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姓名 庞忠和 性别:
职称 研究员 学位 博士
电话 +86-10-82998611/8613/8566 传真: +86-10-62010846
Email: z.pang@mail.iggcas.ac.cn 邮编: 100029
地址 北京朝阳区北土城西路19号,中科院地质与地球物理研究所
更多信息:
 
简历:

  庞忠和,男,中国科学院地质与地球物理研究所地热资源研究中心主任,中国科学院大学地学院水文地质与地热资源教研室主任。中德地热研究中心中方主任。主持完成国家级和国际组织资助的有关地下水资源、地热资源和二氧化碳地质封存技术的科研项目多项,在国内外重要刊物发表论文100余篇,包括国际SCI论文50余篇,被引用1000余次,单篇被引用70余次。
  代表论文:
  1. Pang Zhonghe, Kong Yanlong, Froehlich Klaus, Huang Tianming, Yuan Lijuan, Li Zhongqin, Wang Feiteng. Processes affecting isotopes in precipitation of an arid region. Tellus B 63 (2011) 352-359.
  2. Pang Zhonghe and Mark Reed,Theoretical Geothermometry for Geothermal Waters: Problems and Methods, Geochimica et Cosmochimica Acta1998
代表著作:
  1. "Analytical procedures and quality assurance for geothermal water chemistry"United Nations University),2006
2. "Radiotracer Applications in Industry-A Guidebook"IAEA),2004 

教育经历 

  • 1985.03 – 1988.02  中国科学院地质研究所 构造地质学(地热)  博士 
  • 1978.09 – 1984.02  南京大学 水文地质与工程地质  学士、硕士 
  • 1995.03 – 1995.09  美国俄勒冈大学地质系高级访问学者 
  • 1994.01 – 1995.05  法国南巴黎大学访问学者 
  • 1991.08 – 1991.11  新西兰奥克兰大学 访问学者 
  • 1999.04 – 1988.10 联合国大学冰岛地热培训部访问学者 

工作经历 

  • 1988.03 – 1999.06 中国科学院地质研究所历任助研(1988)、副研(1992)、研究员(1995)、地热与数学地质研究室主任 
  • 1999.06 – 至今 中国科学院地质与地球物理研究所研究员、地热资源研究中心主任(2014 
  • 其间:1997.04-1998.04, 2000.04-2005.04 国际原子能机构(IAEA,维也纳), 同位素水文学家/地热项目技术主管 

学术成果 

  庞忠和长期从事水文地质与地热地质研究,以地下水系统,地热系统及深部咸水层为主要研究对象,研究地下水循环及水岩气相互作用过程,以及这些过程的环境与资源效应。主要成果有:1)提出地热资源成因理论与可持续开发利用关键技术,揭示大型岩溶地热储形成机制与巨大潜力并提出可持续高效开发方向。2)创建了水同位素与水化学理论模型及技术标准,创建了依据氘盈余确定大气降水形成、地表水盐分溯源的定量化模型。制定了地热水化学测试国际技术标准。3)在我国率先开展废弃油气田型咸水层二氧化碳地质封存理论、实验装置与现场试验研究。 

学术任职: 

  国际原子能机构(IAEA)水文与地热专家,IAEA水资源计划中国协调员。国际水文科学协会(IAHS)同位素水文学委员会副主席和中国委员会主席;中国地球物理学会理事和地热专业委员会主任。国际地热协会(IGA)教育委员会委员。曾任IGA主席团成员(2010-2016)和科研委员会主席;曾任国际地球化学协会(IAGC)理事(2008-2012)。先后任Hydrogeology JournalGreenhouse Gases: Science and TechnologyGeothermicsGeothermal Energy,地质学报(英文)等期刊编委或副主编。
 
学科类别:
地质资源与地质工程
 
研究方向:
  1. 水文同位素与水循环研究:地下水的补给、循环的多尺度示踪与定年
  2. 水文地球化学与水岩相互作用的研究:水-岩-气相互作用的实验与数学模拟
  3. 水文地热学与水热耦合过程研究:场地尺度地温场测试与模拟
 
职务:
 
社会任职:
 
承担科研项目情况:
  1. 国家自然科学基金重点项目(41430319):喜马拉雅东构造结高温地热系统成因; 
  2. 国家自然科学基金面上项目(41372257):牛驼镇地热田对规模化开采与尾水回灌的响应机理研究
  3. 中石化合作项目:我国典型地热田成因分析、资源评价与优化开采研究 
  4. 国家863“十一五高技术重点项目课题(2008AA062303):二氧化碳的封存技术 
  5. 国家自然科学基金面上项目(40872162):包气带硝酸盐运移的环境同位素示踪 
  6. 国家自然科学基金面上项目(40672171):天山山前典型流域水循环研究
 
