首席;
(29)三維岩心驅替實驗,中石油課題,2020-2021,技術骨幹;
(30)耐溫耐鹽降黏劑室內研究及降黏劑試驗方案,中石油課題,2020-2021,技術骨幹。

獲獎情況
1、2021年,中國發明協會發明創新獎二等獎,高溫高鹽低滲稠油油藏調驅關鍵化學劑與工業化應用,排名2;
2、2021年,中國石油和化工自動化應用協會科技進步一等獎,低滲透油藏CO2驅油注采工程技術與應用,排名6;
3、2020年,中國石油和化工自動化應用協會科技進步一等獎,裂縫性低滲砂岩油藏液流控製關鍵技術及規模應用,排名5;
4、2020年,青島市科技進步二等獎,苛刻油藏超分子粘彈性流體調驅關鍵技術與工業化應用,排名2;
5、2018年,學校研究生教學成果獎一等獎,排名6;
6、2018年,中國化學會第31屆學術年會優秀牆報獎,排名1。


指導學生獲獎:
2021.8,山東省“互聯網+”大學生創新創業大賽金獎(朱彤宇、周博博、趙晗等)
2018.11,首屆“能源·智慧·未來”全國大學生創新創業大賽一等獎(侯小雨)
2022.5,第十二屆中國石油工程設計大賽成功參賽獎(王華正、寧長元)
2018.12,學校“未來杯”青創賽二等獎(周博博)
2017.9,全國大學生石油科技創新創業大賽三等獎(王鵬祥)
2019.6,學校優秀本科畢業設計(蔣海壯)
2021.6,學校優秀本科畢業設計(徐喆)

榮譽稱號
山東省優秀畢業生;
山東省大中專學生誌願者暑期“三下鄉”社會實踐優秀學生;
中國石油大學(北京)優秀畢業生。

著作
1. 論文集《油田化學新進展》,中國石油大學出版社,2021年12月,副主編;
2. 論文集《油田化學新進展》,中國石油大學出版社,2018年11月,編委;
3. 論文集《中國化學會第十六屆膠體與界麵化學會議論文集》,中國石油大學出版社,2017年7月,編委。

論文
發表期刊學術論文100餘篇,其中以第1或通訊作者發表SCI論文38篇。

1.Hongbin Yang*, Hongwen Zhang, Wangang Zheng, Xinxin Li, Fang Wang, Xiaojun Li, Dandan Zhang, Sarsenbek Turtabayev, Wanli Kang. Research on synthesis and salt thickening behavior of a binary copolymer amphiphilic polymer[J]. Journal of Petroleum Science and Engineering,2021,204:108713.
2.Hongbin Yang*, Bobo Zhou, Tongyu Zhu, Pengxiang Wang, Xiangfeng Zhang, Tongyu Wang, Feipeng Wu, Liang Zhang, Wanli Kang, Yulia A. Ketova,Sergey V. Galkine. Conformance control mechanism of low elastic polymer microspheres in porous medium [J]. Journal of Petroleum Science and Engineering, 2021, 196:117708.
3.Hongbin Yang, Leilei Hu*,Chao Chen,Han Zhao,Pengxiang Wang,Tongyu Zhu,Tongyu Wang,Liang Zhang,Haiming Fan,Wanli Kang*. Influence mechanism of fluorescent monomer on the performance of polymer microspheres[J]. Journal of Molecular Liquids, 2020, 308: 113081.
4.Hongbin Yang*, Hongwen Zhang, Wangang Zheng, Bobo Zhou, Han Zhao, Xinxin Li, Liang Zhang, Zhou Zhu, Wanli Kang*, Yulia A. Ketova, Sergey V. Galkin. Effect of hydrophobic group content on the properties of betaine-type binary amphiphilic polymer [J]. Journal of Molecular Liquids, 2020, 311: 113358.
