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姚传进教授简介

发表时间:2024-01-10 11:00

» 姓名:姚传进

» 职称:

姚传进形象照.jpg

» 单位:油气藏工程研究所

» 最高学历/学位 :博士研究生

» 学科:油气田开发工程学科,石油与天然气工程领域

» 所学专业 :油气田开发工程

» 电子邮箱:cy375@upc.edu.cn,ycj860714@163.com

» 联系电话:+86-15165283060

» 地址邮编:山东省青岛市黄岛区长江西路66号(266580)

» 个人主页:http://121.251.254.8/expert2.asp?ID=193


学习与工作经历

2004.09-2008.07,中国石油大学(华东),石油工程,学士

2008.09-2014.12,中国石油大学(华东),油气田开发工程,博士

2013.09-2014.09,康奈尔大学,生物与环境工程,访问学者

2015.01-2016.11,中国石油大学(华东),石油工程学院,力学,博士后

2016.12-2017.11,中国石油大学(华东),石油工程学院,油气藏工程研究所,讲师

2017.12-2019.12,中国石油大学(华东),石油工程学院,油气藏工程研究所,副教授、硕士生导师

2020.01-2022.11,中国石油大学(华东),石油工程学院,油气藏工程研究所,特任教授、光华学者、博士生导师

2022.12-至     今,中国石油大学(华东),石油工程学院,油气藏工程研究所,教授、光华学者、博士生导师

2021.09-     今,中国石油大学(华东),石油工程学院,石油与天然气工程系,系主任


研究方向

1、油气渗流理论与方法

2、非常规油气藏开发方法与技术

3、地下资源原位转化理论与方法

4、高含水油藏开发方法与提高采收率技术

5、智能油气田开发理论与方法

6、地下储碳储能理论与方法


博士、硕士招生专业:石油与天然气工程、油气田开发工程

培养方向:1)渗流理论与油气藏开发工程;2)非常规地质能源开发工程理论与技术;3)地下储碳储能理论与技术


欢迎石油工程、油气田开发工程、岩石力学、流体力学、计算数学等学科专业同学报考博士和硕士研究生!


学术兼职

1、《Petroleum Science》青年编委

2、《中国石油大学学报》青年编委

3、《非常规油气》编委

4、中国工程教育认证现场考查专家组秘书

5、教育部本科教育教学评估专家

6、国家自然科学基金项目评审专家

7、中国石油科技创新基金评审专家

8、山东省重点研发计划项目评审专家

9、山东省自然科学基金项目评审专家

10、中国能源学会专家委员会委员

11、担任30余种重要学术期刊审稿人

SCI期刊:《Petroleum Exploration and Development》《Environmental Science & Technology》《Chemical Engineering Journal》《AIChe Journal》《SPE Journal》《Fuel》《Energy》《Applied Energy》《Journal of Molecular Liquids》《Journal of Industrial and Engineering Chemistry》《Energy & Fuels》《Industrial & Engineering Chemistry Research》《Journal of Petroleum Science and Engineering》《Transport in Porous Media》《Journal of Nanoparticle Research》《Journal of Applied Polymer Science》《ACS Omega》《Scientific Reports》《Journal of Dispersion Science and Technology》《Petroleum Science and Technology》《Case Studies in Thermal Engineering》等

其他期刊:《石油学报》《中国石油大学学报(自然科学版)》《Advances in Geo-Energy Research》《中国科学》《福州大学学报》等


主讲课程

课堂教学(必修)《渗流力学》《油藏工程》《油气智能基础》《智能油气藏工程》《新生研讨课》《油气田开发工程》

实践教学必修):《认识实习》《专业实习》《石油工程综合设计》《智能油气工程创新与实践》


指导研究生

博士研究生:

2014级:马 鑫

2016级:郑 洋

2018级:达祺安

2020级:葛 娇、孟凡怡

2021级:刘栢硕、赵 

2022级:刘雅倩、宋雨媛

2023级:周依然

2024级:刘志城


硕士研究生:

2014级:王 丹、李 姿

2015级:王 娜、王志惠

2016级:路淇安

2017级:达祺安(硕博连读)、宋 萍、张 鑫、王 龙

2018级:褚程程、朱乐乐、詹广贤

2019级:刘栢硕(硕博连读)、张何星

2020级: (硕博连读)、孟祥祥、程天祥、曲晓欢、 喆、祁佳龙、胡峻玮

2021级:刘雅倩(硕博连读)、徐 良、马远博、狄天远、徐豪爽

2022级:周依然(硕博连读)、张秀晴、陈 楠、宣洋洋、李催芳

2023级:杨慧超、张 琪、厚景轩、朱家卫

2024级:杜昕鸽、周 昶、刘志城(本科直博)、程喜琨

2025级:黄兴恒(本研)、钟嘉麒(本研)


