职 称:副教授
导师 资格:硕导
所属 部门:储运所
学科 专业:油气储运工程
研究 方向:油气储运系统流动与安全、油气管道及站场完整性管理技术
联系 方式:Email:heguoxicup@163.com;Tel.15101186627
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
何国玺,四川南江人,副教授,硕士生导师,博士(后)。2018年毕业于中国石油大学(北京),获油气储运工程博士学位。主要从事油气管输过程复杂流动传热传质、油气储运系统流动与安全、腐蚀与防护、检测与评价、完整性管理、成品油顺序输送、智能管道等方面的教学与科研工作。主持国家自然科学基金1项、省部级基金项目3项;参研国家自然科学基金项目3项,省级教改项目2项,横项科研课题40余项;参编国外专著1部;发表论文百余篇,其中SCI/EI收录40余篇,参加IPC/IPTC/IHTC/ASCHT等国际会议10余次;授权专利与软件著作权30余件(国际专利2件);获得省部级科技进步奖2项。担任多本国际学术期刊审稿人。
(1)教育经历
●2008.09-2012.06 中国石油大学(北京),数学与应用数学,学士
●2012.09-2015.06 中国石油大学(北京),石油与天然气工程,硕士
●2015.06-2015.09 阿联酋石油学院,访问学者
●2017.08-2018.07 英国哈德斯菲尔德大学,博士联培
●2015.09-2018.09 中国石油大学(北京),油气储运工程,博士
(2)工作经历
●2018.10-2020.12 红宝石官方网站hbs123石油与天然气工程学院,博士后
●2018.10-2022.12 红宝石官方网站hbs123石油与天然气工程学院,讲师
●2022.12-至今 红宝石官方网站hbs123石油与天然气工程学院,副教授
●国家自然科学基金青年基金,52202403,顺序输送混油拖尾形成机制及关键质量指标衰减机理研究,2023/01-2025/12,主持
●省部级重点实验室开放基金,LQ21KFJJ01,隧道内高压天然气管道泄漏后爆炸对相邻液体管道的影响与防控措施研究,2021/03-2023/03,主持
●四川省科学基金青年基金,2022NSFSC0973,顺序输送混油拖尾现象形成机制及关键质量指标值衰减机理研究,2022/01-2023/12,主持
●中国博士后科学基金面上项目,2019M653481,顺序输送过程中混油段油品质量指标值衰减机理研究,2019/06-2020/07,主持
●国家自然科学基金面上项目,52174062,基于主动励磁的钢质管道三维应力定量表征与智能监测研究,2022/01-2025/12,参与
●国家自然科学基金面上项目,51674212,成品油管道批次输送过程中的复杂传热传质机理研究,2015/01-2018/12,参与
●油库安全与设备测评实验系统,2023/03-2023/09,主研
●集输管道泄漏定位技术有效性及适应性评价研究,2022/11-2023/02,主研
●油气管道评价和管理软件开发,2022/10-2023/02,主研
●临兴-神府地面工程节点模拟研究,2022/10-2023/01,主研
●天然气管道投产及运行工艺计算软件开发,2022/10-2023/01,主研
●顺北二区长距离集输管道在线清管工艺研究,2022/07-2022/10,主研
●相国寺储气库注采站场工艺管道弯头冲蚀区域快速筛查方法与应用研究,2022/06-2022/12,主研
●油田集输与处理系统腐蚀监测技术有效性评价与优化研究,2022/06-2022/09,主研
●陵水气田一体化模型建设及生产流动保障关键节点研究,2022/05-2022/08,主研
●长宁区块转供水钢制管线腐蚀缺陷检测,2022/05-2022/08,主研
●油气站场失效识别统计方法研究与失效数据库开发,2021/12-2022/03,主研
●高风险装置设施检测评价管理技术研究,2020/12-2021/12,主研
●油气田管道和站场完整性管理效能评价体系研究,2021/08-2022/08,主研
●玛湖油田常温集输适应性评价与应用,2021/06-2022/10,主研
●车辆荷载作用下公路管段极限承载能力分析研究,2020/12-2021/12,主研
●中缅天然气管道失效对相邻管道的影响与防控技术研究,2020/12-2021/12,主研
●长宁页岩气田集输管道腐蚀性主控因素及对防护策研究,2020/11-2021/06,主研
●中缅天然气管道18处应力异常管段检测,2020/09-2021/01,主研
●页岩气地面工程建设模式研究,2020/09-2020/12,主研
●塔里木油田集输管道缓蚀剂效果主控因素分析与完整性管理对策研究,2020/08-2021/07,主研
●湿气管道内腐蚀预测系统软件开发(WG-ICDA),2020/07-2020/11,主研
●集输管道元素硫沉积预测系统,2020/07-2020/10,主研
●站内高含硫伴生气管道腐蚀分析与治理技术评价,2020/05-2021/06,主研
●油气田管道缺陷评价软件开发,2020/04-2020/09,主研
●天然气管道站场完整性管理体系建立与应用研究,2019/12-2020/03,主研
●页岩气地面集输系统适应性评价,2019/12-2020/03,主研
●胡宁4重油热采腐蚀规律及防腐选材研究,2019/09-2021/04,主研
●淄莱线、山东LNG 干线平度-莱西段管道内腐蚀分析与研究,2019/08-2020/12,主研
●高纬度地区天然气地面工程保温工艺技术研究与应用,2019/06-2021/06,主研
●输油管道泄漏量测算软件部署调试,2017/10-2018/06,主研
●节点分析在注水地面系统中的研究与应用,2016/01-2016/06,主研
●煤层气地面集输工艺优化研究-集气管道凝水聚积位置分析,2015/08-2015/12,主研
●集调气系统模型构建及模拟研究,2015/08-2016/07,主研
●成品油管道泄漏量测算研究和软件开发,2015/01-2016/12,主研
(1)发表学术期刊论文
