第一/通讯(*)作者SCI论文

11. 王一波, 刘绍文, 陈超强, 姜光政, 武金辉, 郭兰泳, 王亚奇, 张慧慧, 王朱亭, 江晓雪, 朱传庆, 左银辉, 胡杰, 张超, 何丽娟, 胡圣标, 庞忠和, 汪集暘, 2024. 中国陆域大地热流数据汇编 (第五版). 地球物理学报 67, 4233-4265.

10. Wu, J., Wang, Y.*, He, L., Wang, Z., Hu, J., Wang, Y., Hu, S., 2024. Thermo-rheological structure of the southern section of the Tan-Lu Fault Zone and surrounding areas: Tectonic and geodynamic implications. Lithosphere (In Press).

9. Wu, J., Wang, Y.*, He, L., Wang, L., Guan, J., Chen, J., Wang, Z., Wang, Y., Hu, S., 2024. Differences and Causal Mechanisms in the Lithospheric Thermal Structures in the Cratons in East China: Implications for Their Geothermal Resource Potential. Energies 17, 1752.

8. Wang, Y., Furlong, K., Fuchs, S., He, L., Hu, S., 2023. Terrestrial heat flow variation with depth caused by anomalously high radiogenic heat production. Geophys. Res. Lett. 50, e2022GL102312.

7. Wang, Y., Wang, L., Bai, Y., Wang, Z., Hu, J., Hu, D., Wang, Y., Hu, S., 2021. Assessment of Geothermal Resources in the North Jiangsu Basin, East China, Using Monte Carlo Simulation. Energies 14, 259.

6. Wang, Y., Bai, Y., Wang, L., Guan, J., Wang, Y., Wang, Z., Hu, J., Hu, S., 2021. Exploration process and genesis mechanism of deep geothermal resources in the North Jiangsu Basin, East China: from nothing to something. Front. Earth Sci., 1242.

5. Wang, Y., Wang, Z., Shi, L., Rong, Y., Hu, J., Jiang, G., Wang, Y., Hu, S., 2021. Anisotropic Differences in the Thermal Conductivity of Rocks: A Summary from Core Measurement Data in East China. Minerals 11, 1135.

4. Wang, Y., Wang, L., Hu, D., Guan, J., Bai, Y., Wang, Z., Jiang, G., Hu, J., Tang, B., Zhu, C., 2020. The present-day geothermal regime of the North Jiangsu Basin, East China. Geothermics 88, 101829.

3. Wang, Y., Hu, S., Wang, Z., Jiang, G., Hu, D., Zhang, K., Gao, P., Hu, J., Zhang, T., 2019. Heat flow, heat production, thermal structure and its tectonic implication of the southern Tan-Lu Fault Zone, East–Central China. Geothermics 82, 254-266.

2. 王一波, 胡圣标, 聂栋刚, 张克松, 姜光政, 王朱亭, 2019. 郯庐断裂带是热异常带吗: 来自断裂带南段热流的约束. 地球物理学报 62, 3078-3094.

1. Wang, Y., Hu, S., Wang, Z., Jiang, G., Hu, D., Zhang, K., Gao, P., Hu, J., Zhang, T., 2019. Data of temperature, thermal conductivity, heat production and heat flow of the southern Tan-Lu Fault Zone, East–Central China. Data Brief 26, 104459.

主要合作者论文

2024

23. Wang, Z., Gao, P., Hu, S., Wang, Y., Fang, H., Shi, Y., Zhang, C., Jiang, G., 2024. Influence of specific heat capacity variation with temperature and other important parameters on the thermal reservoir performance in the geothermal doublet system. Int. J. Energy Res. 2024, 5567936.

22. Wang, Y., Wang, Y., Jiang, G., Hu, J., Shi, Y., Wang, S., Hu, S., 2024. A Method for Determining Target Areas of Hot Dry Rock Resources: A Case Study in Continental China. Energies 17, 2435.