承担科研课题

(一)纵向项目

1、国家自然科学基金联合基金项目,中低成熟度陆相页岩油资源形与原位转化开采机理,2023-2026,主研

2、国家自然科学基金面上项目,油页岩催化剂辅助注蒸汽原位开采方法及机理研究,2020-2023,主持

3、光华学者拔尖人才计划项目,低品位难动用油气资源开发理论与方法研究,2020-2024,主持

4、中石油重大科技项目课题,深层缝洞型碳酸盐岩油气藏开采机理及提高采收率技术研究,2019-2023,主研

5、山东省重点研发计划项目,油页岩催化剂辅助注蒸汽原位开采应用基础研究,2019-2021,主持

6、山东省重点研发计划(软科学)项目,我国页岩油原位转化开采技术发展策略研究,2019-2021,主持

7、非常规油气开发教育部重点实验室开放基金,纳米磁流体强化界面的量化表征及其对致密油排驱的调控机制,2019-2021,主持

8、山东省青年科技人才托举工程项目,油藏渗流与生产智能优化,2018-2021,主持

9、学院青年学术拔尖人才计划项目,油藏渗流与生产智能优化,2018-2021,主持

10、青岛西海岸新区紧缺人才计划项目,油藏渗流与生产智能优化,2016-2019,主持

11、国家自然科学基金面上项目,非常规致密储层压裂液伤害的微生物修复方法及机理研究,2019-2022,主研

12、国家自然科学基金青年项目,基于LBM-IBM-DEM的微纳米弹性微球微观渗流的耦合模型及数值模拟,2017-2019,主持

13、国家科技重大专项课题,平面分区均衡动用主控因素及优化调控方法研究,2016-2020,主研

14、国家科技重大专项课题,海上油田全过程提高采收率模式与优化研究,2016-2020,主研

15、山东省自然科学基金面上项目,微生物修复非常规油气储层压裂液伤害的应用基础研究,2017-2020,主研

16、山东省自然科学基金青年项目,多孔介质中微纳米弹性微球渗流的流固耦合模拟研究,2016-2018,主持

17、中石化科技计划项目,整装油田特高含水期流场调控优化方法研究,2016-2019,主研

18、中国博士后科学基金特别资助项目,基于LBM-IBM-DEM的微纳米弹性微球微观渗流模拟研究,2015-2017,主持

19、中国博士后科学基金一等资助项目,多孔介质中聚合物弹性微球微观渗流机理研究,2015-2017,主持

20、青岛市科技计划项目,非常规致密储层压裂液污染的微生物解除方法及机理研究,2017-2019,主持


(二)横向项目

1、长庆油田分公司第四采气厂,致密砂岩气藏提高采收率试验区开发效果评价,2024-2025,主持

2、中海油田服务股份有限公司,复合生物降解体系分析模拟优化研究,2024-2025,主持

3、中海油能源发展股份有限公司,基于流场调控和数值反演的堵水体系评价,2023-2024,主持

4、中石油CCUS重大专项课题,CO2驱井网技术经济综合评价方法研究,2022-2024,主持

5、中石油勘探开发研究院,不同类型页岩油动态强制渗吸实验,2022-2023,主持

6、中海油天津分公司,渤中34-24油田渤中34-3区块东营组剩余油分布规律及提高采收率研究,2022-2023,主研

7、中石油勘探开发研究院,高温高压多水平井异步吞吐驱三维物理模拟实验,2022-2023,主持

8、胜利油田石油工程技术研究院,中低渗油藏微生物驱主导机理及适用界限研究,2022-2023,主持

9、中石油勘探开发研究院,高温高压多水平井吞吐三维物理模拟实验,2021-2022,主持

10、中石油勘探开发研究院,化学剂岩心驱替及微流控测试,2021-2022,主持

11、胜利油田勘探开发研究院,页岩油压力传播特征及含水饱和度对流动能力影响测试,2021-2022,主研

12、胜利油田石油工程技术研究院,基于压力曲线的压驱注水压力波传导分析,2021-2022,主持

13、中海油能源发展股份有限公司,多层合采产量劈分软件及增产措施判别与决策系统软件试制,2021-2022,主持

14、胜利油田勘探开发研究院,极端耗水层改变压力控耗水驱替实验,2021-2022主研

15、中石油勘探开发研究院,致密油体积压裂后烃类气驱/吞吐优化方法,2020-2021,主持

16、中海油深圳分公司,南海东部典型海相砂岩油藏高速开采下合理开发井网研究,2020-2021,技术负责人

17、中石油勘探开发研究院,加密井网重构及优化技术研究,2019-2020,主研

18、胜利油田勘探开发研究院,厚层油藏不同条件下高耗水层带形成时机测试,2019-2020主研

19、中海油能源发展股份有限公司,组合调驱优化设计及深部运移特征实验分析,2018-2019,主持

20、胜利油田勘探开发研究院,微生物驱数值模拟功能适应性开发,2018-2019,主持

21、胜利油田分公司胜利采油厂,胜坨油田维护不恢复井成因机理研究,2018-2019,主持

22、中石油大港油田分公司,官195和官80区块三次采油数值模拟及流场模拟研究,2018-2019,技术负责人

23、胜利油田勘探开发研究院,基于单井自动历史拟合的油井产量自动劈分方法研究,2017-2018,主持


(三)专业建设类、教学改革类项目

1、国家级一流专业建设点,石油工程,2019-2022,主要参加人员

2、山东省普通本科高等学校示范性基层教学组织,石油与天然气工程系,2024,负责人

3、山东省本科教学改革重点项目,“双碳”目标下智慧油气工程微专业建设与实践,2021-2024,主要参加人员

4、山东省研究生教育教学改革面上项目,本硕博贯通式拔尖创新人才培养质量保障机制研究——以石油与天然气工程学科为例,2023-2025,主持

5、山东省本科教学改革面上项目新工科背景下“油气+人工智能”复合型创新人才培养体系的构建与实践,2022-2025,主持

6、学校研究生教育教学改革重点项目,本硕博贯通式拔尖创新人才培养质量保障机制研究——以石油与天然气工程学科为例,2023-2025,主持

7、学校本科教学改革重点项目,新工科背景下“油气+人工智能”复合型创新人才培养体系的构建与实践,2022-2024,主持

8、学校本科教学改革重点项目,能源行业加速转型升级背景下的石油工程专业实践教学体系创新与实践,2022-2024,主要参加人员

9、学校专业建设与改革项目,智慧油田工程微专业建设的研究与探索,2020-2022,主要参加人员

10、学校专业建设与改革项目,产教融合、科教协同的工程实践教育体系的建设与实践,2020-2022,主要参加人员

11、学校青年教师教学改革项目,石油工程微流控创新实验平台的构建与实践,2018-2020,主持


(四)大创项目

1、国家级项目,基于微流控技术的聚合物微球微观渗流规律研究,2017-2019,团队成员:史秀娟,李娜,刘勤哲

2、国家级项目,特低渗油藏表面活性剂降压增注及渗吸排驱机理研究,2017-2019,团队成员:赵嘉,程紫航,杜贞鹏,王强

3、校级项目,基于微流控技术的非常规储层压裂液污染微生物修复机理研究,2017-2019,团队成员:孙成杰,赵世佳,胡峻玮

4、校级项目,油页岩原位催化剂辅助热裂解机理研究,2017-2019,团队成员:刘钲凯,吕顾勤然,封梦悦,刘俊华

5、校级项目,特低渗储层生物纳米降压增注机理研究,2018-2020,团队成员:王喆,李贤思,曲晓欢,祁佳龙,阿迪力江

6、校级项目,干热岩地热资源开发的模拟实验研究,2018-2020,团队成员:倪旺来,王玮,李培含

7、校级项目,页岩油储层原位轻质化方法及机理研究,2018-2020,团队成员:王海洋,孙伟宸,刘荣江

8、校级项目,不同缝洞组合微流控芯片模型设计及应用,2019-2021,团队成员:肖凯,刘晓蕊,黄耀炜,贾海东

9、校级项目,致密油体积压裂后烃类气体吞吐开采规律研究,2020-2022,团队成员:厚景轩,袁荣凯,廖斌,曹渊博

10、校级项目,富有机质页岩超临界水热解机理研究,2021-2023,团队成员:杜昕鸽,吴俊儒,张俊豪

11、校级项目,页岩油裂缝流动规律研究,2021-2023,团队成员:唐啟航,郭楠,王卓聪,张础巍

12、校级项目,咸水层CO2封存机理及强化埋存方法研究,2022-2024,团队成员:钟嘉麒,冯作豪

13、校级项目,中低成熟度页岩高温加热裂缝扩展演化规律研究,2023-2025团队成员:黄兴恒


获奖情况

1、渗流力学,国家级一流本科课程,2020

2、油藏工程,国家级一流本科课程,2023

3、水驱油藏闭环智能生产优化与调控技术及工业化应用,山东省科技进步一等奖,2020

4、高含水油田弹性颗粒悬浮体系高效驱油技术及应用,中国石油和化学工业联合会科技进步二等奖,2020

5、聚焦行业发展,遵循工程教育理念,石油工程专业实践教育体系建设与应用,山东省教学成果一等奖,2022

6、以学生为中心,探索智慧教学,打造石油能源特色“渗流力学”金课,中国石油大学(华东)教学成果特等奖,2019

7、产教融合、科教协同的工程实践教育体系的建设与应用,中国石油大学(华东)教学成果特等奖,2021

8、新时代背景下石油工程拔尖创新人才培养模式改革与实践,中国石油大学(华东)教学成果特等奖,2023

9、新业态驱动下的石油工程人才培养体系改革与实践,中国石油大学(华东)教学成果一等奖,2019

10、工程问题牵引,赛教融合赋能,石油工程综合设计课程教学改革与实践,中国石油大学(华东)教学成果二等奖,2023

11、《渗流力学》油气能源特色一流课程建设与实践,中国石油大学(华东)教师教学创新大赛二等奖,2023

12、石油工程微流控创新实验平台的构建与实践,中国石油大学(华东)本科教学创新奖,2021

13、基于“五位一体”教学法的渗流力学国家一流课程建设,中国石油大学(华东)本科教学创新奖,2021

14、石油工程微流控创新实验平台的构建与应用,中国石油大学(华东)“三融合”协同育人典型案例,2021

15、孔喉尺度弹性微球渗流机理的实验和模拟研究,山东省优秀博士学位论文,2016


荣誉称号

1、2023.11,中国石油大学(华东)优秀班主任

2、2023.09,中国石油大学(华东)劳动模范

3、2022.12,中国石油大学(华东)胜利育才奖

4、2021.11,中国石油大学(华东)优秀班主任

5、2020.12,中国石油大学(华东)优秀工会会员

6、2020.10,中国石油大学(华东)学生就业工作优秀教师

7、2020.06,中国石油大学(华东)光华学者

8、2020.06,中国石油大学(华东)大学生创新创业导师

9、2019.09,山东省泰山学者计划团队核心成员

10、2018.10,山东省青年科技人才托举工程人选

11、2018.08,Elsevier期刊“杰出审稿人”

12、2018.06,中国石油大学(华东)石油工程学院青年学术拔尖人才

13、2017.12,中国石油大学(华东)优秀班主任

14、2016.11,山东省优秀博士学位论文

15、2016.09,青岛西海岸紧缺人才

16、2015.05,山东省省级优秀毕业生

17、2013.12,中国石油大学(华东)学术十杰

18、2013.05,国家公派留学基金

19、2012.12,博士研究生国家奖学金


作为指导教师/班主任/学业导师,指导学生/团队/班级获得荣誉称号如下:

1、国家公派留学基金获得者4人(马鑫、郑洋、祁佳龙、王喆)

2、泰纳瑞斯 | 罗伯托 • 罗卡奖学金一等奖获得者1人(程天祥)全国仅5人

3、国家奖学金获得者3人(杜昕鸽、陈海川、杨珂笼

4、国家励志奖学金获得者10人(杨慧超、丁志睿、卫紫维、马贵颖、杨珂笼、刘兴宇、宋立德、鄢尧、张际霞、郝鑫宇)

5、中国石油奖学金获得者2人(杜昕鸽、张俊豪)

6、社会工作奖学金获得者10人(杨慧超、杜昕鸽、郭楠、宋立德、张铭扬、鄢尧、李金轩、何佳洁、马贵颖、丁志睿)

7、科技创新及文体奖学金获得者4人(杜昕鸽、曲敬轩、李金轩、蒋兆强)

8、山东省省级优秀毕业生8人(杜昕鸽、程天祥、孟祥祥、杨慧超、张天一、史秀娟、吕俊杰、丁宇)

9、山东省“挑战杯”竞赛二等奖获得者8人(陈国栋、阴发亮、钟超、王炎中、张金鼎、孙豹豹、赵兴刚、赵孟杰)

10、中国石油大学(华东)“挑战杯”竞赛特等奖获得者8人(陈国栋、阴发亮、钟超、王炎中、张金鼎、孙豹豹、赵兴刚、赵孟杰)

11、中国石油大学(华东)优秀学生干部8人次(程天祥、孟祥祥、杜昕鸽2次、祁佳龙、徐良、狄天远、杨慧超)

12、中国石油大学(华东)优秀研究生17人次(刘栢硕3次、张何星、程天祥、孟祥祥2次、曲晓欢、祁佳龙、赵嘉2次、刘雅倩2次、宋雨媛、张秀晴、徐良、狄天远)

13、中国石油大学(华东)优秀毕业生8人(赵嘉、曲晓欢、刘雅倩、张琪、倪旺来、王海洋、尹淑婷、郑嵘)

14、中国石油大学(华东)十佳团支书1人(张际霞)

15、中国石油大学(华东)优秀共青团干部3人(张际霞、鄢尧、朱珂瑶)

16、中国石油大学(华东)优秀共青团员10人(刘栢硕、刘雅倩、马贵颖、刘兴宇、何佳洁、杨珂笼、刘武硕、蒋兆强、于浩野、窦婉宁

17、中国石油大学(华东)2020-2021学年优良学风班、先进班集体(本研石2002班)

18、中国石油大学(华东)2021-2022学年优良学风班(本研石2002班)

19、中国石油大学(华东)2022-2023学年优良学风班(本研石2002班)

20、中国石油大学(华东)2022-2023学年优良学风班、先进班集体(石工(智能)2101班)

21、中国石油大学(华东)2023年度红旗团支部(石工(智能)2101班)


著作

姚传进, 雷光伦. 孔喉尺度弹性微球深部调驱理论与技术[M]. 青岛: 中国石油大学出版社, 2022.07.


