骆 进*

发布时间:Oct 12, 2017点击量:

基本信息

姓名:骆进

职称:副教授(博士生导师)

E-mail:jinluo@cug.edu.cn

地址: 湖北省武汉市鲁磨路388号,中国地质大学(武汉)半岛线上官网(中国)官方网站


工作经历

10/2019-11/2019      客座教授 (Guest Professor)

应用地质系,自然科学部,爱尔兰根-纽伦堡大学,德国

10/2017-09/2018      访问学者(Visiting Scholar)

土木与环境工程系,加州大学伯克利分校,伯克利,美国

12/2014 –至   今      副教授

半岛线上官网(中国)官方网站,中国地质大学(武汉),武汉,湖北,中国

教育背景

10/2010 – 04/2014:博士研究生学习,德国爱尔兰根-纽伦堡大学应用地质系, Geo-center of Northern Bavaria, University Erlangen-Nuremberg, Erlangen, Germany

研究方向:地热能调查;地热资源评估,地源热泵系统用于房屋供暖和制冷的研究;地下水调查和数值模拟;管道和裂隙热运移的模拟。

博士导师: Prof. Dr. Joachim Rohn

09/2008 – 07/2010:地质工程硕士

半岛线上官网(中国)官方网站,中国地质大学(武汉),武汉,湖北,中国

硕士导师: 项伟教授

09/2003 – 07/2008:岩土工程学士

半岛线上官网(中国)官方网站,中国地质大学(武汉),武汉,湖北,中国

学士导师: 项伟教授


招生专业、研究方向

硕士招生专业:地质工程、工程地质、岩土工程;

对考生的具体要求:诚实守信,勤奋刻苦

研究方向:地热资勘察与评价,地热能应用技术、地下水-热运移调查与数值计算、工程地质与岩土工程问题


主讲课程

《工程地质学基础》、《岩土工程勘察》、《岩土工程测试技术》


                                       

文章:(共发表论文SCI 论文28篇,以第一作者发表SCI 24篇,通讯作者1篇, ESI高被引论文一篇。EI 2篇

1. Luo J.*, Rohn J., Bayer M., Priess A., Xiang W. Analysis on performance of borehole heat exchanger in a layered subsurface. Applied Energy 123 (2014) 55-65. (SCI, IF=7.900).

2. Luo J.*, Rohn J., Bayer M., Priess A. Wilkmann L., Xiang W. Heating and cooling performance analysis of a ground source heat pump system in Southern Germany. Geothermics 53 (2015) 57-66. (SCI, IF=2.693). (ESI highly cited paper)

3. Luo J.*, Rohn J., Xiang W., Bayer M., Priess A., Wilkmann L., Steger H., Zorn R. Experimental investigation of a borehole field by Enhanced Geothermal Response Test and numerical analysis of performance of the Borehole Heat Exchangers. Energy, 84(2015) 473-484. (SCI, IF=4.968)

4. Luo J*, Zhao H.F., Gui S.Q., Jia J. Xiang W., Rohn J., Blum P. Study on operation management of borehole heat exchangers for a large-scale hybrid ground source heat pump system in China. Energy 123(2017) 340-352. (SCI, IF=4.968).

5. Luo J., Zhu Y.Q., Guo Q.H.*, Tan L., Zhuang Y.Q., Liu M.L., Zhang C.H., Zhu M.C., Xiang W. Chemical stimulation on the hydraulic properties of artificially fractured granite for enhanced geothermal system. Energy 142(2018) 754-764 (SCI, IF=4.968),

6. Luo J.*, Rohn J., Bayer M., Priess A. Thermal performance and economic evaluation of double U-tube borehole heat exchanger with three borehole diameters. Energy and Buildings 67 (2013) 217-224. (SCI, IF=4.457).

7. Luo J.*, Rohn J., Xiang W., Bertermann D., Blum P. Ground source heat pump system: A review of ground investigations in borehole field. Energy and Buildings 117(2016) 160-175 (SCI, IF=4.457).

8. Luo J.*, Rohn J., Bayer M., Priess A. Modeling and experiments on energy loss in horizontal connecting pipe of vertical ground source heat pump system. Applied Thermal Engineering 61 (2013) 55-64. (SCI, IF=3.771)

9. Luo J*, Zhao H.F., Gui S.Q., Xiang W., Rohn J., Blum P. Thermal-economic analysis of four different types of ground heat exchangers in energy piles. Applied Thermal Engineering, 108 (2016)11-19 (SCI, IF=3.771).