获奖及荣誉:
  • 1993   国务院“政府特殊津贴”专家, 
  • 1993   中国地质学会“青年地质科技奖-金锤奖” 
  • 1993   中国科学院自然科学三等奖 
  • 1994  “中国青年科技奖” 
  • 2005   获诺贝尔和平奖集体奖获团队——国际原子能机构(IAEA)成员 
  • 2007   国际地球化学协会(IAGC)“水岩相互作用之友”奖
 
代表论著:
  1. Kong Yanlong, Pang Zhonghe*. A positive altitude gradient of isotopes in the precipitation over the TianshanMountains: Effects of moisture recycling and sub-cloud evaporation. Journal of Hydrology (542) (2016), 222–230
  2. Kong Yanlong, Pang Zhonghe*. What is the primary factor controlling trend of Glacier No. 1 runoff in the Tianshan Mountains: temperature or precipitation change? Hydrology Research (2016), DOI: 10.2166/nh.2016.190 
  3. Huang Tianming, Pang Zhonghe*, Liu Jilai, Yin Lihe, Edmunds W Mike. Groundwater recharge in an arid grassland as indicated by soil chloride profile and multiple tracers. Hydrological Processes (2016) doi: 10.1002/hyp.11089. 
  4. Huang Tianming, Pang Zhonghe* Li Jie, Guo Qi, Xiang Yong, Zhao Zhijiang. Mapping groundwater renewability using age data in the Baiyang alluvial fan, NW China. Hydrogeology Journal (2016), accepted 
  5. Li Yiman, Pang Zhonghe*. Capacity and suitability assessment of deep saline aquifers for CO2 sequestration in the Bohai Bay Basin, East China. Environmental Earth Sciences (2016) 75(5) DOI: 10.1007/s12665-016-5269-2 
  6. Li Yiman, Pang Zhonghe*. Yang FengTian, Jin Chao. Geochemical responses of a saline aquifer to CO2 injection: Experimental study on Guantao formation of Bohai Bay Basin, East China. Greenhouse Gases: Science and Technology 6(1) (2016). DOI: 10.1002/ghg.1556 
  7. Li Yiman, Pang Zhonghe*. 2016.Hydrogeochemical characteristics of deep saline aquifers in sedimentary basins in China and implications for CO2 geological storage with emphasis on total dissolved solids (TDS) and water type. Greenhouse gases: Sciences and Technology, online, DOI: 10.1002/ghg.1645. 
  8. Li Yiman, Huang Tianming, Pang Zhonghe*, Wang Yingchun, Jin Chao. Geochemical characteristics of shallow groundwater in Jiaoshiba shale gas production area: implications for environmental concerns. Water (2016), accepted 
  9. Pang Zhonghe*, Lv Lianghua,Li Jie, Yuan Lijuan, Kong Yanlong, Luo Lu, Huang Tianming. Is groundwater sufficient to support sustainable irrigation agriculture in a reclaimed wetland region? Hydrology and Earth System Sciences Discussions (2016) DOI: 10.5194/hess-2016-155 
  10. Yang FengTian, Pang Zhonghe, Duan Zhongfeng. Distinguishing between faults and coal collapse columns based on sediment dating: a case study of the Huainan coal field, China. Environmental Earth Sciences (2016) 75(11) DOI: 10.1007/s12665-016-5761-8 
  11. Philipp Hein, Zhu Ke, Anke Bucher, Olaf Kolditz, Pang Zhonghe, Shao Haibing. Quantification of exploitable shallow geothermal energy by using Borehole Heat Exchanger coupled Ground Source Heat Pump systems. Energy Conversion and Management (2016) 127:80-89 
  12. Zheng Tianyuan, Shao Haibing, Sophie Schelenz, Philipp Hein, Thomas Vienken, Pang Zhonghe, Olaf Kolditz, Thomas Nagel. Efficiency and Economic Analysis of Utilizing Latent Heat from Groundwater Freezing in the context of Borehole Heat Exchanger coupled Ground Source Heat Pump Systems. Applied Thermal Engineering 105 (2016) DOI: 10.1016/j.applthermaleng.2016.05.158 
  13. Tian Baoqing, Xu Peifen, Ling Suqun,Xu Xueqiu, Du Jianguo, Pang Zhonghe. Application of the initial model feature of microtremor to investigate a part of the geothermal field of Jiangsu region in China. Environmental Earth Sciences (2016) 75: 1298. doi:10.1007/s12665-016-5940-7 
  14. 姜广政, 高鹏, 饶松, 张林有, 唐晓音, 黄方, 赵平, 庞忠和, 何丽娟, 胡圣标, 汪集旸. 中国大陆地区大地热流数据汇编(第四版). 地球物理学报 (2016) 59(8):2892-2910 