论文

1、姚传进*, 雷光伦, 吴川, 蒋宝云, 刘海庆, 高达. 高凝油井电伴热优化计算[J]. 石油学报, 2010, 31(5): 843-848.

2、刘海庆, 姚传进*, 蒋宝云, 吴川, 贾晓飞. 低渗高凝油藏堵塞机理及解堵增产技术研究[J]. 特种油气藏, 2010, 17(6): 103-106.

3、吴川, 雷光伦, 姚传进, 盖平原, 曹嫣镔, 李啸南. 双亲催化剂作用超稠油水热裂解降黏机理研究[J]. 燃料化学学报, 2010, 38(6): 684-690.

4、吴川, 雷光伦, 姚传进, 曹嫣镔. 利用核磁共振对稠油水热催化裂解降粘反应的研究[J]. 石油天然气学报, 2010, 32(6): 311-314.

5、Wu Chuan, Lei Guanglun, Yao Chuanjin, Jia Xiaofei. In situ upgrading extra-heavy oil by catalytic aquathermolysis treatment using a new catalyst based anamphiphilic molybdenum chelate[C]. SPE 130333, 2010.

6、Lei Guanglun, Yao Chuanjin*, Wu Chuan, Jia Xiaofei, Zhang Xiao. Study on acoustic cavitation and magnetic coupling wax control technology[J]. Petroleum Science and Technology, 2011, 29(20): 2142-2150.

7、姚传进*, 雷光伦, 吴川, 高达, 蒋宝云, 刘海庆. 高凝原油井筒温度场影响因素研究[J]. 石油钻探技术, 2011, 39(5): 74-78.

8、姚传进*, 雷光伦, 蒋宝云, 刘海庆. 高凝油井筒温度场计算及流态转变分析[J]. 石油钻采工艺, 2011, 33(3): 42-46.

9、姚传进*, 雷光伦, 张晓, 高达, 蒋宝云, 刘海庆. 潍北油田高凝油流变性研究[J]. 油气地质与采收率, 2011, 18(1): 63-66.

10、姚传进*, 雷光伦, 吴川, 刘海庆, 蒋宝云, 贾晓飞. 注热水开发潍北高凝油藏[J]. 油气田地面工程, 2011, 24(2): 14-17.

11、吴川, 雷光伦, 姚传进, 盖平原, 曹嫣镔, 李啸南. 纳米镍催化剂对胜利超稠油水热裂解降黏的影响[J].中国石油大学学报(自然科学版), 2011, 35(1): 164-168.

12、吴川, 雷光伦, 姚传进, 曹嫣镔, 李啸南. 超稠油水热催化裂解反应前后性质变化[J]. 特种油气藏, 2011, 18(1): 101-104.

13、张晓, 雷光伦, 姚传进, 李文忠, 孙文凯. 剪切作用对高凝油凝固特性的影响[J]. 油气田地面工程, 2011, 30(9): 16-18.

14、贾晓飞, 雷光伦, 尹金焕, 姚传进, 吴川, 李文忠. 孔喉尺度弹性调驱微球与储层匹配关系理论研究[J]. 石油钻探技术, 2011, 39(4): 87-89.

15、Yao Chuanjin*, Lei Guanglun, Li Lei, Gao Xuemei. Selectivity of pore-scale elastic microspheres as a novel profile control and oil displacement agent[J]. Energy & Fuels, 2012, 26(8): 5092-5101.

16、Yao Chuanjin*, Lei Guanglun, Ma Jiye, Zhao Fengmin, Cao Gongze. Laboratory experiment, modeling and field application of indigenous microbial flooding[J]. Journal of Petroleum Science and Engineering, 2012, 90-91: 39-47.

17、Yao Chuanjin*, Lei Guanglun, Li Wenzhong, Li Lei, Gao Xuemei. An experiment and simulation of elastic microspheres enhanced oil recovery (EMEOR)[J]. Energy Sources, Part A-Recovery Utilization and Environmental Effects, 2012, 34(8): 692-701.

18、Yao Chuanjin*, Lei Guanglun, Ma Jiye, Zhao Fengmin, Cao Gongze. Experiment and simulation of indigenous microbial enhanced oil recovery (IMEOR)[C]. IPTC 14268, 2012.

19、姚传进*, 雷光伦, 高雪梅, 李蕾. 非均质条件下孔喉尺度弹性微球深部调驱研究[J]. 油气地质与采收率, 2012, 19(5): 61-64.

20、姚传进*, 李雷, 雷光伦, 高雪梅. 孔喉尺度弹性微球的封堵性能研究[J]. 科学技术与工程, 2012, 12(6): 1244-1247.

21、王致立, 姚传进*, 蒋帅, 张晓, 李文忠. 非牛顿高凝油的剪切特性[J]. 西南石油大学学报(自然科学版), 2012, 34(4): 110-114.

22、雷光伦, 李文忠, 贾晓飞, 姚传进, 孙文凯. 孔喉尺度弹性微球调驱影响因素[J]. 油气地质与采收率, 2012, 19(2): 41-43.

23、李文忠, 雷光伦, 姚传进, 孙文凯, 贾晓飞. 海上钻井岩屑回注地层裂缝扩展研究[J]. 科学技术与工程, 2012, 12(2): 300-302.

24、Yao Chuanjin*, Lei Guanglun, Gao Xuemei, Li Lei. Controllable preparation, rheology and plugging property of micron-grade polyacrylamide microspheres as a novel profile control and flooding agent[J]. Journal of Applied Polymer Science, 2013, 130(2): 1124-1130.

25、Yao Chuanjin*, Lei Guanglun, Li Lei, Gao Xuemei. Preparation and characterization of polyacrylamide nanomicrospheres and its profile control and flooding performance[J]. Journal of Applied Polymer Science, 2013, 127(5): 3910-3915.

26、Yao Chuanjin*, Lei Guanglun, Cheng Mingming. A novel enhanced oil recovery technology using pore-scale elastic microspheres after polymer flooding[J]. Research Journal of Applied Sciences, Engineering and Technology, 2013, 6(19): 3634-3637.

27、姚传进*, 李蕾, 雷光伦, 高雪梅. 孔喉尺度弹性微球的深部调驱性能[J]. 西南石油大学学报(自然科学版), 2013, 35(4): 114-120.

28、李蕾, 雷光伦, 姚传进, 高雪梅, 犹佳雨. PVA水凝胶的弹性和溶胀特性研究[J]. 高分子通报, 2013, (6): 39-43.

29、李蕾, 雷光伦, 姚传进, 高雪梅. 聚合物与弹性微球二元复合段塞调剖效果研究[J]. 科学技术与工程, 2013, 13(9): 2352-2356.

30、李蕾, 雷光伦, 姚传进, 高雪梅 ,魏晓冬. 孔喉尺度弹性微球调整油层分流能力实验研究[J]. 科学技术与工程, 2013,13(17): 4793-4796.

31、Yao Chuanjin*, Lei Guanglun, Lawrence M. Cathles, Tammo S. Steenhuis. Pore-scale investigation of micron-size polyacrylamide elastic microspheres (MPEMs) transport and retention in saturated porous media[J]. Environmental Science & Technology, 2014, 48(9): 5329-5335.

32、Yao Chuanjin*, Lei Guanglun. Preparation and characterization of micron-sized elastic microspheres as a novel profile control and flooding agent[C]. Advanced Materials Research, 2014, 875-877: 257-261.

33、姚传进*, 雷光伦, 高雪梅, 李蕾. 孔喉尺度弹性微球调驱体系的流变性质[J]. 油气地质与采收率, 2014, 21(1): 55-58.

34、Yao Chuanjin*, Lei Guanglun, Hou Jian, Xu Xiaohong, Wang Dan, Tammo S. Steenhuis. Enhanced oil recovery using micron-size polyacrylamide elastic microspheres: underlying mechanisms and displacement experiments[J]. Industrial & Engineering Chemistry Research, 2015, 54(43): 10925-10934.