10. Luo J., Tuo J.S., Huang W., Zhu Y.Q., Jiao Y.Y.*, Xiang W., Rohn J. Influence of groundwater levels on effective thermal conductivity of the ground and heat transfer rate of borehole heat exchangers. Applied Thermal Engineering, DOI: 10.1016/j.applthermaleng.2017.08.148.(SCI, IF=3.771),

11. Luo J.*, Luo Z.Q., Xie J.H., Xia D.S., Huang W., Shao H.B., Xiang W., Rohn J. Investigation of shallow geothermal potentials for different types of ground source heat pump systems (GSHP) of Wuhan city in China. Renewable Energy 118 (2018) 230-244. (SCI, IF=4.900).

12. Luo J.*, Qiao Y., Xiang W., Rohn J. Measurements and analysis of the thermal properties of a sedimentary succession in Yangtze plate in China. Renewable Energy xxx (2018) 1-16. (SCI, IF=4.900). In press

13. Luo J., Zhang Q., Li L., Xiang W. Monitoring and characterizing the deformation of an earth dam in Guangxi Province, China. Engineering Geology 248(2019) 50-60. (SCI IF=3.100)

14. Luo J*, Zhao H.F., Gui S.Q., Xiang W., Rohn J. Study on thermal migration and the induced mechanical effects in double-U type energy piles. Computers and Geotechnics. (SCI, IF=3.318). 91(2017):1-11.

15. Luo J.*, Zhu Y.Q., Guo Q.H., Tan L., Zhuang Y.Q., Liu M.L., Zhang C.H., Xiang W., Rohn J. Experimental investigation of the hydraulic and heat-transfer properties of artificially fractured granite. Scientific Reports. (SCI, IF=4.122). Sci. Rep. 6, 39882; doi: 10.1038/srep39882 (2017).

16. Luo J.*, Xue W., Hu T., Xiang W., Rohn J. Thermo-economic analysis of borehole heat exchangers (BHE) grouted using drilling cuttings in a dolomite area. Applied Thermal Engineering. In press. (SCI, IF=3.771). DOI: 10.1016/j.applthermaleng.2018.12.130.

17. Luo J.*, Rohn J., Bayer M., Priess A. Thermal Efficiency Comparison of Borehole Heat Exchangers with Different Drillhole Diameters. Energies 6 (2013) 4187-4206. (SCI, IF=2.676)

18. Luo J.*, Qi Y.M., Zhao Q., Tan L., Xiang W., Rohn J. Investigation of Flow and Heat Transfer Characteristics in Fractured Granite. Energies 12 (2018) 1228:1-15. (SCI, IF=2.676)

19. Luo J*, Jia Jia, Haifeng Zhao, Yongqiang Zhu, Qinghai Guo, Chaojie Chenga, Long Tan, Wei Xiang, Joachim Rohn, Philipp Blum. Determination of thermal conductivity of sandstone from laboratory to field scale. Environ Earth Sci, 75(2016)1158:1-9 (SCI, IF=1.435)

20. Luo J*, Zhao H.F., Gui S.Q., Xiang W., Rohn J. Comparison of ground temperature response of energy pile and borehole heat exchanger during thermal response tests. Environ Earth Sci, (2016) 75-1158 (SCI, IF=1.435). DOI: 10.1007/s12665-016-6267-0.

21. Luo J.*, Zhao H.F., Huang W., Zhu Y.Q., Xiang W., Rohn J. Determination of ground thermal properties of energy piles by thermal response tests. Environmental Earth Sciences) 77(2018) https://dx.doi.org/10.1007/s12665-018-7265-1 (SCI, IF=1.435).

22. Chen J., Li E. Luo J*. Characterization of Microscopic Pore Structures of Rock Salt through Mercury Injection and Nitrogen Absorption Tests. Geofluids.https://doi.org/10.1155/2018/9427361. (SCI, IF=2.540).

23. Luo J.*, Zhang Q., Zhao H., Gui S., Xiang W., Rohn J., Soga K. The thermal and thermo-mechanical performance of energy piles with double U-loop and spiral loop heat exchangers.  Submitted to journal ASCE Journal of Geotechnical and Geo-environmental EngineeringAccepted. (SCI IF=3.305)

24. Wang G.L., Wang W.L., Luo J.*, Zhang Y.H. Assessment of geothermal resources and ground source heat pump application in provincial capitals in Yangtze River Basin, China. Renewable and Sustainable Energy Review. (SCI IF=10.019) 111(2019) 392-421. https://doi.org/10.1016/j.rser.2019.05.029

25.Liu M.L., Guo Q.H., Zhang X., Luo J., Li J.X., Zhou C., Guo W., Zhang C.H., Zhu M.C. Geochemistry of geothermal waters from the Gonghe region, Northwestern China: implications for identification of the heat source. Environ Earth Sci, (2016) 75:682. DOI 10.1007/s12665-016-5508-6. (SCI, IF=1.435)