  15. 李捷, 庞忠和, 古丽波斯坦·吐逊江, 孔彦龙, 黄天明, 白国营, 赵泓漪, 周东, 杨忠山. 北疆大气降水水汽源识别及其对地下水补给的指示意义. 科技导报 (2016) 34(18): 118-124 
  16. Li Jie, Pang Zhonghe*, Tao Tao, Tan Ming, Kong Yanlong, Duan Wuhui, Zhang Yu Wei. Identification of different moisture sources through isotopic monitoring during a storm event. Journal of Hydrometeorology 16 (2015): 1918-1927. 
  17. Li Jie, Pang Zhonghe*. Environmental isotopes in CO2 geological sequestration. Greenhouse Gases: Science and Technology 5(4) (2015): 374–388 
  18. Li Jie, Pang Zhonghe*, Froehlich Klaus, Huang Tianming, Kong Yanlong, Song Wenhui. Paleo-environment from isotopes and hydrochemistry of groundwater in East Junggar Basin, Northwest China. Journal of Hydrology 529 (2015): 650-661 
  19. Li Yiman, Pang Zhonghe*. Quantitative assessment of CO2 storage capacity by using of hydrogeochemical and isotope data for deep saline aquifers. Greenhouse Gases: Science and Technology 5(5) (2015): 592-602. 
  20. 罗璐, 庞忠和, 杨峰田. 苏北盆地建湖隆起碳酸盐岩储层中的硫酸盐型热矿水成因. 地学前缘2015 22(2):263-270 
  21. Kong Yanlong, Pang Zhonghe*. Statistical analysis of stream discharge in response to climate change for Urumqi river catchment, Tianshan Mountains, Central Asia. Quaternary International 336 (2014) 44-51. 
  22. Kong Yanlong, Pang Zhonghe, Wu Chunyong, Jing Miao. A comparative study of single factor method and multivariate statistical methods for surface water quality assessment. Water Policy 16(1) (2014) 157 - 167. 
  23. Kong Yanlong, Pang Zhonghe*, Li Jie, Huang Tianming. Seasonal variations of water isotopes in the Kumalak River catchments, Western Tianshan Mountains, Central Asia. Fresenius Environmental Bulletin 23(1) (2014) 169-174. 
  24. Li Jie, Pang Zhonghe *, Kong Yanlong, Zhou Mengzi, Huang Tianming. Contrasting seasonal distribution of stable isotopes and deuterium excess in precipitation over china. Fresenius Environmental Bulletin 23(9) (2014) 2074-2085. 
  25. 庞忠和. 新疆水循环变化机理与水资源调蓄. 第四纪研究34(5) (2014) 907-917. 
  26. 庞忠和, 黄少鹏, 胡圣标, 赵平, 何丽娟. 中国地热研究的进展与展望(1995-2014) 地质科学 49(3) (2014) 719-727. 
  27. 庞菊梅,庞忠和,孔彦龙,罗璐,王迎春,王树芳. 岩溶热储井间连通性的示踪研究. 地质科学. 49(3) (2014) 915-923. 
  28. 罗璐, 庞忠和, 罗霁, 李义曼, 孔彦龙, 庞菊梅, 王迎春. 惰性气体同位素确定地热流体循环深度. 地质科学     49(3) (2014) 888-898. 
  29. Huang Tianming, Pang Zhonghe*, Edmunds W Mike. Soil profile evolution following land-use change: implications for groundwater quantity and quality. Hydrological Processes 27 (2013) 1238-1252. 
  30. Huang Tianming, Pang Zhonghe*, Yuan Lijuan. Nitrate in groundwater and the unsaturated zone in (semi)arid northern China: baseline and factors controlling its transport and fate. Environmental Earth Sciences 70 (2013) 145-156. 
  31. Huang Tianming, Pang Zhonghe*, Chen Yaning, Kong Yanlong. Groundwater circulation relative to water quality and vegetation in an arid transitional zone linking oasis, desert and river. Chinese Science Bulletin 58 (2013) 3088-3097. 
  32. Pang Zhonghe*, Yuan Lijuan, Huang Tianming, Kong Yanlong, Liu Jilai, Li Yiman. Impacts of human activities on the occurrence of groundwater nitrate in an alluvial plain: a multiple isotopic tracers approach. Journal of Earth Science 24(1) (2013) 111-124. 
  33. Yang Fengtian, Pang Zhonghe*, Lin Li, Zhang Fengna, Duan Zhongfeng, Zong Zhenhai. Hydrogeochemical and isotopic evidence for trans-formational flow in a sedimentary basin: Implications for CO2 storage. Applied Geochemistry 30 (2013) 4-15. 
  34. Kong Yanlong, Pang Zhonghe*, Froehlich Klaus. Quantifying recycled moisture fraction in precipitation of an arid region using deuterium excess. Tellus B 65 (2013), 19251, doi: 10.3402/tellusb.v65i0.19251. 