●HE G X,LYU X,LIAO K X,et al. A method for fast simulating the liquid seepage-diffusion process coupled with internal flow after leaking from buried pipelines[J]. Journal of Cleaner Production,2019,240(10):118167.(SCI 1区top,IF=11.072)
●HE G X,LIANG Y,LI Y,et al. A method for simulating the entire leaking process and calculating the liquid leakage volume of a damaged pressurized pipeline[J]. Journal of hazardous materials,2017,332(15):19-32.(SCI 1区top,IF=6.065)
●HE G X,LI Y,HUANG Y,et al. A framework of smart pipeline system and its application on multiproduct pipeline leakage handling[J]. Energy,2019,188(1):116031.(SCI 1区top,IF=8.857)
●HE G X,ZOU Q,LIAO K X,et al. Corrosion mechanism of high temperature and O2 content in steamed CO2/O2/SO2 system and failure behavior of 20G steel on steam-injection pipelines[J]. Process Safety and Environmental Protection,2022,163(1):528-542.(SCI 2区,IF=7.926)
●HE G X,CHEN D,LIAO K X,et al. A methodology for the optimal design of gathering pipeline system in old oilfield during its phased development process[J]. Computers & Industrial Engineering,2019,130(1):14-34.(SCI 2区,IF=7.18)
●HE G X,HE T,LIAO K X,et al. Experimental and numerical analysis of non-contact magnetic detecting signal of girth welds on steel pipelines[J]. ISA transactions,2022,125(1):681-698.(SCI 2区,IF=5.911)
●HE G X,LIN M,WANG B,et al. Experimental and numerical research on the axial and radial concentration distribution feature of miscible fluid interfacial mixing process in products pipeline for industrial applications[J]. International Journal of Heat and Mass Transfer,2018,127(3):728-745.(SCI 2区,IF=3.458)
●HE G X,LI Y,YIN B,et al. Numerical simulation of vapor condensation in gas-water stratified wavy pipe flow with varying interface location[J]. International Journal of Heat and Mass Transfer,2017,115(2):635-651.(SCI 2区,IF=3.458)
●LI Y,HE G X,SUN L,et al. Numerical simulation of oil-water non-Newtonian two-phase stratified wavy pipe flow coupled with heat transfer[J]. Applied Thermal Engineering,2018,140(1):266-286.(SCI 2区,IF=3.444)
●HE G X. Heat transfer and phase change characterization of multicomponent vapor/condensation stratified flow in a hydrocarbon pipeline[J]. Industrial & Engineering Chemistry Research,2017,56(29):8358-8374.(SCI 2区,IF=2.843)
●HE G X,TANG D,YIN B,et al. Comparison and analysis of drainage measures for draining accumulated water condensed from wet CBM and transported in surface gathering pipeline network[J]. Journal of Natural Gas Science and Engineering,2018,56(1):281-298.(SCI 3区)
●HE G X,PENG H,LIAO K X,et al. Assessment of cathodic protection effect on long‐distance gas transportation pipelines based on buried steel specimens[J]. Materials and Corrosion,2021,72(5):839-858.(SCI 4区)