35、雷光伦, 姚传进*, 蒋宝云, 李资收, 赵金刚. 启动压力梯度确定井距和判断油井压裂的新方法[J]. 科学技术与工程, 2015, 15(10): 87-91.

36、Yao Chuanjin*, Xu Xiaohong, Wang Dan, Lei Guanglun, Xue Shifeng, Hou Jian, Lawrence M. Cathles, Tammo S. Steenhuis. Research and application of micron-size polyacrylamide elastic microspheres as a smart sweep improvement and profile modification agent[A]. SPE Improved Oil Recovery Conference[C]. SPE 179531, 2016.

37、Hou Jian, Zhang Yanhui, Lu Nu, Yao Chuanjin*, Lei Guanglun. A new method for evaluating the injection effect of chemical flooding[J]. Petroleum Science, 2016, 13(3): 496-506.

38、Ma Xin, Lei Guanglun, Yao Chuanjin, Li Zi, Wang Zhihui, Cheng Mingming. Isolation and identification of thermophilic bacteria of guar gum biodegradation for potential use in enzyme breaker[C]. 2016 International Conference on Civil, Transportation and Environment (ICCTE 2016), 2016.

39、Lei Guanglun, Li Zi, Yao Chuanjin*, Ma Xin, Wang Dan. Numerical simulation on oil shale in-situ upgrading by steam injection[C]. International Field Exploration and Development Conference, Beijing, China, 2016.

40、姚传进*, 雷光伦, 薛世峰, 赵宇石, Tammo S. Steenhuis, Lawrence M. Cathles. 一种识别储层非均质性的双示踪剂方法[J]. 中国石油大学学报(自然科学版), 2016, 40(1): 108-115.

41、雷光伦, 程明明, 袁勇君, 姚传进. 微生物与空气协同驱油的耗氧规律[J]. 油气地质与采收率, 2016, 23(3): 67-71.

42、Yao Chuanjin*, Wang Dan, Wang Jing, Hou Jian, Lei Guanglun, Tammo S. Steenhuis. Effect of ionic strength on the transport and retention of polyacrylamide microspheres in reservoir water shutoff treatment[J]. Industrial & Engineering Chemistry Research, 2017, 56(28): 8158-8168.

43、Yao Chuanjin*, Zhao Yushi, Lei Guanglun, Tammo S. Steenhuis, Lawrence M. Cathles. Inert carbon nanoparticles for the assessment of preferential flow in saturated dual-permeability porous media[J]. Industrial & Engineering Chemistry Research, 2017, 56(25): 7365-7374.

44、Ma Xin, Wang Zhihui, Da Qi'an, Cheng Mingming, Yao Chuanjin*, Lei Guanglun. Application of guar gum degrading bacteria in microbial remediation of guar-based fracturing fluid damage[J]. Energy & Fuels, 2017, 31(8): 7894-7903.

45、Zhou Kang, Hou Jian, Sun Qicheng, Guo Lanlei, Bing Shaoxian, Du Qingjun, Yao Chuanjin. An efficient LBM-DEM simulation method for suspensions of deformable preformed particle gels[J]. Chemical Engineering Science, 2017, 167: 288-296.

46、Wang Jing, Zhang Hongling, Liu Huiqing, Zhao Wei, Liu Haomin, Yao Chuanjin, Zheng Jiapeng, Shen Yinghao. Quantification of transportation of deformable gel particles in porous[C]. SPE 187266, 2017.

47、雷光伦, 李姿, 姚传进*, 郑洋, 王娜, 王志惠. 油页岩注蒸汽原位开采数值模拟[J]. 中国石油大学学报(自然科学版), 2017, 41(2): 100-107.

48、姚传进*, 雷光伦, 徐晓红, 王丹, 达祺安. 基于微流控技术的聚合物微球可控制备实验设计[J]. 实验技术与管理, 2017, 34(8): 47-50.

49、Zheng Yang, Lei Guanglun, Yao Chuanjin*, Pei Shufeng, Wang Long, Zhang Xin. Numerical simulation of deformed medium on in situ upgrading of oil shale via steam injection[C]. 2018 International Field Exploration and Development Conference, Xi'an, China, 2018.

50、Zhou Kang, Hou Jian, Sun Qicheng, Guo Lanlei, Bing Shaoxian, Du Qingjun, Yao Chuanjin. A study on particle suspension flow and permeability impairment in porous media using LBM-DEM-IMB simulation method[J]. Transport in Porous Media, 2018, 124(3): 681-698.

51、Zhao Wei, Liu Huiqing, Wang Jing, Zhang Hongling, Yao Chuanjin, Wang Linlin, Qi Pengpeng. Investigation of restarting pressure gradient for preformed particle gel passing through pore-throat[J]. Journal of Petroleum Science and Engineering, 2018, 168: 72-80.

52、Ma Xin, Lei Guanglun, Wang Zhihui, Da Qi'an, Song Ping, Zhang Xin, Yao Chuanjin*. Microbial remediation of guar-based fracturing fluid damage[A]. SPE International Conference and Exhibition on Formation Damage[C]. SPE 189487, 2018.

53、马鑫, 雷光伦, 王志惠, 达祺安, 张鑫, 宋萍, 姚传进. 胍胶降解菌对地层压裂液伤害的修复机制[J]. 中国石油大学学报(自然科学版), 2018, 42(4): 100-110.

54、Ma Xin, Wang Huan, W. W. Boyd, Cheng Mingming, Yao Chuanjin*, Lei Guanglun. Thermal stability enhancement of guar‐based hydraulic fracturing fluids by phosphate treatment[J]. Journal of Applied Polymer Science, 2019, 136: 47119.

55、Ma Xin, Lei Guanglun, Song Ping, Chu Chengcheng, Yao Chuanjin*. Comparison of the determination methods on mannanase enzyme activity[J]. International Journal of Science, 2019, 6(1): 160-165.

56、Lei Guanglun, Zheng Yang, Yao Chuanjin*, Wang Long, Zhang Xin. Optimization design of in-situ upgrading for oil shale via steam injection based on response surface method[C]. 2019 International Field Exploration and Development Conference, Xi'an, China, 2019.

57、姚传进*, 郑洋, 李蕾, 杜殿发, 雷光伦, 陈德春. 高温高压蒸汽热解模拟实验系统设计[J]. 实验技术与管理, 2019, 36(6): 104-107.

58、贾晓飞, 雷光伦, 孙召勃, 姚传进. 三维各向异性油藏水平井产能新公式[J]. 油气地质与采收率, 2019, 26(2): 113-119.

59、贾晓飞, 田博, 司少华, 孙召勃, 雷光伦, 姚传进. 海上三角洲相稠油油藏高含水期基于储层构型单元的水平井挖潜技术[C]. 2019油气田勘探与开发国际会议论文集, 西安石油大学、陕西省石油学会, 2019.

60、Yao Chuanjin*, Liu Baishuo, Li Lei, Zhang Kai, Lei Guanglun, T. S. Steenhuis. Transport and retention behaviors of deformable polyacrylamide microspheres in convergent-divergent microchannels[J]. Environmental Science & Technology, 2020, 54(17): 10876-10884.

61、Yao Chuanjin*, Zhan Guangxian, Zhao Jia, Wang Na, Lei Guanglun, Zhang Kai, Gu Jianwei, Zhang Mingxing. Experimental investigation of molecular deposition filming flooding in a low-permeability oil reservoir[J]. Energy & Fuels, 2020, 34(6): 6938-6950.

62、Zheng Yang, Lei Guanglun, Yao Chuanjin*, Fu Jingang, Wang Long, Zhang Xin, Jia Xiaofei. A calculation model about reservoir thermal efficiency of in-situ upgrading for oil shale via steam injection[J]. Journal of Petroleum Science and Engineering, 2020, 192: 107267.

63、Li Lei, Hao Yongmao, Lv Yuting, Wang Chengwei, Yao Chuanjin, Zhao Qingmin, Xiao Pufu. Experimental investigation on low-velocity seepage characteristics and influencing factors in a shale oil reservoir[J]. Journal of Petroleum Science and Engineering, 2020, 195: 107732.

64、Chen Guodong, Zhang Kai, Zhang Liming, Xue Xiaoming, Ji Dezhuang, Yao Chuanjin, Yao Jun, Yang Yongfei. Global and Local Surrogate-model-assisted differential evolution for waterflooding production optimization[J]. SPE Journal, 2020, 25(1): 105-118.

65、Xue Xiaoming, Zhang Kai, Li Rupeng, Zhang Liming, Yao Chuanjin, Wang Jian, Yao Jun. A topology-based single-pool decomposition framework for large-scale global optimization[J]. Applied Soft Computing, 2020, 92: 106295.

66、Zhao Mengjie, Zhang Kai, Chen Guodong, Zhao Xinggang, Yao Chuanjin, Sun Hai, Huang Zhaoqin, Yao Jun. A surrogate-assisted multi-objective evolutionary algorithm with dimension-reduction for production optimization[J]. Journal of Petroleum Science and Engineering, 2020, 192: 107192.