  35. Wang Shufang, Pang Zhonghe, Liu Jiurong, Lin Pei, Liu Sida, Yin Ming. Origin and Evolution Characteristics of Geothermal Water in the Niutuozhen Geothermal Field, North China Plain. Journal of Earth Science  24(6) (2013) 891-902 
  36. Montanari A, Young G, Savenije HHG, Hughes D, Wagener T, Ren LL, Koutsoyiannis D, Cudennec C, Toth E, Grimaldi S, Bl?schl G, Sivapalan M, Beven K, Gupta H, Hipsey M, Schaefli B, Arheimer B, Boegh E, Schymanski SJ, Di Baldassarre G, Yu B, Hubert P, Huang Y, Schumann A, Post D, Srinivasan V, Harman C, Thompson S, Rogger M, Viglione A, McMillan H, Characklis G, Pang Z, Belyaev V. “Panta Rhei - Everything Flows”: Change in hydrology and society - The IAHS Scientific Decade 2013-2022. Hydrological Sciences Journal 58(6) 2013 1256-1275. 
  37. Pang Zhonghe, Kong Yanlong, Li Yiman, Li Jie. Water-rock Interaction in the CO2 sequestration in a continental saline aquifer based on a pilot field test. Procedia Earth and Planetary Science 7(2013) 656-659. 
  38. Huang Tianming, Pang Zhonghe. Groundwater recharge and dynamics in northern China: implications for sustainable utilization of groundwater. Procedia Earth and Planetary Science 7(2013) 369-372. 
  39. Li Jie, Liu Jilai, Pang Zhonghe, Wang X. Characteristics of chemistry and stable isotopes in groundwater of Chaobai River Catchment, Beijing. Procedia Earth and Planetary Science 7(2013) 487-490. 
  40. 李义曼, 庞忠和, 杨峰田. 北塘凹陷新近系馆陶组的CO2 - EATER实验研究. 科技导报 31 (27) (2013) 15-20. 
  41. Pang Zhonghe*, Li Yiman, Yang Fengtian, Duan Zhongfeng. Geochemistry of a continental saline aquifer for CO2 sequestration: The Guantao formation in the Bohai Bay Basin, North China. Applied Geochemistry 27 (2012) 1821-1828. 
  42. Yuan Lijuan, Pang Zhonghe*, Huang Tianming. Integrated assessment on groundwater nitrate by unsaturated zone probing and aquifer sampling with environmental tracers. Environmental Pollution 171 (2012) 226-233. 
  43. Kong Yanlong, Pang Zhonghe*. Evaluating the sensitivity of glacier rivers to climate change based on hydrograph separation of discharge. Journal of Hydrology 434-435 (2012) 121-129. 
  44. Huang Tianming, Pang Zhonghe*. The role of deuterium excess in determining the water salinisation mechanism: a case study of the arid Tarim River Basin, NW China. Applied Geochemistry 27 (2012) 2382-2388. 
  45. Wang Shufang, Arnaldsson Andri, Axelsson Gudni, Pang Zhonghe, Liu Jiurong. Modelling of the response of the Niutuozhen low-enthalpy geothermal system in Hebei province, China. Advanced Materials Research 512-515 (2012) 842-863. 
  46. 庞忠和*, 胡圣标, 汪集旸. 中国地热能发展路线图. 科技导报 30 (32) (2012) 18-24. 
  47. 汪集旸, 胡圣标, 庞忠和, 何丽娟, 赵平, 朱传庆, 饶松, 唐晓音, 孔彦龙, 罗璐, 李卫卫. 中国大陆干热岩地热资源潜力评估. 科技导报 30 (32) (2012) 25-31. 
  48. 杨峰田, 庞忠和*, 王彩会, 段忠丰, 罗璐, 李义曼. 苏北盆地老子山地热田成因模式. 吉林大学学报(地球科学版) 42(2) (2012) 468-475. 
  49. 袁利娟, 庞忠和*. 包气带硝酸盐分布的差异性及其形成机理:以正定、栾城为例. 水文地质工程地质      39(1) (2012) 75-80. 
  50. 李义曼, 庞忠和*. 二氧化碳地质封存中的水-岩反应动力学模拟:进展及问题. 吉林大学学报(地球科学版) 42(S2) (2012) 352-360 
  51. 李义曼, 庞忠和*, 李捷, 孔彦龙. 二氧化碳咸水层封存和利用. 科技导报30 (19) (2012) 70-79. 
  52. Pang Zhonghe*, Kong Yanlong, Froehlich Klaus, Huang Tianming, Yuan Lijuan, Li Zhongqin, Wang Feiteng. Processes affecting isotopes in precipitation of an arid region. Tellus B 63 (2011) 352-359. 
  53. Duan Zhongfeng, Pang Zhonghe*, Wang Xinyi. Sustainability evaluation of limestone geothermal reservoirs with extended production histories in Beijing and Tianjin, China. Geothermics 40 (2011) 125-135. 
  54. Huang Tianming, Pang Zhonghe*. Estimating groundwater recharge following land-use change using chloride mass balance of soil profiles: a case study at Guyuan and Xifeng in the Loess Plateau of China. Hydrogeology Journal 19 (2011) 177-186. 