5.Hongbin Yang, Shuo Shao, Tongyu Zhu, Chao Chen, Shuren Liu, Bobo Zhou, Xiaoyu Hou, Yang Zhang, Wanli Kang*. Shear resistance performance of low elastic polymer microspheres used for conformance control treatment[J]. Journal of Industrial and Engineering Chemistry, 2019, 79: 295-306.
6.Hongbin Yang*, Wanli Kang*, Yang Yu, Xia Yin, Pengxiang Wang, Xiangfeng Zhang. A new approach to evaluate the particle growth and sedimentation of dispersed polymer microsphere profile control system based on multiple light scattering[J]. Powder Technology, 2017, 315:477-485.
7.Hongbin Yang*, Wanli Kang*, Xia Yin, Xuechen Tang, Shuyang Song, Zeeshan Ali Lashari, Baojun Bai, Bauyrzhan Sarsenbekuly. Research on matching mechanism between polymer microspheres with different storage modulus and pore throats in the reservoir[J]. Powder Technology, 2017, 313:191-200.
8.Hongbin Yang*, Hongwen Zhang, Wangang Zheng, Xinxin Li, Fang Wang, Xiaojun Li, Dandan Zhang, Sarsenbek Turtabayev, Wanli Kang. Research on synthesis and salt thickening behavior of a binary copolymer amphiphilic polymer [J]. Journal of Petroleum Science and Engineering, 2021, 204:108713.
9.Hongbin Yang*, Bobo Zhou, Tongyu Zhu, Pengxiang Wang, Xiangfeng Zhang, Tongyu Wang, Feipeng Wu, Liang Zhang, Wanli Kang, Yulia A. Ketova, Sergey V. Galkine. Conformance control mechanism of low elastic polymer microspheres in porous medium [J]. Journal of Petroleum Science and Engineering, 2021, 196:107708.
10.Hongbin Yang, Muhammad Waseem Iqbal, Zeeshan Ali Lashari, Changxiao Cao, Xuechen Tang, Wanli Kang*. Experimental research on amphiphilic polymer/organic chromium gel for high salinity reservoirs[J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2019, 582: 123900.
11.Hongbin Yang, Leilei Hu*, Xuechen Tang, Yongbo Gao, Shuo Shao, Xiangfeng Zhang, Pengxiang Wang, Zhou Zhu and Wanli Kang*. Preparation of a fluorescent polymer microsphere and stability evaluation of its profile control system by a fluorescence stability index[J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2018, 558:512-519.
12.Hongbin Yang*, Leilei Hu, Chao Chen, Yongbo Gao, Xuechen Tang, Xia Yin and Wanli Kang*. Synthesis and plugging behavior of fluorescent polymer microspheres as a kind of conformance control agent in reservoirs[J]. RSC Advances, 2018, 8(19): 10478-10488.
13.Hongbin Yang*, Wanli Kang*, Xuechen Tang, Yongbo Gao, Zhou Zhu, Pengxiang Wang, Xiangfeng Zhang. Gel kinetic characteristics and creep behavior of polymer microspheres based on bulk gel[J]. Journal of Dispersion Science and Technology, 2018, 39 (12) :1808-1819.
14.Hongbin Yang*, Wanli Kang*, Hairong Wu, Yang Yu, Zhou Zhu, Pengxiang Wang, Xiangfeng Zhang, Bauyrzhan Sarsenbekulyb. Stability, rheological property and oil-displacement mechanism of a dispersed low-elastic microsphere system for enhanced oil recovery[J]. RSC Advances, 2017, 7, 8118-8130
15.Wanli Kang*, Tongyu Wang, Hongwen Zhang, Xiaoyu Hou, Xiangfeng Zhang, Tongyu Zhu, Chao Chen, Hongbin Yang*. A dynamic scale location monitor method to predict oilfield blockage during water flooding[J]. Journal of Petroleum Science and Engineering, 2020, DOI: 10.1016/j.petrol.2020.107168.