67、Zhao Mengjie, Zhang Kai, Chen Guodong, Zhao Xinggang, Yao Jun, Yao Chuanjin, Zhang Liming, Yang Yongfei. A classification-based surrogate-assisted multiobjective evolutionary algorithm for production optimization under geological uncertainty[J]. SPE Journal, 2020, 25(5): 2450-2469.

68、Zhang Liming, Xu Chao, Zhang Kai, Yao Chuanjin, Yang Yongfei, Yao Jun. Production optimization for alternated separate-layer water injection in complex fault reservoirs[J]. Journal of Petroleum Science and Engineering, 2020, 193: 107409.

69、Ma Xiaopeng, Zhang Kai, Yao Chuanjin, Zhang Liming, Wang Jian, Yang Yongfei, Yao Jun. Multiscale-network structure inversion of fractured media based on a hierarchical-parameterization and data-driven evolutionary-optimization method[J]. SPE Journal, 2020, 25(5): 2729-2748.

70、Zhao Xinggang, Zhang Kai, Chen Guodong, Xue Xiaoming, Yao Chuanjin, Wang Jian, Yang Yongfei, Zhao Hui, Yao Jun. Surrogate-assisted differential evolution for production optimization with nonlinear state constraints[J]. Journal of Petroleum Science and Engineering, 2020, 194: 107441.

71、Chu Chengcheng, Yao Chuanjin*, Wang Guan, Ma Xin, Song Ping, Lei Guanglun. Study on the rules of action of microorganism in tar sand oil[C]. 2020 International Field Exploration and Development Conference, Chengdu, 2020.

72、张凯, 陈国栋, 薛小明, 张黎明, 孙海, 姚传进. 基于主成分分析和代理模型的油藏生产注采优化方法[J]. 中国石油大学学报(自然科学版), 2020, 44(3): 90-97.

73、马小鹏, 张凯, 陈昕晟, 曹庆平, 姚传进, 谷建伟. 基于集合光滑的深度学习自动历史拟合方法[J]. 中国石油大学学报(自然科学版), 2020, 44(4): 68-76.

74、刘永革, 姚传进, 付帅师, 孙晓飞. 基于可视化实验的油藏数值模拟5E教学模式实践与认识[J]. 教育教学论坛, 2020, 22(5): 388-390.

75、袁博, 张云宝, 赵鹏, 陈岩, 黎慧, 宁凯, 徐良, 姚传进*. 渤海S油田纳米颗粒调驱体系制备及性能评价[J]. 中国科技论文, 2020, 15(9): 998-1004.

76、孟祥海, 王楠, 吕鹏, 宁凯, 杨磊, 韩一民, 阴福建, 姚传进*. 渤海S油田耐盐聚合物交联体系成胶特征及调驱性能[J]. 中国科技论文, 2020, 15(9): 1064-1070.

77、孟祥海, 张杰, 高尚, 杨磊, 张洪, 韩一民, 石端胜, 姚传进*. 多孔介质中聚合物弹性微球的运移规律与调驱性能[J]. 科学技术与工程, 2020, 20(23): 9314-9319.

78、李蕾, 王程伟, 姚传进, 苏玉亮, 陈德春. 页岩气低速渗流模拟实验系统设计[J]. 实验技术与管理, 2020, 37(11): 79-82.

79、Ma Xin, Song Ping, Liu Licheng, Da Qi'an, Lei Guanglun, Yao Chuanjin*, Leslie M. Shor. Low-temperature pH-regulable gel-breaking of guar-based fracturing fluids by the guar-degrading enzyme from bacillus aerius[J]. International Biodeterioration & Biodegradation, 2021, 160: 105226.

80、姚传进*, 孟祥祥, 曲晓欢, 詹广贤, 李蕾, 雷光伦. 油藏微生物驱反应动力学模型及数值模拟方法[J]. 中国石油大学学报(自然科学版), 2021, 45(4): 84-91.

81、姚传进*, 赵嘉, 詹广贤, 李蕾, 鹿腾, 杜殿发, 陈德春. 特低渗致密储层毛细管渗吸驱替模拟装置设计[J]. 实验室研究与探索, 2021, 40(3): 41-45.

82、Chen Guodong, Li Yong, Zhang Kai, Xue Xiaoming, Wang Jian, Luo Qin, Yao Chuanjin, Yao Jun. Efficient hierarchical surrogate-assisted differential evolution for high-dimensional expensive optimization[J]. Information Sciences, 2021, 542: 228-246.

83、Ma Xiaopeng, Zhang Kai, Zhang Timing, Yao Chuanjin, Yao Jun, Wang Haochen, Jian Wang, Yan Yongfei. Data-driven niching differential evolution with adaptive parameters control for history matching and uncertainty quantification[J]. SPE Journal, 2021, 26(2): 993-1010.

84、Zhang Kai, Zhang Jinding, Ma Xiaopeng, Yao Chuanjin, Zhang Liming, Yang Yongfei, Wang Jian, Yao Jun, Zhao Hui. History matching of naturally fractured reservoirs using a deep sparse autoencoder[J]. SPE Journal, 2021, 26(4): 1700-1721.

85、Wang Haochen, Han Jianfa, Zhang Kai, Yao Chuanjin, Ma Xiaopeng, Zhang Liming, Yang Yongfei, Zhang Huaqing, Yao Jun. An interpretable interflow simulated graph neural network for reservoir connectivity analysis[J]. SPE Journal, 2021, 26(4): 1636-1651.

86、Yao Jun, Nie Yandong, Zhao Zihao, Xue Xiaoming, Zhang Kai, Yao Chuanjin, Zhang Liming, Wang Jian, Yang Yongfei. Self-adaptive multifactorial evolutionary algorithm for multitasking production optimization[J]. Journal of Petroleum Science and Engineering, 2021, 205: 108900.

87、Zhang Kai, Zhao Xinggang, Chen Guodong, Zhao Mengjie, Wang Jian, Yao Chuanjin, Sun Hai, Yao Jun, Wang Wei, Zhang Guodong. A double-model differential evolution for constrained waterflooding production optimization[J]. Journal of Petroleum Science and Engineering, 2021, 207: 109059.

88、Da Qi'an, Lei Guanglun, Yao Chuanjin*, Qu Xiaohuan, Chu Chengcheng. Experimental study on microbial enhanced plugging removal and recovery in low temperature and low permeability reservoirs[C]. 2021 International Field Exploration and Development Conference, Qingdao, 2021.

89、Zhong Chao, Zhang Kai, Xue Xiaoming, Qi Ji, Zhang Liming, Yao Chuanjin, Yang Yongfei, Wang Jian, Yao Jun, Zhang Weidong. Surrogate-reformulation-assisted multitasking knowledge transfer for production optimization[J]. Journal of Petroleum Science and Engineering, 2022, 208: 109486.

90、Zhang Kai, Wang Zhongzheng, Chen Guodong, Zhang Liming, Yang Yongfei, Yao Chuanjin, Wang Jian, Yao Jun. Training effective deep reinforcement learning agents for real-time life-cycle production optimization[J]. Journal of Petroleum Science and Engineering, 2022, 208: 109766.

91、Chen Guodong, Zhang Kai, Xue Xiaoming, Zhang Liming, Yao Chuanjin, Wang Jian, Yao Jun. A radial basis function surrogate model assisted evolutionary algorithm for high-dimensional expensive optimization problems[J]. Applied Soft Computing, 2022, 116: 108353.

92、Ma Xiaopeng, Zhang Kai, Wang Jian, Yao Chuanjin, Yang Yongfei, Sun Hai, Yao Jun. An efficient spatial-temporal convolution recurrent neural network surrogate model for history matching[J]. SPE Journal, 2022, 27(2): 1160-1175.

93、Zhang Kai, Yu Haiqun, Ma Xiaopeng, Zhang Jinding, Wang Jian, Yao Chuanjin, Yang YongFei, Sun Hai, Yao Jun. Multi-source information fused generative adversarial network model and data assimilation based history matching for reservoir with complex geologies[J]. Petroleum Science, 2022, 19(2): 707-719.

94、Wang Xiaopu, Hou Lianjie, He Tianhao, Diao Zhenxuan, Yao Chuanjin, Long Tao, Fan Ling. Numerical simulation of the enrichment of chemotactic bacteria in oil-water two-phase transfer fields of heterogeneous porous media[J]. Applied Sciences, 2022, 12(10): 5215.

95、达祺安, 姚传进*, 曲晓欢, 褚程程, 马鑫, 雷光伦. 低温油气藏胍胶压裂液破胶酶的研制与性能评价[J]. 中国石油大学学报(自然科学版), 2022, 46(2): 137-144. >> Fulltext Link

96、Qu Guanzheng, Su Jian, Zhao Ming, Bai Xingjia, Yao Chuanjin*, Peng Jiao. Optimizing composition of fracturing fluids for energy storage hydraulic fracturing operations in tight oil reservoirs[J]. Energies, 2022, 15(12): 4292.

