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水同位素与水岩反应实验室科研成果目录

时间:2011-06-30 18:58:19  来源:水同位素与水岩反应实验室  作者:孔彦龙

2015

1. Jie Li, Tao Tao, Zhonghe Pang, Ming Tan, Yanlong Kong, Wuhui Duan, Yuwei Zhang, 2015. Identification of different moisture sources through isotopic monitoring during a storm event. Journal of Hydrometeorology, 16: 1918-1927.

2. Jie Li, Zhonghe Pang, 2015. Environmental isotopes in CO2 geological sequestration. Greenhouse Gases: Science and Technology, 5(4): 374–388.

3. Jie Li, Zhonghe Pang, Klaus Froehlich, Tianming Huang, Yanlong Kong, Wenhui Song, Hongxiang Yun, 2015. Paleo-environment from isotopes and hydrochemistry of groundwater in East Junggar Basin, Northwest China. Journal of Hydrology, 529: 650-661.

4. Yiman Li, Zhonghe Pang, 2015. Quantitative assessment of CO2 storage capacity by using of hydrogeochemical and isotope data for deep saline aquifers. Greenhouse gases: Sciences and Technology, 5(5): 592-602.

5. 汪集暘, 庞忠和, 罗霁, 袁新安, 魏文魁, 张网宽, 2015. 一带一路,“水”、“热”先行. 中国地能, 9: 6-19.

6. 汪集暘, 2015. 地热理应在雾霾治理和南方供暖/制冷中发挥更大作用. 科技导报, 33(24): 1.

7. 汪集暘等, 20159. 地热学及其应用(专著), 北京, 科学出版社.

8. 李义曼,庞忠和,吕良华,罗璐,金镇岗发明专利一种测定水中碳酸氢根、碳酸根和总CO2含量的方法ZL201310529992.22015422日授权公告,中国科学院地质与地球物理研究所.

2014

1. Jie Li, Zhonghe Pang, Yanlong Kong, Mengzi Zhou and Tianming Huang. Contrasting seasonal distribution of stable isotopes and deuterium excess in precipitation over china. Fresenius Environmental Bulletin 23(9): 074-2085 (2014).

2.Yanlong Kong and Zhonghe Pang. Statistical analysis of stream discharge in response to climate change for Urumqi river catchment, Tianshan Mountains, Central Asia. Quaternary International 336: 44-51 (2014).

3. Yanlong Kong, Zhonghe Pang, Chunyong Wu and Miao Jing. A comparative study of single factor method and multivariate statistical methods for surface water quality assessment. Water Policy 16(1): 157 - 167 (2014).

4. Yanlong Kong, Zhonghe Pang, Jie Li and Tianming Huang. Seasonal variations of water isotopes in the Kumalak River catchments, Western Tianshan Mountains, Central Asia. Fresenius Environmental Bulletin 23(1):169-174 (2014).

5. Yanlong Kong, Zhonghe Pang, Haibing Shao, Shengbiao Hu and Olaf Kolditz. Recent studies on hydrothermal systems in China: a review. Geothermal Energy 2014: 2-19.

6. 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): 907-917 (2014).

7. 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(19952014). 地质科学  49(3): 719-727 (2014).

8. 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): 915-923 (2014).

9. 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): 888-898 (2014).

10. 田宝卿,徐佩芬,庞忠和,凌苏群,郭慧丽. CO2封存及其地球物理监测技术研究进展. 地球物理学进展 29(3):1431-1438 (2014).

11. 庞忠和,杨峰田,李义曼,段忠丰,黄天明. 发明专利: 一种CO2地质封存中水岩反应的批式实验装置. 专利号: ZL201110440668.4,  授权日:2014.9.24, 中国科学院地质与地球物理研究所.

2013

1. 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.

2. 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.

3. Kong Yanlong, Pang Zhonghe*, Froehlich Klaus. Quantifying recycled moisture fraction in precipitation of an arid region using deuterium excess. Tellus B (2013), 65, 19251, DOI: 10.3402/tellusb.v65i0.19251.