16.Xuechen Tang, Wanli Kang*, Bobo Zhou, Yongbo Gao, Changxiao Cao, Shujun Guo, Muhammad Wassem Iqbal, Hongbin Yang*. Characteristics of composite microspheres for in-depth profile control in oilfields and the effects of polymerizable silica nanoparticles[J]. Powder Technology, 2020, 359: 205-215.
17.Han Zhao, Wanli Kang*, Hongbin Yang*, Hongwen Zhang, Tongyu Zhu, Fang Wang, Xinxin Li, Bobo Zhou, Bauyrzhan Sarsenbekuly, Saule Aidarova, Kenzhebek Ibrashev. Imbibition enhancing oil recovery mechanism of the two surfactants[J]. Physics of Fluids, 2020, 32(4): 047103.
18.Xuechen Tang, Bobo Zhou, Chao Chen, Bauyrzhan Sarsenbekuly, Hongbin Yang*, Wanli Kang*. Regulation of polymerizable modification degree of nano-SiO2 and the effects on performance of composite microsphere for conformance control[J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2020, 585: 124100.
19.Xiangfeng Zhang, Xiuhua Shan, Fang Wang, Hongbin Yang*, Bobo Zhou, Haizhuang Jiang, Wanli Kang*, Bauyrzhan Sarsenbekuly. Effect of aging time on the viscoelastic properties of amphiphilic polymer-polyacid supramolecular solution[J]. Physics of Fluids, 2020, 32: 023101.
20.Xiangfeng Zhang, Hongbin Yang*, Pengxiang Wang, Tongyu Zhu, Tongyu Wang, Chao Chen, Fang Wang, Wanli Kang*. Construction and thickening mechanism of amphiphilic polymer supramolecular system based on polyacid[J]. Journal of Molecular Liquids, 2019, 286: 110921.
21.Wanli Kang*, Hongwen Zhang, Yao Lu, Hongbin Yang*, Tongyu Zhu, Xiangfeng Zhang, Chao Chen, Bauyrzhan Sarsenbekuly, Ospanova Z. Besembaevna. Study on the enhanced viscosity mechanism of the cyclodextrin polymer and betaine-type amphiphilic polymer inclusion complex[J]. Journal of Molecular Liquids, 2019, 296: 111792.
22.Wanli Kang, Tongyu Zhu, Pengxiang Wang, Xiaoyu Hou, Yilu Zhao, Xiangfeng Zhang, Hongbin Yang*. A pH-responsive anionic wormlike micelle based on ion release effect of phosphate[J]. Journal of Molecular Liquids, 2019, 286: 110946.
23.Wanli Kang*, Xiaoyu Hou, Pengxiang Wang, Yilu Zhao, Tongyu Zhu, Chao Chen, Hongbin Yang*. Study on the effect of the organic acid structure on the rheological behavior and aggregate transformation of a pH-responsive wormlike micelle system [J]. Soft Matter, 2019, 15(15): 3160-3167.
24.Wanli Kang, Xiaoyu Hou, Chao Chen, Shuo Shao, Xiangfeng Zhang, Tongyu Zhu, Tongyu Wang, Hongbin Yang*. Study on rheological behavior and salt-thickening mechanism of a synthesized twin-tailed hydrophobically modified polyacrylamide[J]. Journal of Molecular Liquids, 2019, 294: 111619
25.Pengxiang Wang, Tongyu Zhu, Xiaoyu Hou, Yilu Zhao, Xiangfeng Zhang, Hongbin Yang*, Wanli Kang*. Responsive morphology transition from micelles to vesicles based on dynamic covalent surfactants[J]. Soft Matter, 2019, 15(12): 2703-2710.
26.Pengxiang Wang, Tongyu Zhu, Xiaoyu Hou, Yilu Zhao, Xiangfeng Zhang, Tongyu Wang, Hongbin Yang*, Wanli Kang*. Responsive wormlike micelle with pH-induced transition of hydrotrope based on dynamic covalent bond[J]. Journal of Molecular Liquids, 2019, 286: 110935.