97、Zhang Kai, Zuo Yuande, Zhao Hanjun, Ma Xiaopeng, Gu Jianwei, Wang Jian, Yang Yongfei, Yao Chuanjin, Yao Jun. Fourier neural operator for solving subsurface oil/water two-phase flow partial differential equation[J]. SPE Journal, 2022, 27(3): 1815-1830.

98、Yao Chuanjin*, Meng Xiangxiang, Qu Xiaohuan, Cheng Tianxiang, Da Qi'an, Zhang Kai, Lei Guanglun. Kinetic model and numerical simulation of microbial growth, migration and oil displacement in reservoir porous media[J]. ACS Omega, 2022, 7(36), 32549-32561.>> Fulltext Link

99、Da Qi'an, Yao Chuanjin*, Zhang Xue, Wang Xiaopu, Qu Xiaohuan, Lei Guanglun. Investigation on microscopic invasion characteristics and retention mechanism of fracturing fluid in fractured porous media[J]. Petroleum Science, 2022, 19(4): 1745-1756. >> Fulltext Link

100、Ji Zemin, Zhao Jia, Chen Xinlong, Gao Yang, Xu Liang, He Chang, Ma Yuanbo, Yao Chuanjin*. Three-dimensional physical simulation of horizontal well pumping production and water injection disturbance assisted CO2 huff and puff in shale oil reservoir[J]. Energies, 2022, 15(19): 7220. >> Fulltext Link

101、Da Qi'an, Yao Chuanjin*, Zhang Xue, Li Lei, Lei Guanglun. Investigation on flow resistance reduction and EOR mechanisms by activated silica nanofluids: Merging Microfludic experimental and CFD modeling approaches[J]. Journal of Molecular Liquids, 2022, 368: 120646.>> Fulltext Link

102、Wang Haochen, Zhang Kai, Deng Xingliang, Cui Shiti, Ma Xiaopeng, Wang Zhongzheng, Qi Ji, Wang Jian, Yao Chuanjin, Zhang Liming, Yang Yongfei, Zhang Huaqing. Highly accurate oil production forecasting under adjustable policy by a physical approximation network[J]. Energy Reports, 2022, 8: 14396-14415. >> Fulltext Link

103、Da Qi'an, Yao Chuanjin*, Zhang Xue, Lei Guanglun. Experimental study on multi-system deep profile control in offshore oilfield[C]. 2022 International Field Exploration and Development Conference, Xi'an, 2022. >> Fulltext Link

104、Meng Fanyi, Yao Chuanjin*, Zhang Hexing, Di Tianyuan, Meng Xiangxiang, Du Xinge. Experimental investigation of pyrolysis characteristics of shale via supercritical water[C]. 2022 International Field Exploration and Development Conference, Xi'an, 2022. >> Fulltext Link

105、Zhao Jia, Yao Chuanjin*, Ma Yuanbo, Xu Liang, Li Lei. Three-dimensional physical simulation study of different CO2 huff and puff methods in shale reservoirs[C]. 2022 International Field Exploration and Development Conference, Xi'an, 2022. >> Fulltext Link

106、Liu Yaqian, Yao Chuanjin*, Liu Baishuo, Zhao Jia, Cheng Tianxiang, Hou Jingxuan. Optimization of CO2 huff-n-puff media combination for volumtric fractured horizontal wells in shale oil reservoirs[C]. 2022 International Field Exploration and Development Conference, Xi'an, 2022. >> Fulltext Link

107、Meng Xiangxiang, Yao Chuanjin*, Xuan yangyang, Meng Fanyi, Zhang Hexing, Lei Guanglun. Pyrolysis characteristics of low and medium maturity shale under superheated water steam environment[C]. 2022 International Field Exploration and Development Conference, Xi'an, 2022. >> Fulltext Link

108、Yao Chuanjin*, Wang Zhe, Xu Haoshuang, Li Lei. Study on pressure conduction law and oil displacement ability of fracture-flooding in low permeability reservoir[C]. 2022 International Field Exploration and Development Conference, Xi'an, 2022. >> Fulltext Link

109、Yao Chuanjin*, Hu Junwei, Ge Jiao, Zhang Qi. Study on shale property change and micro-fracture mechanism under the action of high temperature hot fluid[C]. 2022 International Field Exploration and Development Conference, Xi'an, 2022. >> Fulltext Link

110、Yao Chuanjin*, Qu Xiaohuan, Da Qi'an, Meng Xiangxiang, Lei Guanglun. Numerical simulation study on enzymatic remediation of guar gum fracturing fluid formation damage[C]. 2022 International Field Exploration and Development Conference, Xi'an, 2022. >> Fulltext Link

111、Yao Chuanjin*, Qi Jialong, Cheng Tianxiang, Liu Yongge, Gu Jianwei. Study on determination method of reasonable well spacing in water drive reservoir based on multiple regression analysis[C]. 2022 International Field Exploration and Development Conference, Xi'an, 2022. >> Fulltext Link

112、Yao Chuanjin*, Cheng Tianxiang, Qi Jialong, Liu Yongge, Gu Jinwei. Establishment and application of well pattern integrity evaluation method in ultra-high water cut stage of offshore oilfield[C]. 2022 International Field Exploration and Development Conference, Xi'an, 2022. >> Fulltext Link

113、Yao Chuanjin*, Liu Baishuo, Liu Yaqian, Zhao Jia, Lei Zhengdong, Wang Zhe, Cheng Tianxiang, Li Lei. Quantitative investigation on natural gas flooding characteristics in tight oil cores after fracturing based on nuclear magnetic resonance technique[J]. SPE Journal, 2022, 27(6): 3757-3772. >> Fulltext Link

114、姚传进*, 赵嘉, 徐良, 马远博, 李蕾, 赵海龙, 陈德春. 致密/页岩油藏注气吞吐多测点三维物理模拟装置设计[J]. 实验室研究与探索, 2022, 41(9): 61-64. >> Fulltext Link

115、姚传进*, 达祺安, 张雪, 曲晓欢, 雷光伦. 非常规油气田化学工作液可视化流动模拟实验系统设计[J]. 实验技术与管理, 2023, 40(2): 63-68. >> Fulltext Link

116、Meng Fanyi, Yao Chuanjin*, Zhang Hexing, Zheng Yang, Di Tianyuan, Li Lei. Experimental investigation on the pyrolysis process and product distribution characteristics of organic-rich shale via supercritical water[J]. Fuel, 2023, 333: 126338. >> Fulltext Link

117、Zheng Yang, Lei Guanglun, Yao Chuanjin*, Meng Fanyi, Meng Xiangxiang, Qi Jialong. Characteristics and kinetics of Maoming oil shale pyrolysis in the presence of CoCl2 assisted steam[J]. Fuel, 2023, 338: 127279. >> Fulltext Link

118、Zheng Yang, Lei Guanglun, Yao Chuanjin*, Meng Fanyi, Liu Yaqian, Qi Jialong, Meng Xiangxiang. Study on the kinetic analysis and pyrolysis evolution in transition zone of metal salt catalyzed steam injection in-situ Maoming oil shale upgrading[J]. Geoenergy Science and Engineering, 2023, 224: 211576. >> Fulltext Link

119、Jia Xiaofei, Sun Zhaobo, Lei Guanglun, Yao Chuanjin*. Model for predicting horizontal well transient productivity in the bottom-water reservoir with finite water bodies[J]. Energies, 2023, 16(4): 1952. >> Fulltext Link

120、Liu Baishuo, Yao Chuanjin*, Liu Yaqian, Zhao Jia, Lei Zhengdong, Wang Zhe, Cheng Tianxiang, Li Lei. Quantitative analysis of natural gas diffusion characteristics in tight oil reservoirs based on experimental and numerical simulation methods[J]. ACS Omega, 2023, 8(23): 21195-21211. >> Fulltext Link

121、Yao Chuanjin*, Zhao Jia, Ji Zemin, Cao Meiwen, Xu Liang, Ma Yuanbo. Effect of CO2 huff-n-puff mode with horizontal well on shale oil recovery: A three-dimensional experimental study[J]. Energy & Fuels, 2023, 37(13): 9318-9328. >> Fulltext Link

122、Yao Chuanjin*, Liu Yaqian, Liu Baishuo, Lei Zhengdong, Zhao Jia, Li Lei. Enhanced recovery of tight reservoirs after fracturing by natural gas huff-n-puff: Underlying mechanisms and influential factors[J]. Petroleum Science, 2023, 20(6): 3498-3515. >> Fulltext Link

123、Ge Jiao, Yao Chuanjin*, Hu Junwei, Zhang Qi, Du Xinge. Influence of supercritical carbon dioxide at various temperatures on shale mechanical prpoerties[C]. 2023 International Field Exploration and Development Conference, Wuhan, 2023. >> Fulltext Link

124、Liu Baishuo, Yao Chuanjin*, Liu Yaqian, Chen Nan, Xu Liang, Xuan Yangyang. Quantitative evaluation on natural gas huff-n-puff in fracture-matrix tight cores based experimental method[C]. 2023 International Field Exploration and Development Conference, Wuhan, 2023. >> Fulltext Link