4. Huang Tianming, Pang Zhonghe*, Edmunds Mike. Soil profile evolution following land-use change: implications for groundwater quantity and quality. Hydrological Processes (2013), 27, 1238-1252, DOI: 10.1002/hyp.9302

5. 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 (2013) DOI: 10.1007/s12665-012-2111-3.

6. 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.

 

2012年

1. 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.

2. 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.

3. 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.

4. 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.

5.  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.

6. 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.

7. 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.

8. 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.

9. 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

10.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.

2011
1.         Pang Z, Kong Y, Froehlich K, Huang T, Yuan L, Li Z, Wang F., 2011, Processes affecting isotopes in precipitation of an arid region. Tellus B. 63(3):352-359,SCI, IF3.33
2.         Huang, T., Pang, Z.*, 2011, 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,2011, 19: 177-186. SCI, IF1.326
3.         Duan Z., and Pang, Z.*, Wang X., 2011, Sustainability evaluation of limestone geothermal reservoirs with extended production histories in Beijing and Tianjin, China, Geothermics, 40: 125-135, SCI, IF0.896
4.         P. Luo, P. Peng, G. Gleixner, Z. Zheng, Z. Pang, Z. Ding. 2011, Empirical relationship between leaf wax n-alkane δD and altitude in the Wuyi, Shennongjia and Tianshan Mountains, China: Implications for paleoaltimetry,Earth Planet. Sci. Lett. 301 (2011) 285–296, SCI, IF4.279
5.         庞忠和,杨丰田,袁利娟,李义曼,2011,新疆塔县盆地地热显示特征与热储温度,地质论评,57(1):86-88
6.         Kong, Y., and Pang, Z., 2011, Isotope hydrograph separation in alpine catchments: a review,Sciences in Cold and Arid Regions, 3(1): 0086–0091
7.         Pang Z., Huang,T., Kong,Y.,2011,Use of isotopes in assessing the response of groundwater to cross-catchment water diversion in Tarim Basin, Proc. of the International Symposium on Isotopes in Hydrology, Marine Ecosystems and Climate Change Studies, Abstract, IAEA-CN-186, 27 March-1 April, 2011, Monaco, 132-133
8.         庞忠和,2011,新疆水系统边界流研究,中央大学南京大学北京校友会会刊,23:64-69
9.         庞忠和, 杨峰田, 李义曼, 段忠丰,馆陶组咸水层与二氧化碳的相互作用及其地热利用与碳封存意义,地热能开发利用与低碳经济研讨会-第十三届中国科协年会第十四分会场论文摘要集,天津,pp 114-116
10.     黄天明, 庞忠和, 李义曼,土壤气监测在CO2地质封存中的应用,中国地球物理学会第二十七届年会论文集,长沙, pp 84
11.     杨峰田, 段忠丰, 庞忠和,干热岩地热资源潜力评价方法探讨-以苏北盆地建湖隆起区为例,中国地球物理学会第二十七届年会论文集,长沙, pp 229
12.     李义曼, 庞忠和, 杨峰田,段忠丰,2011,北塘凹陷馆陶组地热水同位素与CO2-EATER的可行性,中国地球物理学会第二十七届年会论文集,长沙,pp 210 (大会优秀论文)
13.     王树芳, 庞忠和, 刘久荣,雄县岩溶热储回灌试验,中国地球物理学会第二十七届年会论文集,长沙, pp 210
14.     Huang T. and Pang Z., 2011, A combined conceptual model (V&P model) to correct groundwater radiocarbon age, Proceeding of International Symposium on Water Resource and Environmental Protection (IEEE press), pp 28-30
15.     Wang J. and Pang, Z.,2011. 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
16.     庞忠和,地热水的同位素,见:顾慰祖和庞忠和等主编,2011,同位素水文学,科学出版社,北京, 1113p
17.     庞忠和, 李义曼, 杨峰田, 罗璐, 黄天明, 发明专利: 提高地热回灌率和CO2地质封存一体化方法, 201110442575.5, 20111226受理, 中国科学院地质与地球物理研究所
18.     庞忠和, 杨峰田, 李义曼, 段忠丰, 黄天明, 发明专利: 一种CO2地质封存中水岩反应的批式实验装置, 201110440668.4, 20111226受理, 中国科学院地质与地球物理研究所
19.     庞忠和, 黄天明, 孔彦龙, 袁利娟, 李捷, 发明专利: 一种CO2地质封存中钻孔泄漏的测定方法, 201110441173.3, 20111226受理, 中国科学院地质与地球物理研究所
20.     黄天明, 庞忠和, 孔彦龙, 袁利娟, 实用新型专利: 一种土壤水共沸蒸馏提取装置, 201120544106.X, 20111222受理, 中国科学院地质与地球物理研究所
21.     孔彦龙, 庞忠和, 罗璐, 黄天明, 袁利娟, 实用新型专利: 一种便携式地下水碳十四采样装置, 201120544109.3, 20111222受理, 中国科学院地质与地球物理研究所
22.     汪集旸、庞忠和等, 2011, 提高新疆水资源利用率的战略选择与对策建议, 自治区党委书记, 咨询建议
 