  55. 庞忠和*, 杨峰田, 袁利娟, 李义曼. 新疆塔县盆地地热显示与热储温度预测. 地质论评    57(1) (2011) 86-88. 
  56. Luo Pan, Peng Ping’an, Gleixner G, Zheng Z, Pang Zhonghe, Ding Zhongli. Empirical relationship between leaf wax n-alkane δD and altitude in the Wuyi, Shennongjia and Tianshan Mountains, China: Implications for paleoaltimetry. Earth and Planetary Science Letters 301 (2011) 285–296. 
  57. Kong Yanlong, Pang Zhonghe. Isotope hydrograph separation in alpine catchments: a review. Sciences in Cold and Arid Regions 3(1) (2011) 00860091. 
  58. Wang Ju, Pang Zhonghe. Comparison between Geological Disposal of Carbon Dioxide and Radioactive Waste in China. In: F. L. Toth (ed.), Geological Disposal of Carbon Dioxide and Radioactive Waste: A Comparative Assessment, Advances in Global Change Research 44, doi: 10.1007/978-90-481-8712-6_17, International Atomic Energy Agency. 
  59. Huang Tianming and Pang Zhonghe. A combined conceptual model (V&P model) to correct groundwater radiocarbon age. In: Proceeding of International Symposium on Water Resource and Environmental Protection (IEEE press), (2011) 28-30. 
  60. Pang Zhonghe*, Huang Tianming, Chen Yaning. Diminished groundwater recharge and circulation relative to degrading riparian vegetation in the middle Tarim River. Hydrological Processes 24 (2010) 147-159. 
  61. Huang Tianming, Pang Zhonghe*. Changes in groundwater induced by water diversion in the Lower Tarim River, Xinjiang Uygur, NW China: evidence from environmental isotopes and water chemistry. Journal of Hydrology 387 (2010) 188-201. 
  62. Pang Zhonghe, Yang Fengtian, Duan Zhongfeng, Li Yiman. Integrated Geological sequestration and geothermal development: Saline aquifers in Beitang Depression, Tianjin, North China Basin. In: Proceeding of the 13th International Symposium on Water-Rock Interaction, Guanajuato, Mexico, 2010, 31-36. 
  63. Li Yiman, Pang Zhonghe, Duan Zhongfeng, Yang Fengtian. Modeling the geochemical response of CO2 injection into the Guantao Formation, North China Basin, In: Proceeding the 13th International Symposium on Water-Rock Interaction, Guanajuato, Mexico, 2010, 875-878. 
  64. 刘记来, 庞忠和, 王素芬, 孔彦龙, 周俊. 30年来降水量变化和人类活动对北京潮白河冲洪积扇地下水动态的影响. 第四纪研究 30(1) (2010) 138-144 
  65. 孔彦龙, 庞忠和. 高寒流域同位素径流分割研究进展. 冰川冻土 32(3) (2010) 619-625. 
  66. 袁利娟, 庞忠和. 地下水硝酸盐污染的同位素研究进展. 水文地质工程地质 37 (2010) 108-113. 
  67. 庞忠和, 汪集旸. 中国地热科学的若干新进展. : 李四光倡导中国地热能开发利用40周年纪念大会暨中国地热发展研讨会论文集. 北京: 地质出版社. 2010 
  68. 庞忠和. 理论地热温标在地热研究中的应用. : 李四光倡导中国地热能开发利用40周年纪念大会暨中国地热发展研讨会论文集. 北京: 地质出版社. 2010 
  69. Yang Yuncheng, Shen Zhaoli, Weng Dongguang, Hou Guangcai, Zhao Zhenhong, Wang Dong, Pang Zhonghe. Oxygen and hydrogen isotopes of waters in the Ordos Basin, China: implications for recharge of groundwater in the north of cretaceous groundwater basin. Acta Geologica Sinica-English Edition 83 (2009)103-113. 
  70. 庞忠和. 世界地热能发展概况. 地热能  5 (2009) 15-25. 
  71. Chen Yaning, Pang Zhonghe*, Hao Xingming, Xu Changchun, Chen Yapeng. Periodical changes of surface runoff in the last 40 years in Tarim River Basin, Hydrological Processes 16 (2008) 1371-1379. 
  72. Chen Yaning, Pang Zhonghe*, Chen Yapeng, Li Weihong, Xu Changchun, Hao Xingming, Huang Xiang, Huang Tianming, Ye Zhaoxia. Response of riparian vegetation to water-table changes in the lower reaches of Tarim River, Xinjiang Uygur, China. Hydrogeology Journal 16 (2008) 1371-1379. 
  73. Gates John, Edmunds Mike, Darling George, Ma Jinzhu, Pang Zhonghe, Young Adam. Conceptual model of recharge to southeastern Badain Jaran Desert groundwater and lakes from environmental tracers. Applied Geochemistry 23 (2008) 3519-3534. 