125、Song Yuyuan, Yao Chuanjin*, Xuan Yangyang, Chen Nan, Zhao Jia, Zhong Jiaqi. Characterization of CO2 huff-n-puff recovery from dual horizontal wells in shale matrix-fractured reservoirs[C]. 2023 International Field Exploration and Development Conference, Wuhan, 2023. >> Fulltext Link

126、Zhou Yiran, Yao Chuanjin, Zhang Xiuqing, Song Yuyuan. Simulation and optimization of CO2 saline aquifer storage injection strategy[C]. 2023 International Field Exploration and Development Conference, Wuhan, 2023. >> Fulltext Link

127、Zhang Xiuqing, Yao Chuanjin*, Zhou Yiran, Zhao Jia, Li Cuifang. Research on the law and influencing factors of CO2 reinjection and storage in saline aquifer[C]. 2023 International Field Exploration and Development Conference, Wuhan, 2023. >> Fulltext Link

128、Yao Chuanjin*, Xu Liang, Liu Baishuo, Ma Yuanbo, Di Tianyuan. Optimization of well pattern and injection-production parameters for hydrocarbon gas drive in tight oil reservoirs after volumetric fracturing[C]. 2023 International Field Exploration and Development Conference, Wuhan, 2023. >> Fulltext Link

129、Yao Chuanjin*, Ma Yuanbo, Meng Fanyi, Di Tianyuan, Xu Liang, Xuan Yangyang, Du Xinge. Experimental investigation on the pyrolysis characteristics of low-medium maturity shale under supercritical CO2[C]. 2023 International Field Exploration and Development Conference, Wuhan, 2023. >> Fulltext Link

130、Yao Chuanjin*, Di Tianyuan, Meng Fanyi, Xu Liang, Ma Yuanbo, Du Xinge. Nitrogen pyrolysis products of organic-rich shale[C]. 2023 International Field Exploration and Development Conference, Wuhan, 2023. >> Fulltext Link

131、Yao Chuanjin*, Xu Haoshuang, Liu Yaqian, Hou Jingxuan, Zhang Xiuqing, Li Cuifang. Study on CO2 flooding effect of heterogeneous reservoir under different well pattern types[C]. 2023 International Field Exploration and Development Conference, Wuhan, 2023. >> Fulltext Link

132、Yao Chuanjin*, Xuan Yangyang, Meng Xiangxiang, Meng Fanyi, Di Tianyuan, Chen Nan. Research on shale pyrolysis characteristics and pyrolysis reaction kinetics under water medium condition[C]. 2023 International Field Exploration and Development Conference, Wuhan, 2023.

>> Fulltext Link

133、Meng Fanyi, Yao Chuanjin*, Du Xinge, Di Tianyuan, Zhang Hexing, Ge Jiao. Experimental investigation on composition and pore structure evolution of organic-rich shale via supercritical water[J]. Energy & Fuels, 2023, 37(20): 15671-15686. >> Fulltext Link

134、Yao Chuanjin*, Meng Fanyi, Zhang Hexing, Di Tianyuan, Zhou Yiran, Du Xinge. Experimental investigation on the pyrolysis and conversion characteristics of organic-rich shale by supercritical water[J]. ACS Omega, 2023, 8(51): 49046-49056. >> Fulltext Link

135、Liu Baishuo, Yao Chuanjin*, Liu Yaqian, Zhao Jia, Lei Zhengdong, Zhou Yiran, Song Yuyuan, Li Lei. Quantitative evaluation of water-alternative-natural gas flooding in enhancing oil recovery of fractured tight cores by NMR[J]. Journal of Petroleum Exploration and Production Technology, 2024, 14(1): 221-237. >> Fulltext Link

136、Zhao Jia, Yao Chuanjin*, Cheng Tianxiang, Song Yuyuan, Zhou Yiran, Xu Haoshuang, Zhang Xiuqing, Li Lei. Heating assisted CO2 huff-n-puff in shale reservoirs: EOR mechanism and carbon sequestration[J]. Energy & Fuels, 2024, 38(5): 3937-3951. >> Fulltext Link

137、Liu Yaqian, Yao Chuanjin*, Liu Baishuo, Xuan Yangyang, Du Xinge. Performance prediction and heating parameter optimization of organic-rich shale in-situ conversion[J]. ACS Omega, 2024, 9(13): 15511-15526. >> Fulltext Link

138、Liu Baishuo, Yao Chuanjin*, Qi Jialong, Liu Yaqian, Xu Liang, Hou Jingxuan. Experimental investigation on pyrolysis products and pore structure characteristics of organic-rich shale heated by supercritical carbon dioxide[J]. Petroleum Science, 2024, published online. >> Fulltext Link

139、Ge Jiao, Yao Chuanjin*, Zhang Qi, Liu Baishuo, Meng Fanyi, Huang Xingheng. Investigation on dynamic propagation of fractures in shale induced by thermal fluid[C]. The 16th Annual International Conference on Porous Media (InterPore 2024), Qingdao, 2024.

140、Meng Fanyi, Yao Chuanjin*, Liu Baishuo, Ge Jiao, Hou Jingxuan. Investigation on influence of supercritical water treatment on pore structure characteristics of Chang 73 medium-low maturity shale[C]. The 16th Annual International Conference on Porous Media (InterPore 2024), Qingdao, 2024.

141、Liu Baishuo, Yao Chuanjin*, Meng Fanyi, Chen Nan, Yang Huichao, Du Xin'ge. Experimental investigation on phase behavior of pyrolysis hydrocarbon products from Chang 73 medium-low maturity shale[C]. The 16th Annual International Conference on Porous Media (InterPore 2024), Qingdao, 2024.

142、Zhao Jia, Yao Chuanjin*, Song Yuyuan, Zhou Yiran, Zhang Xiuqing, Zhong Jiaqi. Pore-scale modelling of CO2 transport in saline aquifer of South China Sea and its influencing factors[C]. The 16th Annual International Conference on Porous Media (InterPore 2024), Qingdao, 2024.

143、Liu Yaqian, Yao Chuanjin*, Zhang Qi, Xuan Yangyang, Ge Jiao. Quantitative characterization on pore structure evolution and mechanical properties during in-situ conversion of medium-low maturity shale[C]. The 16th Annual International Conference on Porous Media (InterPore2024), Qingdao, 2024.

144、Song Yuyuan, Yao Chuanjin*, Zhang Xiuqing, Zhao Jia, Zhou Yiran. Experimental investigation on influencing factors of caprock breakthrough pressure under CO2 geological sequestration[C]. The 16th Annual International Conference on Porous Media (InterPore 2024), Qingdao, 2024.

145、Zhou Yiran, Yao Chuanjin*, Zhao Jia, Zhu Jiawei, Song Yuyuan, Li Cuifang. Pore-scale investigation on the migration and distribution characteristics of gel particle systems in heterogeneous porous media[C]. The 16th Annual International Conference on Porous Media (InterPore 2024), Qingdao, 2024.

146、Yang Huichao, Yao Chuanjin*, Wang Zhe, Liu Baishuo, Zhu Jiawei, Li Lei. Experimental investigation on fluid flow characteristics in shale reservoirs with different types of fractures[C]. The 16th Annual International Conference on Porous Media (InterPore 2024), Qingdao, 2024.

147、Yao Chuanjin*, Liu Baishuo, Ge Jiao, Liu Yaqian, Xuan Yangyang, Hou Jingxuan. Quantitative investigation on distribution characteristics of organic matter in medium-low maturity shale and its pyrolysis products after in-situ conversion by NMR[C]. The 16th Annual International Conference on Porous Media (InterPore 2024), Qingdao, 2024.

148、Yao Chuanjin*, Chen Nan, Liu Baishuo, Xuan Yangyang, Liu Yaqian, Yang Huichao. Experimental investigation of CO2 diffusion characteristics in fractured volcanic cores[C]. The 16th Annual International Conference on Porous Media (InterPore 2024), Qingdao, 2024.

149、Yao Chuanjin*, Zhang Xiuqing, Song Yuyuan, Zhao Jia, Zhou Yiran. Experimental investigation of fractured caprock breakthrough pressure under different proportions of sequestered gas conditions[C]. The 16th Annual International Conference on Porous Media (InterPore 2024), Qingdao, 2024.

150、Yao Chuanjin*, Li Cuifang, Zhang Xiuqing, Zhao Jia, Zhou Yiran, Zhao Hailong. Experimental invetigation on bioenzyme enhanced plugging removal and oil recovery in low permeability reservoirs[C]. The 16th Annual International Conference on Porous Media (InterPore 2024), Qingdao, 2024.

151、Yao Chuanjin*, Yang Huichao, Du Xinge Du, Liu Baishuo, Zhu Jiawei, Zhao Hailong. Quantitative characterization on forced imbibition characteristics of shale oil reservoirs based on nuclear magnetic resonance method[C]. The 16th Annual International Conference on Porous Media (InterPore 2024), Qingdao, 2024.