2010
1.         Pang, Z.*, Huang, T., Chen, Y., 2010, Diminished groundwater recharge and circulation relative to degrading riparian vegetation in the middle Tarim River, Hydrological Processes, 24:145-157.
2.         Huang, T., Pang, Z.*, 2010, 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: 188-201.(As correspondent author).
3.         Pang, Z., Yang, F., Duan, Z., Li, Y., 2010, Integrated Geological sequestration and geothermal development: a case study of the Beitang Depression, North China Basin, China. Proc. of the 13th International Symposium on Water-Rock Interaction (ISTP), Guanajuato, Mexico, Plenary Keynote Lecture. 31-36.
4.         Li, Y., Pang, Z.*, Duan, Z., Yang, F., 2010, Modeling the geochemical response of CO2 injection into the Guantao Formation, North China Basin, Proc. of the 13th International Symposium on Water-Rock Interaction (ISTP), Guanajuato, Mexico, 875-878.
5.         庞忠和, 汪集旸, 2010, 中国地热科学的若干新进展. 见: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.
6.         庞忠和, 杨丰田, 袁利娟, 李义曼, 2010, 新疆塔县盆地地热系统基本特征与成因分析. 见: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.
7.         杨丰田, 段忠丰, 罗璐, 庞忠和, 2010, 江苏老子山地热田成因分析. 见: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.
8.         Pang Z., Yang F., Huang T., Duan Z., 2010, Genesis Analysis of Geothermal Systems in Guanzhong Basin of China with Implications on Sustainable Geothermal Resources Development. Proceedings World Geothermal Congress 2010, Bali, Indonesia, 25-29 April 2010.
9.         Javino, F., Suratman, S., Pang, Z., 2010, Isotope and Geochemical investigations on Tawau Hot Springs in Sabah, Malaysia, Proceedings World Geothermal Congress 2010, Bali, Indonesia, 25-29 April 2010.
10.     刘记来, 庞忠和, 王素芬, 孔彦龙, 周俊, 2010, 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): 138-144.
11.     庞忠和, 汪集旸, 2010, 地热电力资源. 见: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.
12.     庞忠和, 杨峰田, 袁利娟, 李义曼, 陆成新, 常志勇, 2010, 新疆塔什库尔干地热资源特征初步研究. 见:中国地球物理学会第26届学术年会论文摘要集,2010年10月17-20日,宁波.
13.     罗璐, 庞忠和, 杨峰田, 段忠丰, 2010, 江苏老子山地热田成因分析. 见:中国地球物理学会第26届学术年会论文摘要集,2010年10月17-20日,宁波.
14.     王树芳,刘久荣,庞忠和,2010,北京地区热田地热温标和同位素特征,中国地球物理学会第26届学术年会论文摘要集,10月17-20日,宁波,
15.     杨峰田,庞忠和,段忠丰,2010,新构造定年:以安徽顾桥煤矿为例,中国地球物理学会第26届学术年会论文摘要集,10月17-20日,宁波,
16.     段忠丰,庞忠和,王心义,2010,天津沧县隆起雾迷山组热储开采潜力评价,中国地球物理学会第26届学术年会论文摘要集,10月17-20日,宁波,
17. 孔彦龙,庞忠和2010,高寒流域同位素径流分割研究进展,冰川冻土,32:3,619-625
18. 袁利娟, 庞忠和2010,地下水硝酸盐污染的同位素研究进展, 水文地质工程地质,37108-113.
19.     庞忠和, 2010, 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,地质出版社,北京
20.     Pang, Z., Kong, Y., 2010, Evaluating the sensitivity of water systems to climate change using isotope hydrograph separation, Proc. Of CAS-TWAS-WMO Forum 2010,Beijing, 17-20 November, 46, abstract
21.     Kong, Y. and Pang, Z., 2010, A method for hydrograph separation using inequality systems with hydrological and geochemical data as constraints,Proc. of 2010 IAHS-PUBs, 46, Beijing, abstract
 