27.Wanli Kang, Changxiao Cao, Shujun Guo, Xuechen Tang, Zeeshan Ali Lashari, Yongbo Gao, Xiangfeng Zhang, Muhammad Waseem Iqbal, Hongbin Yang*. Mechanism of silica nanoparticles' better-thickening effect on amphiphilic polymers in high salinity condition [J]. Journal of Molecular Liquids, 2019, 277: 254-260.
28.Wanli Kang*, Yongbo Gao, Xuechen Tang, Changxiao Cao, Leilei Hu, Hongbin Yang*. Polymer concentration detection method based on fluorescent polymer to evaluate its retention and percolation[J]. Journal of Applied Polymer Science, 2019 ,136 (19)
29.Zeeshan Ali Lashari, Hongbin Yang*, Zhou Zhu, Xuechen Tang, Changxiao Cao, Muhammad Waseem Iqbal, Wanli Kang*. Experimental research of high strength thermally stable organic composite polymer gel[J]. Journal of Molecular Liquids, 2018, 263:118-124.
30.Xuechen Tang, Hongbin Yang*, Yongbo Gao, Zeeshan Ali Lashari, Changxiao Cao, Wanli Kang*. Preparation of a micro-size silica-reinforced polymer microsphere and evaluation of its properties as a plugging agent[J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2018, 547:8-18.
31.Wanli Kang*, Xia Yin, Hongbin Yang*, Yilu Zhao, Zitong Huang, Xiaoyu Hou, Bauyrzhan Sarsenbekuly, Zhou Zhu, Pengxiang Wang, Xiangfeng Zhang, Jie Geng, Saule Aidarova. Demulsification performance, behavior and mechanism of different demulsifiers on the light crude oil emulsions[J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2018,545:197-204.
32.Wanli Kang, Yilu Zhao, Pengxiang Wang, Zhe Li, Xiaoyu Hou, Zitong Huang, Hongbin Yang*. Rheological behavior and mechanism of pH-responsive wormlike micelle variations induced by isomers of phthalic acid[J]. Soft matter, 2018, 14(22): 4445.
33.Pengxiang Wang, Wanli Kang, Shujie Tian, Xia Yin, Yilu Zhao, Xiaoyu Hou, Xiangfeng Zhang, Hongbin Yang*. A responsive anionic wormlike micelle using pH-directed release of stored sodium based on the polybasic acids[J]. Soft Matter, 2018, 14(24): 5031.
34.Zhou Zhu, Wanli Kang*, Hongbin Yang*, Pengxiang Wang, Xiangfeng Zhang, Xia Yin, Lashari Zeeshan Ali. Study on salt thickening mechanism of the amphiphilic polymer with betaine zwitterionic group by beta-cyclodextrin inclusion method[J]. Colloid and Polymer Science, 2017, 295(10):1887-1895.
35.Xia Yin, Wanli Kang*, Yilu Zhao, Jing Liu, Hongbin Yang*, Caili Dai, Bauyrzhan Sarsenbekuly, Saule Aidarova, Lihua Yang, Huiying Yuan, Junling Tan. Study on the indigenous stabilization mechanism of light crude oil emulsions based on an in situ solvent-dissolution visualization method[J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2017, 530:155-163.
36.Bauyrzhan Sarsenbekuly, Wanli Kang*, Bin Yu, Hongbin Yang*, Saule B.Aidarova. Evaluation of Rheological Properties of a Novel Thermoviscosifying Functional Polymer for Enhanced Oil Recovery[J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2017, 532:405-410.
37.Pengxiang Wang, Wanli Kang*, Hongbin Yang*, Xia Yin, Yilu Zhao, Zhou Zhu, Xiangfeng Zhang. PH-Responsive wormlike micelles based on microstructural transition in a C22-tailed cationic surfactant-aromatic dibasic acid system[J]. RSC Advances, 2017, 7:37699-37705.