●HE G X,YANG N,LIAO K X,et al. A novel numerical model for simulating the quantity of tailing oil in the mixed segment between two batches in product pipelines[J]. Mathematical Problems in Engineering,2019,10(1):1-14.(SCI 4区)
●HE G X,LI Y,LIN M,et al. Optimization of gathering and transmission pipe network layout in gas field and pipeline route in 3D terrain[J]. Journal of Pipeline Systems Engineering and Practice,2019,10(2):04019009.(SCI 4区)
●HE G X,NIE S,SUN L,et al. Numerical simulation for the separation process of suspended fine sand from oil and water emulsion in a large-size sedimentation tank[J]. Desalination and Water Treatment,2018,115(1):153-171.(SCI 4区)
●QIN M,LIAO K X,HE G X,et al. Quantitative risk assessment of static equipment in petroleum and natural gas processing station based on corrosion-thinning failure degree[J]. Process Safety and Environmental Protection,2023,172(4):144-156.
●LENG J H,TIAN Z Y,LIAO K X,HE T J,LIU X,HE G X,et al. Localised corrosion failure of an L245N pipeline in a CO2–O2–Cl−environment[J]. Corrosion Engineering,Science and Technology,2023,58(3):1-12.
●HE T J,LIAO K X,TANG J,HE G X,et al. Quantitative study of sensor-pipe distance in non-contact magnetic detection of ferromagnetic pipelines[J]. IEEE Sensors Journal,2023,23(8):1-17.
●QIN M,LIAO K X,CHEN S J,HE G X,et al. Numerical simulation of gas-liquid flow in inclined shale gas pipelines[J]. Chemical Engineering Research and Design,2023,190(2):605-618.
●LI X X,LIAO K X,HE G X,et al. Research on Improved Wavelet Threshold Denoising Method for Non-Contact Force and Magnetic Signals[J]. Electronics,2023,12(5):1244.
●LIAO K X,WANG Y W,CHEN D,HE G X,et al. Parametric Study on Natural Gas Leakage and Diffusion in Tunnels[J]. Journal of Pipeline Systems Engineering and Practice,2023,14(2):04023003.
●HE T,LIAO K X,HE G X,et al. Quantitative study on magnetic-based stress detection and risk evaluation for girth welds with unequal wall thickness of high-grade steel pipelines[J]. Journal of Natural Gas Science and Engineering,2022,108(10):104825.
●LI X,LIAO K X,HE G X,et al. Influence of Blunt-Nose and Conical Fragment on Domino Accident Probability in Spherical-Tank Area[J]. Process Safety and Environmental Protection,2021,146(10):800-810.
●LIAO K X,QIN M,HE G X,et al. Study on corrosion mechanism and the risk of the shale gas gathering pipelines[J]. Engineering Failure Analysis,2021,128(10):1350-6307.
●LIAO K X,QIN M,YANG N,HE G X,et al. Corrosion main control factors and corrosion degree prediction charts in H2S and CO2 coexisting associated gas pipelines[J]. Materials Chemistry and Physics,2022,292(10):126838.