  74. Chen Yaning, Xu Changchun, Chen Yapeng, Li Zhongqin, Pang Zhonghe. Response of snow cover to climate change in the periphery mountains of Tarim river basin, China, over the past four decades. Annals of Glaciology 49 (2008) 166-172. 
  75. 庞忠和, 郭永海, 苏锐, 秦大军, 许冰. 北山花岗岩裂隙地下水循环属性试验研究, 岩石力学与工程学报 26(S2) (2007) 3954-3958. 
  76. 黄天明, 庞忠和. 应用环境示踪剂探讨巴丹吉林沙漠及古日乃绿洲地下水补给. 现代地质. 21(4) (2007) 624-631. 
  77. 杨郧城, 文冬光, 侯光才, 张茂省, 庞忠和, 王冬. 鄂尔多斯白垩系自流水盆地地下水锶同位素特征及其水文学意义. 地质学报 81(2007) 405-412. 
  78. Pang Zhonghe*. pH dependant isotope variations in arc-type geothermal waters: New insights into their origins. Journal of Geochemical Exploration 89 (2006) 306-308. 
  79. 钱云平, 秦大军, 庞忠和. 黑河下游额济纳盆地深层地下水来源的探讨. 水文地质工程地质 3 (2006) 25-29. 
  80. Pang Zhonghe. Origin of sulfur compounds and application of isotope geothermometry in selected geothermal systems of China. In: Pang Zhonghe  (ed.) Use of isotopes to trace the origin of acidic fluids in geothermal systems, Technical Documents of the International Atomic Energy Agency, Vienna, Austria, 270 pp (2005) 
  81. Pang Zhonghe, Truesdell A. H. Preface to the set of papers on "Isotope and hydrochemical techniques applied to geothermal systems". Geothermics 34 (2005) 440-441. 
  82. Qin Dajun, Turner Jeffrey, Pang Zhonghe. Hydrogeochemistry and groundwater circulation in the Xi’an geothermal field, China. Geothermics 34 (2005) 471-494. 
  83. Aguilera Eduardo, Cioni Roberto, Gherardi Fabrizio, Magro Gabriella, Marini Luigi, Pang Zhonghe. Chemical and isotope characteristics of the Chachimbiro geothermal fluids, Ecuador. Geothermics 34 (2005) 495-517. 
  84. Bahati Godfrey, Pang Zhonghe*, Armannsson Halldor, Isabirye Edward, Kato Vicent. Hydrology and reservoir characteristics of three geothermal systems in western Uganda. Geothermics 34 (2005) 568–591. 
  85. 秦大军, 庞忠和, Turner Jeffrey. 西安地区地热水和渭北岩溶水同位素特征及相互关系. 岩石学报 21(5) (2005) 1489-1500. 
  86. 庞忠和. 同位素水文学领域的国际科研合作与发展援助. 水文地质工程地质. 31(2) (2004) 114-116. 
  87. Han Liangfeng, Pang Zhonghe, Manfred Greoning. Study of groundwater mixing using CFC data. Science in China E 44(S1) (2011) 21-28 
  88. Pang Zhonghe. Chemical and isotope geothermometry and applications. Science in China E 44(S1) (2011) 16-20. 
  89. Pang Zhonghe. Whole system chemical geothermometry: a technical review, In: Water & Environment News, International Atomic Energy Agency. No. 6, 10-12, ISSN 1020 7120 (1999) 
  90. Pang Zhonghe*, Reed Mark. Theoretical chemical thermometry on geothermal waters: Problems and methods. Geochimica et Cosmochimica Acta 62 (1998) 1083-1091. 
  91. Pang Zhonghe, Gourcy L, Araguas Luis, Froehlich Klaus. Global Network for Isotopes in Precipitation: a programme review. In: Water & Environment News, No. 4, 1998, ISSN 1020 7120. (1998) 
  92. Pang Zhonghe. FixAl method applied to Zhangzhou geothermal system. In: Advances in Solid Earth Sciences (Pang Zhonghe et al. eds), Science Press, Beijing (1996) 
  93. 庞忠和. 全体系地球化学模拟与水岩相互作用研究. 地学前缘 3(3-4) (1996) 120-124. 
  94. Pang Zhonghe, Wang Jiyang, Zhao Ping, and Jin Jian. Saline thermal waters from geothermal systems in the granite terrain (Zhangzhou Geothermal system and surroundings, southeast of China)-- 1. Origin and recharge of the thermal water traced by oxygen and hydrogen isotopes. Geothermal Science & Technology 4(4) (1996) 273-286. 
  95. Pang Zhonghe, Wang Jiyang, Michelot, JL. Reservoir temperatures of geothermal fields and residence time of thermal waters derived from isotope data on dissolved sulfate. In: Water-Rock Interaction. Kharaka YK and Chudaev OV (eds.) Vladivostok, Russia, 1995, 215-218. (ISTP) 
  96. Wang Jiyang and Pang Zhonghe. Application of isotope and geochemical techniques to geothermal exploration in southeast of China - A review. International Atomic Energy Agency (IAEA) TECDOC 788 (1995) 9-20. 