38.Pengxiang Wang, Wanli Kang*, Hongbin Yang*, Yilu Zhao, Xia Yin, Zhou Zhu, Xiangfeng Zhang. The N-allyl substituted effect on wormlike micelles and salt tolerance of a C22-tailed cationic surfactant[J]. Soft Matter, 2017, 13(40): 7425-7432.

專利
申請國家發明專利42項,已授權22項。

1. 一種SiO2增強型聚合物微球製備方法,專利號:ZL201710879614.5,排名第1;
2. 一種鹽增黏水溶性兩親聚合物驅油劑,專利號:ZL201710086348.0,排名第1;
3. 一種甜菜堿型兩親聚合物超分子驅油體係及其構築方法,專利號:ZL201810031356.X,排名第1;
4. 基於本體膠的微球粘彈性測量方法,專利號:ZL201510179818.9,排名第2;
5. 用於調驅的低彈性微球和含其的複合調驅體係及調驅方法,專利號:ZL201510640200.8,排名第2;
6. 一種基於聚合物微球與兩親聚合物的多相CO2穩定泡沫體係及製備方法,專利號:ZL201710942599.4,排名第1;
7. 一種可調控粘彈性超分子清潔壓裂液體係及其製備方法,專利號:ZL201711101539.6,排名第1;
8.一種耐高鹽的粘彈性表麵活性劑清潔壓裂液及其製備方法,專利號ZL201910104260.6,,排名第1;
9. 一種陽離子兩親聚合物超分子驅油體係及其構築方法,專利號:ZL201810031610.6,排名第1;
10. 有機無機複合驅油劑、有機無機複合驅油體係及製備方法和應用,專利號:ZL201810541834.1,排名第1;
11. 調剖堵水劑及應用、調剖堵水體係及其製備方法和應用,專利號:ZL201810543050.2,排名第1;
12. 一種雙季銨鹽長鏈結構的兩親聚合物驅油劑及其製備方法,專利號:ZL2018114347133,排名第1;
13. 適用於低滲裂縫性二氧化碳驅油藏的凝膠顆粒及調剖劑和製備方法與應用,專利號:ZL202010102073.7,排名第1;
14. 一種油田含聚堵塞物模型及其製備方法,專利號:ZL202010495246.6,排名第1;
15. 一種小分子稠油降粘聚合物及其製備方法,專利號:ZL202011367550.9,排名第1;
16. 一種pH值響應型三元複合超分子清潔壓裂液,專利號:ZL202110551754.6,排名第4;
17. 一種溫增黏型活性聚合物降黏劑及其製備方法與應用,專利號:ZL202110484000.3,排名第3;
18. 一種易溶型鹽增黏兩親聚合物驅油劑及其製備方法,專利號:ZL201811236729.3,排名第10;
19. 一種鏈轉移劑、其製備方法及應用,專利號:ZL201910673062.1,排名第3;
20. 一種末端功能改性的低分子量聚合物及其製備方法,專利號:ZL201910672197.6,排名第3;
21. 一種單液法無機沉澱型堵劑、其製備方法及其用途,專利號:ZL201711107850.1,排名第7;
22. pH響應型驅油劑組合物、驅油劑及其製備方法和應用,專利號:ZL202011353845.0,排名第6。
23. 一種兩親聚合物黏均分子量的測定方法,申請號:2022108014204,排名第1;
24. 一種篩板旋轉式的乳化裝置及其乳化方法,申請號:201810036019.X,排名第1;
25. 一種輕質原油乳狀液穩定物質的測定方法,申請號:201910082890.8,排名第1;
26. 一種活塞式的原油/水乳化裝置及乳化方法,申請號:201910516630.7,排名第1;
27. 一種緩交聯主客體包合凝膠深部調驅劑及其製備方法、應用,申請號:202010101970.6,排名第1;
28. 粉煤灰/兩親聚合物複合凝膠調剖劑、製備方法和應用,申請號:202011146552.5,排名第1;
29. 一種耐溫型稠油降黏聚合物及其製備方法和應用,申請號:202011624525.4,排名第1;
30. 一種粘彈性表麵活性劑泡沫體係及其製備方法和應用,申請號:202110615210.1,排名第4;