●LIAO K X,ZHOU F,SONG X,WANG Y,ZHAO S,LIANG J,CHEN L,HE G X. Synergistic effect of O2 and H2S on the corrosion behavior of N80 Steel in a simulated high-pressure flue gas injection system[J]. Journal of Materials Engineering and Performance,2020,29(1):155-166.
●QIN M,HE G X,LIAO K X,et al. CO2-O2-SRB-Cl-Multifactor synergistic corrosion in shale gas pipelines at a low liquid flow rate[J]. Journal of Materials Engineering and Performance,2022,31(6):4820-4835.
●QIN M,LIAO K X,HE G X,et al. Main control factors and prediction model of flow-accelerated CO2/H2S synergistic corrosion for X65 steel[J]. Process Safety and Environmental Protection,2022,160(1):749-762.
●QIN M,LIAO K X,HE G X,et al. Flow influenced initiation and propagation of SRB corrosion on L360N carbon steel[J]. Arabian Journal for Science and Engineering,2022,47(9):11469-11480.
●QIN M,LIAO K X,HE G X,et al. Corrosion mechanism of X65 steel exposed to H2S/CO2 brine and H2S/CO2 vapor corrosion environments[J]. Journal of Natural Gas Science and Engineering,2022,106(1):104774.
●YANG Y,ZHENG P,ZENG F,XIN P,HE G X,et al. Metal corrosion rate prediction of small samples using an ensemble technique[J]. Cmes-Computer Modeling in Engineering & Sciences,2023,134(1):267-291.
●ZHANG H,QIN M,LIAO K X,WANG K,HE G X. Pipe-soil vibration characteristics of natural gas pipelines during the pigging process[J]. Journal of Natural Gas Science and Engineering,2021,95(1):104148.
●ZHAO J,LIAO K X,LI X,HE G X,et al. Collaborative detection and on-line monitoring of pipeline stress in oil and gas stations[J]. MEASUREMENT SCIENCE and TECHNOLOGY,2022,33(10):105001.
●ZHAO S,LIAO K X,HE G X,et al. Application of internal corrosion direct assessment in CO2 slug flow submarine pipelines[J]. JOURNAL OF TAIBAH UNIVERSITY FOR SCIENCE,2021,15(1):984-998.
●ZHAO S,LIAO K X,LIU Y,MIAO C,WEI C,HE G X. Corrosion prediction model of submarine mixed pipeline X65 steel under a CO2/Cl-synergistic system[J]. Arabian Journal for Science and Engineering,2022,47(9):11673-11685.
●ZHAO S,LIAO K X,WANG X,ZHOU F,SONG X,HE G X. Corrosion behavior of 35CrMo steel in a CO2/O2 coexistent simulating environment of fire-drive tail gas[J]. Materials Chemistry and Physics,2021,272(1):125016.
●ZHAO S,LIAO K X,ZHOU F,LENG J,HUANG Q,HE G X. Effect of temperature on the corrosion behavior of L245NS steel in a CO2/H2S/O2 multi-component thermal fluid collection and transportation system[J]. Arabian Journal for Science and Engineering,2022,47(9):11223-11237.
●ZOU Q,LIAO K X,LENG J,ZHAO S,HE G X,et al. Corrosion mechanism of oil field gathering pipeline containing small H2S impurity[J]. Arabian Journal for Science and Engineering,2022,47(9):12075-12087.
●何国玺,唐鑫,冷吉辉,等.温度和O2含量在CO2/H2S/O2体系中对输气管道的腐蚀行为研究[J].表面技术,2022,1(1):1-11.
●何国玺,唐鑫,黄小明,等.页岩气集输管网适应性评价分析[J].科学技术与工程,2022,22(24):10550-10556.
●何国玺,覃敏,廖柯熹.顺序输送成品油质量指标值衰减规律研究进展[J].科学技术与工程,2019,19(30):1-8.
●何国玺,汤东东,王剑波,等.基于Gamma-χ2分布的混油拖尾现象预测[J/OL].油气储运,2018,38(1):1-10.
●何国玺,汤东东,孙丽颖,等.油田集调气系统停机工况下的调气方案优化[J].油气储运,2018,37(2):173-182.