152、Da Qi'an, Yao Chuanjin*, Zhang Xue, Lei Guanglun. Reservoir damage induced by water-based fracturing fluids in unconventional reservoirs: A review of formation mechanisms and treatment methods[J]. Energy & Fuels, 2024, revision.

153、Yao Chuanjin*, Yang Huichao, Du Xinge, Liu Baishuo, Zhu Jiawei. Experimental investigation on forced imbibition characteristics of shale oil reservoir based on nuclear magnetic resonance method[J]. Petroleum Science and Technology, 2024, , revision.

154、Liu Yaqian, Yao Chuanjin*, Meng Xiangxiang, Ma Yuanbo, Xu Liang, Du Xinge. Pyrolysis mechanism and reservoir simulation study of organic-rich shale in-situ conversion via supercritical water heating[J]. Energy & Fuels, 2024, under review.

155、Yao Chuanjin*, Ge Jiao, Zhang Qi, Huang Xingheng, Guo Tiankui, Guo Shenglai. Comparative experimental investigation on shale fracture propagation induced by high-temperature water and carbon dioxide[J]. Engineering Fracture Mechanics, 2024, under review.

156、Meng Fanyi, Yao Chuanjin*, Yang Huichao, Di Tianyuan, Du Xinge, Li Lei. Changes of multi-scale pore structure and connectivity of organic-rich shale hydrous pyrolysis under different temperature and pressure[J]. Energy, 2024, under review.


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22、一种考虑粗糙表面特征的岩石毛管力确定方法,专利号:201510818606.0,2017.07.28

23、一种非均质单填砂管岩心模型及其填制方法,专利号:ZL201510617167.7,2017.07.11

24、一种考虑凹凸性的岩石孔隙网络模型的孔喉截面构造方法,专利号:201510818657.3,2017.04.05

25、一种测量孔喉尺度弹性微球弹性模量的装置及方法,专利号:ZL201310674277.8,2016.04.27

26、多孔介质中孔喉尺度弹性微球运移的孔隙级模拟实验装置,专利号:ZL201310674311.1,2016.01.20

27、泡沫驱气液相对渗透率曲线的测量方法,专利号:201510154137.7,2016.01.13

28、并联岩心中流动泡沫层析成像检测装置及其工作方法,专利号:201510154881.7,2016.01.13

29、一种基于粒径匹配关系的孔喉尺度弹性微球调驱设计方法,专利号:ZL201310015006.1,2015.08.05

30、一种微生物驱油数值模拟方法,专利号:ZL201310015051.7,2015.08.05

31、一种自压缩天然气的抽油泵储能增效装置,专利号:ZL201310099939.3,2015.07.15

32、一种高温高压蒸汽热解反应的实验装置及实验方法,申请号:201810183284.0,2018.03.06

33、一种特低渗致密储层渗吸排驱模拟装置及安装方法,申请号:202010042748.3,2020.01.15

34、一种基于微流控技术的流体流动模拟实验装置及其方法,申请号:202010626802.9,2020.07.01

35、地面管网与地下油藏复杂系统生产优化方法,申请号:202011344352.0,2020.11.25

36、一种基于反应动力学模型的微生物采油数值模拟方法,申请号:202110124181.9,2021.01.29

37、一种页岩储层原位开采高温高压三维物理模拟装置及实验方法,申请号:202110124915.3,2021.01.29

38、一种用于研究压裂液对裂缝-基质系统伤害的微观实验装置和实验方法,申请号:202210173515.6,2022.02.24

39、一种致密页岩油藏注气吞吐参数协同优化方法,申请号:202210175263.0,2022.02.24

40、一种高温对流热作用下页岩裂缝扩展模拟实验装置及方法,申请号:202210526058.4,2022.05.16

41、一种页岩油注CO2电磁加热辅助增能增产效果评价实验装置及方法,申请号:202210594343.X,2022.05.27

42、一种油页岩注蒸汽原位开采产能预测方法,申请号:202211497752.4,2022.11.28

43、一种地层储碳储氢微观可视化模拟实验装置及其实验方法,申请号:202211637996.8,2022.12.16

44、一种基于神经网络的页岩注热原位开采排烃潜力预测方法,申请号:202310575426.9,2023.05.19

45、Injection-production relationship optimization method based on heterogeneous flow field characterization,Appl. No.:US17540841,2022.07.21

46、Automatic history matching system and method for an oil reservoir based on transfer learning,Appl. No.:US17540861,2022.10.27

47、Collaborative optimization method for gas injection huff-n-puff parameters in tight oil reservoirsAppl. No.:US18074679,2022.12.15

48、Apparatus and technique for simulating the propagation of shale fractures under high temperature convective heatAppl. No.:US18149945,2023.01.04


学术交流

1、国家自然科学基金企业创新发展联合基金2023年学术年会,会议主题:中低成熟度陆相页岩油资源形成与原位转化开采机理,2024.01,北京

2、2023油气田勘探与开发国际会议,报告主题:Experimental investigation on the pyrolysis characteristics of low-medium maturity shale under supercritical CO2,2023.09,武汉

3、国家自然科学基金企业创新发展联合基金集成项目启动暨中低熟页岩油形成与开采技术研讨会,会议主题:中低成熟度陆相页岩油资源形成与原位转化开采机理,2023.01,北京

4、2022油气田勘探与开发国际会议,报告主题:Pyrolysis characteristics of low and medium maturity shale under superheated water steam environment,2022.11,乌鲁木齐

5、2021油气田勘探与开发国际会议,报告主题:Experimental study on microbial enhanced plugging removal and recovery in low temperature and low permeability reservoirs,2021.11,青岛

6、国家自然科学基金委员会-双清论坛,报告主题:中低成熟度页岩油超临界水加热原位开采机理研究,2021.04,北京

7、2020油气田勘探与开发国际会议,报告主题:Study on the rules of action of microorganism in tar sand oil,2020.09,成都

8、全国第二届微生物采油技术研究与应用研讨会,大会报告主题:低渗致密储层压裂液伤害微生物修复技术研究,2018.10,武汉

9、2019油气田勘探与开发国际会议,报告主题:Optimization design of in-situ upgrading for oil shale via steam injection based on response surface method,2019.10,西安

10、2018年SPE地层损害国际会议及展览会,报告主题:Microbial remediation of guar-based fracturing fluid damage,2018.02,美国

11、2018油气田勘探与开发国际会议,报告主题:Numerical simulation of deformed medium on in situ upgrading of oil shale via steam injection,2018.09,西安

12、2017年SPE学术年会,报告主题:Quantification of transportation of deformable gel particles in porous,2017.10,美国

13、2016年SPE提高采收率学术年会,报告主题:Research and application of micron-size polyacrylamide elastic microspheres as a smart sweep improvement and profile modification agent,2016.04,美国

14、2016年油气田勘探与开发国际会议,报告主题:Numerical simulation on oil shale in-situ upgrading by steam injection,2016.08,北京

15、中国石油大学(华东)石油工程学院研途有道,报告主题:中低成熟度页岩油地下原位转化开采技术,2021.12,青岛

16、中国石油大学(华东)石油工程学院研途有道,报告主题:毕业论文格式修改全攻略,2021.03,青岛


个人风采

姚传进,男,山东齐河人,博士(后),教授,光华学者,博士生导师。入选山东省青年科技人才托举工程、青岛西海岸新区紧缺人才计划、学校光华学者计划,担任石油与天然气工程系主任、教育部本科教育教学评估专家、学校教学指导委员会委员、学院研究生培养指导委员会委员、非常规油气渗流与地下原位转化开采研究团队负责人。2013年9月至2014年9月,在美国常春藤名校康奈尔大学做访问学者。主讲《新生研讨课》《渗流力学》《油藏工程》《油气智能基础》《智能油气藏工程》《油气田开发工程》等课程,承担国家级建设类教改项目1项、省级教改重点项目1项、面上项目2项、校级教改重点项目3项、一般项目4项,负责石油工程类本研一体班、油气+人工智能实验班和智能油气工程微专业建设工作;获国家级建设类教学成果2项、山东省教学成果一等奖1项、学校教学成果特等奖3项、一等奖1项、二等奖1项、教师教学创新大赛二等奖1项、本科教学创新奖2项、“三融合”协同育人典型案例1项,主编“十四五”校级规划教材1部、参编1部,发表T2教学论文5篇,指导大学生创新训练计划国家级项目2项、校级项目11项。近年来,主持国家自然科学基金项目2项、山东省创新团队及人才计划项目1项、山东省重点研发计划项目2项、其他省部级基金项目3项、横向课题40余项,承担国家自然科学基金联合基金项目课题、中石油深层油气重大专项课题、中石油CCUS重大专项课题、国家科技重大专项课题等8项。发表论文150余篇,其中SCI、EI收录100余篇;申请中国发明专利44项、国际发明专利4项,已授权31项;登记计算机软件著作权4项;主编专著1部。获山东省科技进步一等奖1项、中国石油和化学工业联合会科技进步二等奖1项。曾获学校劳动模范、胜利育才奖、优秀班主任、学生就业工作优秀教师、优秀工会会员、学术十杰等荣誉称号。

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