21. 饶松, 罗洋, 黄顺德, 张英, 王社教, 王一波, 胡圣标, 2024. 冀中坳陷岩溶热储地下水对流活动的聚热效应. 地球物理学报 67, 3075-3088.

2023

20. Fuchs, S., Norden, B., Neumann, F., Kaul, N., Tanaka, A., Kukkonen, I.T., Pascal, C., Christiansen, R., Gola, G., Šafanda, J., Espinoza-Ojeda, O.M., Marzan, I., Rybach, L., Balkan-Pazvantoğlu, E., Ramalho, E.C., Dědeček, P., Negrete-Aranda, R., Balling, N., Poort, J., Wang, Y., Jõeleht, A., Rajver, D., Gao, X., Liu, S., Harris, R., Richards, M., McLaren, S., Chiozzi, P., Nunn, J., Madon, M., Beardsmore, G., Funnell, R., Duerrast, H., Jennings, S., Elger, K., Pauselli, C., Verdoya, M., 2023. Quality-assurance of heat-flow data: The new structure and evaluation scheme of the IHFC Global Heat Flow Database. Tectonophysics 863, 229976.

19. Jiang, G., Hu, S., Cui, T., Qian, C., Liu, F., Zhang, C., Wang, Z., Wang, Y., Hou, T., Tian, Y., 2023. Thermal structure beneath Changbaishan Volcano, northeastern Asia: new insights from temperature logging and numerical modelling. Geophys. J. Int. 235, 1228-1239.

18. Li, X., Jiang, G., Tang, X., Zuo, Y., Hu, S., Zhang, C., Wang, Y., Wang, Y., Zheng, L., 2023. Detecting geothermal anomalies using multi-temporal thermal infrared remote sensing data in the Damxung–Yangbajain Basin, Qinghai–Tibet Plateau. Remote Sens. 15, 4473.

17. 孔彦龙, 黄坚, 徐雪球, 官煜, 汪燕林, 程远志, 王一波, 龚宇烈, 张伟尊, 罗冠中, 2023. 长三角地区地热能评价. 科技导报 41, 20-24.

2022

16. Hu, J., Tian, Y., Li, Z., Jiang, G., Zuo, Y., Zhang, C., Wang, Y., Wang, Y., Hu, S., 2022. GeothermoTool: An open-source software for basic geothermal calculations and plots. Geothermics 106, 102551.

15. 王朱亭, 胡圣标, 王一波, 姜光政, 张超, 2022. 雄安牛驼镇凸起区高渗性白云岩对上覆地层温度场的影响. 地球物理学报 65, 726-736.

14. 姜光政, 王亚奇, 胡杰, 张超, 王一波, 左银辉, 唐显春, 马峰, 胡圣标, 2022. 中国中-高温地热资源勘探方向与优选靶区. 科技导报 40, 76-82.

2021

13. Hu, J., Jiang, G., Wang, Y., Hu, S., 2021. Thermal Conductivity Estimation Based on Well Logging. Mathematics 9, 1176.

12. Wang, Z., Gao, P., Jiang, G., Wang, Y., Hu, S., 2021. Heat Flow Correction for the High-Permeability Formation: A Case Study for Xiong’an New Area. Lithosphere 2021, 9171191.

11. Wang, Z., Rao, S., Xiao, H., Wang, Y., Jiang, G., Hu, S., Zhang, C., 2021. Terrestrial heat flow of Jizhong depression, China, Western Bohai Bay basin and its influencing factors. Geothermics 96, 102210.

10. Wang, Z., Zhang, C., Jiang, G., Wang, Y., Hu, S., 2021. Effect of different exploitation schemes on production performance from the carbonate reservoir: A case study in Xiong'an new area. J. Clean Prod. 314, 128050.

9. 胡杰, 龙祖烈, 黄玉平, 张林友, 胡迪, 王一波, 胡圣标, 2021. 珠江口盆地白云凹陷新生代构造-热演化模拟. 地球物理学报 64, 1654-1665.