●何国玺,聂四明,李岩松,等.液体管道破损处泄漏特性实验环道设计[J].管道技术与设备,2018,1(5):11-14.
●何国玺,李岩松,王博弘,等.基于无线通信基站的清管器实时三维定位方法[J].油气储运,2018,37(7):780-789.
●何国玺,梁永图,李岩松,等.基于电导率的混油界面检测装置[J].石油化工高等学校学报,2017,30(3):61-65.
●何国玺,梁永图,李岩松,等.成品油管道打孔盗油量测算方法[J].石油科学通报,2017,2(1):86-101.
●何国玺,梁永图,李岩松,等.埋地液烃管道泄漏扩散及泄漏量测算研究进展[J].油气储运,2017,36(1):8-20.
●何国玺,王宝莹,林默涵,等.埋地成品油管道泄漏后油品渗流扩散规律[J].北京石油化工学院学报,2017,25(4):75-82.
●何国玺,聂四明,方利民,等.成品油顺序输送实验环道设计[J].管道技术与设备,2017,1(6):1-5,24.
●何国玺,李蛟鸾,李岩松,等.电容式混油界面检测装置设计[J].管道技术与设备,2017,1(5):17-21.
●何国玺,梁永图,方利民,等.考虑三维地形及障碍的煤层气田集输系统布局优化[J].油气储运,2016,35(6):638-647.
●叶男,廖柯熹,何国玺,等.油气集输缓蚀剂缓蚀效率的影响因素及评价方法综述[J].材料保护,2022,55(9):167-179.
●何腾蛟,廖柯熹,何国玺,等.埋地天然气管道安全状态检测评价技术分析[J].无损检测,2022,44(7):13-18.
●王亮,廖柯熹,何国玺,等.地面堆载对高后果区埋地管道承载能力的影响[J].科学技术与工程,2022,22(15):6084-6091.
●赵建华,廖柯熹,贾彦杰,古丽,何国玺,等.立式成品油储罐底板缺陷的声发射检测[J].无损检测,2022,44(5):60-63,70.
●廖柯熹,黄元洁,何国玺,等.燃气爆炸荷载下隧道砌体损伤规律与事故影响范围研究[J].中国安全生产科学技术,2022,18(4):84-91.
●李博阳,廖柯熹,何国玺,等.弱磁检测技术研究进展与展望[J].电子测量与仪器学报,2022,36(3):1-14.
●赵帅,廖柯熹,何国玺,等.CO2/O2环境下L320钢在不同流速下的腐蚀行为研究[J].材料保护,2022,55(1):95-101
●邹庆,廖柯熹,刘昕瑜,何国玺,等.注蒸汽管道在CO2/O2/SO2环境中的腐蚀行为[J].表面技术,2022,51(7):225-235.
●赵帅,廖柯熹,周飞龙,杜伟,冷吉辉,唐鑫,何国玺.CO2/H2S共存条件下集输管道选材的新方法及应用[J].科学技术与工程,2021,21(31):13313-13318.
●廖柯熹,王亮,何腾蛟,廖德琛,何国玺.管道应力长期监测与报警系统[J].智能制造,2021(S1):53-61.
●廖柯熹,廖德琛,何腾蛟,王亮,何国玺.一种埋地管道全线检测与评价方法[J].智能制造,2021,A1(S1):125-129,133.
●廖柯熹,王敏安,彭浩,何国玺,等.页岩气三甘醇脱水装置脱水效果影响因素分析[J].辽宁石油化工大学学报,2021,41(5):1-8.
●叶男,廖柯熹,何国玺,等.页岩气地面集输管道腐蚀原因分析及防护措施研究[J].材料保护,2021,54(9):142-147,178.
●朱洪东,廖柯熹,何国玺,等.山区滑坡管道应力磁检测技术[J].科学技术与工程,2021,21(23):9856-9863.
●王旭,廖柯熹,彭善碧,何国玺,等.罐区可燃气体探测器优化设置研究进展[J].应用化工,2021,50(10):2809-2813.
●廖柯熹,王敏安,杨建英,彭浩,何国玺,等.天然气管网系统性能评价指标及方法研究进展[J].科学技术与工程,2021,21(14):5630-5640.