31. 一種兼具粘彈性和超低界麵張力的超分子驅油體係及應用,申請號:202110431726.0,排名第3;
32. 一種基於納米纖維素的乳狀液及其製備方法和應用,申請號:202110455074.4,排名第3;
33. 一種適用於低滲致密油藏的可降解壓裂液驅油劑及其製備方法與應用,申請號:202110752982.X,排名第4;
34. 一種固體防垢塊及其製備方法,申請號:202110529440.6,排名第7;
35. 一種驅油劑組合物、驅油劑及其製備方法和應用,申請號:202011359759.0,排名第8;
36. 一種固體瀝青質抑製劑及其製備方法與應用,申請號:202011332452.1,排名第8;
37. 一種含醇壓裂液及其製備方法和應用,申請號:202011327697.5,排名第7;
38. 一種乳液型沉澱調剖劑及其製備方法與應用,申請號:202011185063.0,排名第8;
39. 基於衝刷溶解的固體防垢塊井下投放壽命預測方法,申請號:202010894176.1,排名第8;
40. 基於溶解擴散的固體防垢塊井下投放壽命預測方法,申請號:202010894178.0,排名第8;
41. 一種分離式高能氣體壓裂裝置及壓裂方法,申請號:20207.5,排名第6;
42. 一種雙烷基脲型超分子稠化劑及其製備方法和應用,申請號:202010773181.7,排名第7。

學術交流
(1)第三屆油田化學國際會議,2021.12,青島.(會議組織者、分會場主持人)
(2)第二屆中哈納米材料與石油能源國際研討會,2021.12,青島.(會議組織者、分會場主持人、口頭報告)
(3)中哈納米材料與石油能源國際研討會,2019.12,青島.(會議組織者)
(4)能源與石油領域膠體納米技術國際研討會,2019.10,青島.(會議組織者)
(5)第三屆油田化學國際會議,2018.6,青島.(會議組織者)
(6)8th International Colloids Conference,2018.06,上海.(牆報)
(7)中國化學會第31屆學術年會, 2018.05,杭州. (牆報)
(8)The 5th Global Conference on Polymer and Composite Materials (PCM 2018),2018.04, Kitakyushu, Japan. (口頭報告)
(9)中國化學會第16屆膠體與界麵化學會議, 2017.07,青島. (會議組織者)
(10)2017 SPE-KSA Annual Technical Symposium & Exhibition (ATS&E), Dammam, Saudi Arabia, 2017.04, (牆報)
(11)21st International Symposium on Surfactants in Solution (SIS2016), 2016.06. Jinan, China. (口頭報告)
(12)2015 International Conference on Enhanced Oil Recovery(EOR2015), 2015.08. Chicago, U.S.A.(優秀口頭報告一等獎)
(13)中國化學會第15屆膠體與界麵化學會議, 2015.07,武漢.
(14)第12屆全國流變學學術會議, 2014.12,廣州.(口頭報告)
(15)6th Pacific Rim Conference on Rheology(PRCR6), 2014.07. Melbourne, Australia.(牆報)
(16)2014 International Conference on Enhanced Oil Recovery(EOR2014), 2014.06. Beijing, China(優秀口頭報告三等獎)

個人風采
楊紅斌(1987-),副教授,山東濱州人,博士(後),碩士生導師、博士生副導師。主要從事采油化學與提高采收率方向的教學和科研工作。近年來主持或參與國家自然科學基金、山東省重點研發計劃、中國博士後基金等項目30項;發表論文100餘篇,其中以第1或通訊作者發表SCI論文38篇;申請國家發明專利42項,已授權22項;獲省部級科技獎勵2項。歡迎石油工程、化學、材料等方向的同學報考研究生。