26. Zhang X., uo Q.H., Liu M.L., Luo J., Yin Z.W., Zhang C.H., Zhu M.C., Guo W., Li J.X., Zhou C. Hydrogeochemical process occurring in the hydrothermal systems of the Gonghe-Guide basin, northwestern China: critical insights from a principal components analysis (PCA). Environ Earth Sci, (2016)75:1187 pp 1-9. (SCI, IF=1.435)

27. Tayyib M., Basharat M., Hameed N., Shafique M., Luo J. A data-driven approach for landslide susceptibility mapping in mountainous terrain: a case study from the NW Himalayas, Pakistan. ASCE Natural Hazards Review 2018, 19(4): 0501800 (SCI, IF=1, 833)

28. Wang W. Luo J., Wang G., Zhu X., Liu G. Study of the Sustainability of a Ground Source Heat Pump System by Considering Groundwater Flow and Intermittent Operation Strategies. Energy Exploration & Exploitation. Accept for publication. (SCI IF=1.204)

29.Luo J.*, Chen X.Y.*, Lu X.S.*. “Freeze-Dried Sample Making and SEM Tests to Study the Mechanism of Loess-Landslides Threatening a Pipeline of West-East Gas Transfer in Northern Shaanxi Provinces”, Proceedings of International Conference on Pipelines and Trenchless Technology, ASCE, (2009): 1524-1531. (EI, CORE)

30. 黄维,谢中识,杨永刚,刘红中,杨龙,王冰结,杨志慧,程超杰,项伟,骆进*. 能源桩桩身加筋混凝土热-力学性质试验研究. 岩土力学,2018 39(7): 1-8.


专利:(共7项专利,发明专利4项)

1.一种高温高压下岩石热物性参数测试方法及测试系统,发明专利,ZL201610848074.X, 2016921,2018112日,第一发明人;

2. 一种干热岩裂隙渗流和热交换过程可视化试验装置,发明专利ZL201610149230.3,2018427,第一发明人;

3. 一种中深部砂岩地热水平井开采结构,实用新型专利,ZL20172054556572017516,第一发明人;

4. 一种流固藕合条件下岩土热扩散特性测试装置,实用新型专利,ZL201520787708.620151012,第一发明人;

5.一种高温高压条件下岩石裂隙渗流参数测试装置,实用新型专利,ZL201620720146.82017222,第一发明人;

6. 一种高温高压下岩石热物性参数测试系统,实用新型专利,ZL201621077908.32016921,第一发明人;

7. 一种基于脱湿技术的多孔岩土体热物性参数测试系统,实用新型专利,ZL201720348240.X201745,第二发明人;


l 项目

1. 国家自然科学基金面上基金一项,项目名称为:“支撑剂对干热岩人工裂隙导流能力影响机制研究”(项目编号:41877200,资助金额:61万元)起止年月为:2019年01月-2022年12月,主持;

2. 国家自然科学基金青年基金一项,项目名称为:“周期性冷热负荷下白垩纪红砂岩热扩散时效规律研究”(项目编号:41502238,资助金额:21万元)起止年月为201601-201812月,主持;

3. 中央高校杰出人才基金一项,项目名称为:“岩土热物性参数分析及可视化三维地热信息建模” (项目编号:“CUGL150819和CUGL 150610”,起止年月:2015年1月-2017年12月,经费来源:中央高校启动基金,资助金额:20万元),主持;

4. 中央高校摇篮计划基金一项,项目名称为:“层状地质单元地热参数评估及信息管理” (项目编号:“CUGL150818”,起止年月:2018年1月-2020年12月,经费来源:中央高校启动基金,资助金额:30万元),主持;

5. 教育部留学回国人员启动资金一项,项目名称为:“层状地质单元地热参数评估及信息管理” (项目编号:教外司留【2015】1098号,起止年月:2015年12月-2016年12月,主持。


l 获奖

1、湖北省优秀学士学位论文, 2008

2、 湖北省优秀硕士学位论文, 2010

3、德国巴伐利亚州研究基金会奖博士学金Scholarship funded by Bavaria Research Foundation for PhD study, 拜仁州州政府,慕尼黑, 德国(10.2010 - 09.2013).

4、 德意志学术交流中心奖博士学金:Scholarship founded by Deutscher Akademischer Austausch Dienst (DAAD) for PhD study, 柏林,德国, (10.2013 - 01.2014).

5、2013 年度国家优秀自费留学生奖学金,中华人民共和国教育部,中国留学基金管理委员会。


l 审稿期刊

Applied Energy, Energy, Energy Conversion and Management, Geothermics, Energy and Buildings, Applied Thermal Engineering, International Journal of Thermal Science, Environmental Earth Science, Groundwater Research, International Journal of Energy Research, Engineering Geology……

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