●廖柯熹,彭浩,曾昭雄,何国玺,等.页岩气测试平台积液原因及排液对策研究[J].辽宁石油化工大学学报,2021,41(1):37-44.
●李刚,邬姝琰,王畅,冷吉辉,何国玺.CN页岩气田地面建设界面及建设模式研究[J].天然气与石油,2021,39(1):1-6.
●廖柯熹,彭浩,何国玺,等.中国页岩气田地面工程技术研究进展[J].科学技术与工程,2020,20(28):11400-11412.
●廖柯熹,彭浩,何腾蛟,何国玺,等.埋地管道环焊缝非接触式磁力检测技术及应用[J].热加工工艺,2020,49(23):111-117.
●廖柯熹,覃敏,何国玺,等.油气集输管线冲刷腐蚀规律研究进展[J].材料保护,2020,53(7):126-136.
●廖柯熹,彭浩,何国玺,等.页岩气测试平台波纹板分离器的分离性能研究[J].石油机械,2020,48(2):104-113,119.
●冷吉辉,廖柯熹,徐明军,何国玺,等.气田加密部署及井网优化研究进展[J].辽宁石油化工大学学报,2020,40(1):39-42.
●刘诗桃,廖柯熹,何国玺,等.壳聚糖及其衍生物在金属缓蚀剂方面的研究应用综述[J].表面技术,2020,49(1):132-141,172.
●廖柯熹,何腾蛟,李明红,何国玺.埋地油气管道应力集中磁力外检测技术[J].中国测试,2019,45(12):25-30,55.
●廖柯熹,王旭,何国玺,等.Zn-TiO2复合镀层在硫酸盐还原菌环境下的腐蚀特性[J].材料保护,2019,52(11):23-27,43.
●孙健飞,李岩松,韩东,何国玺,等.基于多重网格技术的含蜡原油管道析蜡速率三维数值模拟研究[J].工程热物理学报,2019,40(0):1913-1920.
●廖柯熹,周飞龙,何国玺,等.流动条件下20钢在H2S/CO2共存体系中的腐蚀行为及预测模型研究[J].材料保护,2019,52(7):29-36.
●陈迪,廖柯熹,何国玺,等.基于EWM-GRA的腐蚀主控因素分析与腐蚀模型建立[J].表面技术,2019,48(6):268-273.
●夏惠芳,李岩松,何国玺,等.成品油管道泄漏量测算误差及敏感性分析[J].辽宁石油化工大学学报,2019,39(3):46-51.
●李岩松,王剑波,丁鼎倩,何国玺,等.基于反问题理论的油库管道阀门控制方案[J].油气储运,2019,38(5):554-561.
●王博弘,梁永图,张浩然,何国玺,等.三维地形下环枝状复合型集输管网拓扑结构优化[J].油气储运,2018,37(5):515-521.
●林默涵,何国玺,李岩松,等.海底管道溢油扩散数值模拟研究[J].北京石油化工学院学报,2017,25(4):83-90.
●高杰,李岩松,何国玺.煤层气管道排液方式综合评价模型[J].北京石油化工学院学报,2017,25(4):91-94.
●梁永图,何国玺,方利民,等.温度对成品油管道顺序输送过程的影响研究进展[J].科学通报,2017,62(22):2520-2533.
●高杰,梁永图,何国玺,等.煤层气地面集输管网的瞬态水力热力计算模型[J].天然气工业,2017,37(7):108-114.
●高杰,梁永图,何国玺,等.地形起伏条件下的煤层气管网稳态计算模型[J].石油化工高等学校学报,2017,30(3):84-88,94.
●吴梦雨,梁永图,何国玺,等.成品油管道泄漏量测算软件[J].石油化工高等学校学报,2017,30(2):71-76.
●解宁,罗鑫楷,薛文第,梁永图,何国玺,等.成品油在土壤中扩散的数值模拟分析[J].油气田地面工程,2017,36(4):24-26.