2020

8. Hu, D., Tian, Y., Hu, J., Rao, S., Wang, Y., Zhang, C., Hu, S., 2020. Thermal imprints of late Permian Emeishan basalt effusion: Evidence from zircon fission-track thermochronology. Lithos 352, 105224.

7. Bai, Y., Zhang, L., Zhu, M., Huang, K., Wang, Y., Shi, F., 2020. Mineralogy and He–Ar isotopic compositions of pyrites in the Paishanlou Au deposit on the northern margin of North China Craton. Geol. J. 55, 5865-5884.

6. Hu, J., Tian, Y., Long, Z., Hu, D., Huang, Y., Wang, Y., Hu, S., 2020. Thermo-rheological structure of the northern margin of the South China Sea: Structural and geodynamic implications. Tectonophysics 777, 228338.

2019及以前

5. Hu, D., Tian, Y., Hu, J., Rao, S., Wang, Y., Zhang, C., Hu, S., 2019. Data of thermal imprints of late Permian Emeishan basalt effusion: Evidence from zircon fission-track thermochronology. Data Brief 27.

4. Wang, Z., Jiang, G., Zhang, C., Hu, J., Shi, Y., Wang, Y., Hu, S., 2019. Thermal regime of the lithosphere and geothermal potential in Xiong'an New Area. Energy Explor. Exploit. 37, 787-810.

3. Zhang, C., Jiang, G., Jia, X., Li, S., Zhang, S., Hu, D., Hu, S., Wang, Y., 2019. Parametric study of the production performance of an enhanced geothermal system: A case study at the Qiabuqia geothermal area, northeast Tibetan plateau. Renew. Energy 132, 959-978.

2. 张超, 张盛生, 李胜涛, 贾小丰, 姜光政, 高堋, 王一波, 胡圣标, 2018. 共和盆地恰卜恰地热区现今地热特征. 地球物理学报 61, 4545-4557.

1. 高堋, 胡圣标, 姜光政, 李春荣, 王裔, 张超, 胡迪, 王一波, 王朱亭, 2017. 沉积盆地热历史研究方法的基本原理与进展. 地学前缘 (中国地质大学 (北京) )24.

口头报告

10. 08/12/2024, 流形拟合在交叉学科中的应用研讨会, 上海, 中国, 中国大地热流数据库及机器学习在地热学的潜在应用.

9. 21/10/2024, 2024年中国地球科学联合学术年会, 厦门, 中国, 中国大地热流汇编及热流研究新进展.

8. 13/10/2024, 第二届中国地热前沿论坛, 北京, 中国, 郯庐断裂带中南段大地热流、热结构及其构造指示.

7. 17/10/2023, World Geothermal Congress 2023, Beijing, China, Characteristics and genesis mechanism of deep geothermal resources in East China: take the North Jiangsu Basin as an example.

6. 17/07/2023, International Union of Geodesy and Geophysics, Berlin, Germany, Heat flow, thermal structure and its tectonic implication of the south-central Tan-Lu Fault Zone (TLFZ), East China.

5. 10/06/2023, 第六届青年地质论坛, 武汉, 中国, 沉积盆地地热资源优势区的识别与成因分析：以苏北盆地为例.

4. 20/06/2022, 7th International Meeting on Heat Flow and the Thermal Structure of the Lithosphere (Cermak Conference), Potsdam, Germany, New advances in heat flow measurement in China (国际会议).

3. 03/12/2021, 江苏省地质调查院2021年学术研讨会, 南京, 中国, 苏北盆地干热岩靶区的三维地壳热结构.

2. 22/11/2020, 中国地质调查局深部探测中心研讨会, 北京, 中国, 下扬子克拉通的热结构研究.

1. 11/06/2020, 中国能源研究会地热专业委员会学术年会, 济南, 中国, 苏北盆地现今地热特征及成因分析.