  97. Tole Mwakio, ármannsson Halldór, Pang Zhonghe, Arnórsson Stefán. Fluid/mineral equilibrium calculations for geothermal fluids and chemical geothermometry. Geothermics 22(1) (1993) 17-37. 
  98. 庞忠和. 美国黄石公园的水热活动与自然保护. 科技导报. (10) (1993) 35. 
  99. 庞忠和, 邬伦, 胡圣标, 林松祥. GIS 方法研究南方花岗岩地区的新构造.  第四纪研究 (2) (1993) 188-195. 
  100. 庞忠和, 熊亮萍, 胡圣标, 邬伦, 林松祥, 黄明发. 花岗岩丘陵山区地热异常及其构造控制初探-以广东花县芙容嶂地区为例. : 中国沿海地区资源与环境发展战略研讨会论文选集, 海洋出版社, 1993. 
  101. Pang Zhonghe. Theoretical calibration of chemical geothermometers and its application to the granitic geothermal areas of SE China. In: Water-Rock Interaction. Kharaka YK & Maest AS (eds.), Balkema, Rotterdam, 1992, 1463-1466. 
  102. Wang Jiyang, Chen MX, Xiong Liangping, Pang Zhonghe. Geothermal systems in continental area of China. In: Water-Rock Interaction. Kharaka YK & Maest AS (eds.), Balkema, Rotterdam, 1992, 1371-1374. 
  103. Pang Zhonghe, Wang Jiyang, Jin Jian, Chen S, and Jiang Z. Geothermal potential evaluation of the Zhangpu-Yunxiao area. In: Advances in Geosciences (Wang S., ed.) China Ocean Press, 1992, 373-378. 
  104. Pang Zhonghe. Calibration of chemical geothermometers and their application to the southeast China geothermal belt. Scientia Geologica Sinica (1) (1992) 237-248. 
  105. 庞忠和. 汪集旸. 用同位素水文地球化学方法研究东南沿海地热资源的成因与潜力 : 中国科协首届青年学术年会论文选集 合肥: 中国科学技术出版社, 1992. 
  106. Pang Zhonghe and Wang Jiyang. A Conceptual model for groundwater circulation and flow pattern in Zhangzhou Basin as determined by geochemical and isotope data, In: Modelling in groundwater resources, eds. Xue Yuqun and Bear Jacob, Nanjing University Press, 1991, 408-413. 
  107. Pang Zhonghe. Calibration of chemical geothermometers based on fluid-mineral equilibrium calculations with application to the hot spring areas in the south of Fujian Province, China. Geothermal Resources Council Transactions 15 (1991) 273-278. 
  108. Pang Zhonghe, and Wang Jiyang. Oxygen and hydrogen isotope study on Zhangzhou Basin Hydrothermal System, Southeast of China. Geothermal Resources Council Transactions 14 (1990) 945-951. 
  109. Pang Zhonghe, Wang Jiyang, Fan Zhicheng. Calculation of reservoir temperature using a SiO2 mixing model, Zhangzhou geothermal-field, SE China. Chinese Science Bulletin 35(16) (1990) 1360-1363. 
  110. Wang Jiyang, Xiong Lianping, Pang Zhonghe. Determination of the thermal water circulation depth using data from geothermal investigation - case-history in Zhangzhou geothermal-field, SE China. Chinese Science Bulletin 35(20) (1990) 1719-1723. 
  111. 庞忠和,樊志成,汪集旸. 利用 SiO2混合模型计算漳州地热田热储温度. 科学通报 (1) (1990) 57-59. 
  112. 庞忠和, 樊志成, 汪集旸. 漳州盆地水热系统氢氧稳定同位素研究. 岩石学报 (4) (1990) 75-84. 
  113. 庞忠和, 樊志成, 汪集旸. 漳州盆地水热系统氚同位素研究. 地质科学 (4) (1990) 385-393. 
  114. 庞忠和, 樊志成, 汪集旸. 漳州盆地地下热水成因与海水混入的同位素证据. 地球化学 (04) (1990) 296-302. 
  115. 汪集旸, 熊亮萍, 庞忠和. 利用地热资料确定地下热水循环深度. 科学通报(05) (1990) 378-380. 
  116. 熊亮萍, 汪集旸, 庞忠和. 漳州热田的对流热流和传导热流的研究. 地球物理学报 33(06) (1990) 702-711. 
  117. 熊亮萍, 汪集旸, 庞忠和. 漳州热田温度场. 地质科学 (01) (1990) 70-80. 
  118. 熊亮萍, 汪集旸, 庞忠和. 漳州热田地下热水的循环深度. 地质科学 (04) (1990) 377-384. 
  119. Pang Zhonghe and Armmannson, H., 1989, Modeling chemical equilibrium in hydrothermal systems: with examples from Iceland and China. In: Water-Rock Interaction (Miles, L. ed.), Balkema, Rotterdam, 541-545. 
  120. 庞忠和, 邬伦, 庄庆祥, 郑启智. 漳州好坑古地裂缝及其构造意义. 地震地质 (02) (1989) 96-98. 
  121. 庞忠和. 漳州盆地地热田基本特征及成因分析. 地球科学信息 (03) (1988) 62-63. 
  122. 庞忠和, 高明. 基岩海岛地下水资源与环境-以庙岛群岛为例. 勘察科学技术(03) (1988) 27-30. 
  123. 庞忠和. 地下水运动对地温场的影响-研究进展综述(2). 水文地质工程地质(03) (1987) 30-34. 
  124. 庞忠和. 地下水运动对地温场的影响-研究进展综述(1). 水文地质工程地质 (02) (1987) 20-25. 
  125. 庞忠和. 中国东部沿海基岩海岛地下水资源分布特点-以庙岛群岛为例. 地质科学 (03) (1987) 291-299. 