●解宁,罗鑫楷,薛文第,梁永图,何国玺.成品油在水中扩散的数值模拟分析[J].石油规划设计,2016,27(5):9-12,54.
●任玉鸿,梁永图,何国玺.页岩气地面集输管网拓扑优化[J].油气田地面工程,2016,35(6):54-57.
●方利民,梁永图,何国玺.顺序输送环道中弯管结构对混油量的影响分析[J].辽宁石油化工大学学报,2016,36(3):24-29.
●段志刚,梁永图,何国玺,等.多源单汇液态轻烃管网系统调度优化[J].油气田地面工程,2016,35(1):1-4.
●梁永图,王继慧,何国玺,等.老油田集输系统改造管网拓扑优化[J].油气储运,2014,33(9):971-975.
(2)参加学术会议
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●HE G X,ZHAO J H,LIAO K X,et al. Feasibility analysis and minimum flowable temperature calculation method of normal temperature gathering and transportation process in oilfield[C]. Calgary,Alberta,Canada:International Pipeline Conference. American Society of Mechanical Engineers,Sep. 26–30,2022,86588:V003T04A024.
●HE G X,HE T,LIAO K X,et al. A novel three-dimensional non-contact magnetic stress inspection technology and its application on LNG pipeline[C]. Calgary,Alberta,Canada:International Pipeline Conference. American Society of Mechanical Engineers,Sep. 28-Oct. 1,2020,84461.
●HE G X,CHEN S,LIAO K X,et al. Study on the distribution of submarine pipeline corrosion defects based on internal inspection data and data mining method[C]. Calgary,Alberta,Canada:International Pipeline Conference. American Society of Mechanical Engineers,Sep. 28-Oct. 1,2020,84454.
●HE G X,QIN M,LIAO K X. Prediction of the quality indicators’ distribution in mixed oil segment and the corresponding cutting point in multiproduct pipelines[C]. Tokyo,Japan:The 7th Asian Symposium on Computational Heat Transfer and Fluid Flow, Sep.3-7. 2019.
●HE G X,WANG B,SUN L,et al. Numerical simulation of mass transfer process in hilly products pipeline under shutdown condition[C]. Beijing,China:16th International Heat Transfer Conference,Aug.10-15,2018.
●HE G X,TANG D,LI Y,et al. Numerical modeling of the fluid concentration distribution during the interfacial contamination process in multiproduct pipeline[C]. Chennai,India:6th Asian Symposium on Computational Heat Transfer and Fluid Flow,Dec.10-13,2017.
●HE G X,LI Y,HUANG Q,et al. Numerical prediction of liquid level in a large diameter rich gas pipeline under the gas-liquid stratified flow condition[C]. Chennai,India:6th Asian Symposium on Computational Heat Transfer and Fluid Flow,Dec.10-13,2017.
●HE G X,LIANG Y,Fang L,et al. Optimization of planning and scheduling of refinery product based on downstream requirements[C]. Calgary,Alberta,Canada:11th International Pipeline Conference,Sep.26-30,2016.
●HE G X,LIANG Y,GAO J,et al. A study on the accumulation and distribution of condensate water in a CBM field gas pipeline system[C]. Bangkok,Thailand:International Petroleum Technology Conference,Nov.14-16,2016.
●HE G X,WU M,LI F,et al. Prediction of the volume of product oil leaking and the aperture of leaking area in practical transportation pipelines[C]. Beijing,China:5th world conference on safety of oil and gas industry,Oct.26-29,2016.
(3)授权专利与软件著作权
●何腾蛟,廖柯熹,何国玺,等. SAFETY PIPE LOOP AND METHOD FOR STRAIN MONITORING OF MOUNTAINOUS PIPELINES:US11402194B2[P].2022-07-13.
●何国玺,何腾蛟,廖柯熹,等. NON-CONTACT REAL-TIME STRESS MONITORING METHOD FOR BURIED PIPELINE:US10724906B1[P].2020-07-28.
●夏国强,陈小榆,廖柯熹,何腾蛟,何国玺.一种穿越公路管段承载能力分析方法:CN114444229B[P].2022-09-30.
●赵建华,廖柯熹,夏凤,熊红扬,何国玺,等.一种用于管道高后果区识别的无人机系统和方法:CN112904878B[P].2022-08-16.
●覃敏,廖柯熹,何国玺,等.一种含二氧化碳和硫化氢六因素局部腐蚀速率预测模型:CN114062236B[P].2022-08-09.
●廖德琛,廖柯熹,何国玺,等.一种管道磁异常综合指数F值快速计算方法及实验装置:CN113916976B[P].2022-07-29.
●何腾蛟,何国玺,廖柯熹,等.一种石油储罐罐壁缺陷磁检测装置与方法:CN113466327B[P].2022-07-26.
●赵帅,廖柯熹,何国玺,等.一种集输管道选材的评判方法:CN113933234B[P].2022-07-01.
●王亮,廖柯熹,何国玺,等.一种山区管道应变在线监测系统:CN113155017B[P].2022-05-24.
●何国玺,黄元洁,廖柯熹,等.输气管道喷射火对邻近液烃管安全性影响实验平台及方法CN112557441B[P].2022-04-15.
●赵建华,廖柯熹,何国玺,等.一种基于雾计算的油气站场安全组合监测系统与方法:CN113037984B[P].2022-04-12.
●何腾蛟,廖柯熹,何国玺,等.一种山区管道应变监测安全管环与方法:CN112504112B[P].2022-04-05.
●姜新慧,廖柯熹,覃敏,何国玺,等.一种管道内腐蚀主控因素快速识别方法:CN113063725B[P].2022-03-29.
●李博阳,廖柯熹,何国玺,等.一种埋地金属管道埋深及走向检测方法:CN113138421B[P].2022-01-28.
●廖德琛,何腾蛟,廖柯熹,何国玺,等.一种管道缺陷快速磁检测装置与方法:CN113154263B[P].2021-12-21.
●廖德琛,廖柯熹,何腾蛟,何国玺,等.一种管道轴向应力快速检测装置与方法:CN113375846B[P].2021-12-03.
●覃敏,廖柯熹,张世坚,何国玺,等.一种湿天然气管道内腐蚀高风险段识别方法:CN112214940B[P].2021-10-15.
●廖柯熹,杨娜,何国玺,等.一种天然气枝状管网泄漏管段识别方法:CN111706785B[P].2021-06-18.
●何国玺,唐鉴,廖柯熹,等.山地输气管道内腐蚀缺陷检测与评价方法:CN111637367B[P].2021-03-09.
●廖柯熹,朱洪东,何腾蛟,何国玺,等.管道安全状态评估方法与阶梯式升压管道安全复产方法:CN110822297B[P].2021-02-02.
●覃敏,廖柯熹,何国玺,等.一种山地湿气管道气液两相流腐蚀试验装置:CN111624153B[P].2020-12-15.
●廖...
研究领域为油气储运系统结构与安全、油气管道流动保障、管道/站场检测评价、油气管道完整性管理与智能管道技术。在油气储运系统复杂传热传质、腐蚀机理、泄漏、检测及评价、内外腐蚀直接评估方法、缓蚀剂实验评价、管道流动性安全保障、智能管道技术方面开展基础理论与应用研究。
安全与智能管道(SSP)团队由15名教师、36名硕、博士生组成,教师中教授6人、副教授5人、讲师4人。涵盖油气储运工程、材料工程、安全工程、计算机科学、人工智能、软件工程、数据科学、算法工程等学科专业。主要研究人员具有海外留学经历,具有独立从事一流水平研究并开发具有完全自主知识产权科研产品的能力,同时具有丰富的科研与工程经验,已培养博士与硕士研究生120余人。
团队长期从事油气管道腐蚀与缺陷评价、管道检测与评价、安全与完整性管理、失效模式识别与机理分析、油气管道大数据挖掘与数据利用、算法研发与软件平台开发等方面的原创性科学研究、技术研发。近5年,获省部级科技进步奖十余项,发表论文300余篇,专利百余件,软件著作权50余项;承担国家自然科学基金项目4项、省部级项目30项、企业合作项目60余项。