著作及著作章节: 

  1. 庞忠和, 胡圣标, 王社教, 徐佩芬, 王光杰, 杨峰田. 地热系统与地热资源. : 汪集旸等主编. 地热学及其应用. 科学出版社. 北京, 548, 2015 
  2. 庞忠和, 孙占学, 段忠丰. 矿山地热. : 汪集旸等主编. 地热学及其应用. 科学出版社. 北京, 548, 2015 
  3. 庞忠和, 杨峰田, 罗璐. 地热田储层温度的确定方法. : 丁仲礼(主编). 固体地球科学研究方法. 北京: 科学出版社210-243, 2013. 
  4. 庞忠和. 地热水的同位素. : 顾慰祖和庞忠和等主编. 同位素水文学. 科学出版社. 北京, 1113, 2011 
  5. 庞忠和, 汪集旸. 地热电力资源. : 中国电气工程大典,第七卷第二章,北京: 中国电力出版社. 587-594. 2010 
  6. 段忠丰, 杨峰田, 庞忠和. 深部煤矿地温场的形成机理与预测方法研究,见:虎维岳、何满朝主编,深部煤炭资源及开发地质条件:研究现状与发展趋势. 北京: 煤炭工业出版社. 189-203 (2008) 
  7. Pang Zhonghe, Armmannson Halldór. Analytical Procedures and Quality Assurance of Geothermal Water Chemistry. Report of the United Nations University Geothermal Training Programme, 2006, Reykjavik 
  8. Pang Zhonghe. Use of isotopes to trace the origin of acidic fluids in geothermal systems. Technical Documents of the International Atomic Energy Agency, 2005, Vienna. 
  9. Thereska Jovan, Pang Zhonghe. Radiotracer Applications in Industry - A Guidebook. International Atomic Energy Agency, Vienna Technical Report (priced), 2004, Vienna. 
  10. Pang Zhonghe, Zhang Jindong, Sun Jianhong. Advances in Solid Earth Sciences. Science Press, 1996, Beijing. 
  11. 汪集旸, 熊亮萍, 庞忠和. 中低温对流型地热系统. 科学出版社, 1993, 北京. 
  12. 庞忠和. 地热系统地质构造-新构造分析. : 汪集旸, 熊亮萍, 庞忠和. 中低温对流型地热系统, 北京: 科学出版社, 1993, 第二章. 
  13. 庞忠和. 1993. 地热系统地球化学. : 汪集旸, 熊亮萍, 庞忠和. 中低温对流型地热系统, 北京: 科学出版社, 1993, 第三章. 
 

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