2009
1.         Pang Z., 2009, Groundwater Hydrology Based on Environmental Tracers in China: a review, in: Proc of Groundwater Colloquium 2009, 25-26 March, Kuala Lumpur, Malaysia,Academy of Sciences Malaysia, Keynote Address,142-148
2.         庞忠和, 2009, 世界地热能发展概况,地热能,5,15-25
3.         庞忠和, 2009, 减排时代地热学科的机遇与挑战,中国地球物理学会第25届学术年会论文摘要集,10月9-14日,合肥
4.         杨丰田, 庞忠和, 段忠丰,2009,苏北盆地建湖隆起区地热资源赋存特征,中国地球物理学会第25届学术年会论文摘要集,10月9-14日,合肥
5.         王树芳, 庞忠和, 刘久荣,2009, 雄县地热资源评价,中国地球物理学会第25届学术年会论文摘要集,10月9-14日,合肥
6.         庞忠和、王赟等,2007,淮南顾桥矿区新构造及其精细结构探查研究(综合研究成果报告),中国科学院地质与地球物理研究所,2007-07-13,143页
7.         段忠丰, 庞忠和, 杨峰田,2009,深部煤矿地温场影响因素分析,中国地球物理学会第25届学术年会论文摘要集,10月9-14日,合肥
 
2008
1.         Chen, Y., Pang, Z.*, et al., 2008, Periodical changes of surface runoff in the last 40 years in Tarim River Basin, Hydrological Processes, 16,1371-1379 (As author of correspondence).
2.          Pang, Z., 2008, Advances in isotope hydrology and geochemistry for geothermal reservoir management through international cooperation, Proc. of International Workshop for Decision Makers on Direct Heating Use of Geothermal Resources in Asia, organized by UNU-GTP, TBLRREM and TBGMED, in Tianjin, China, 11-18 May, 2008, P494-499 .   
3.         Pang, Z., Huang T, Chen Y., 2008, Assessing the Effectiveness of the Diverted Ecological Flow to the Lower Tarim River, Xinjiang Uygur, China Using Isotopes. 36th IAH Congress, Toyama, Japan. Oct. 26 to Nov 1, 2008: 333-334.abstract
4.         Pang, Z., Yang F, Duan Z and Huang T., 2008, Gas-water-rock interactions in sandstone reservoirs: implications for enhance re-injection into geothermal reservoirs and CO2 geological sequestration. Presented at the Workshop for Decision Makers on Direct Heating Use of Geothermal Resources in Asia, organized by UNU-GTP, TBLRREM and TBGMED, in Tianjin, China, 11-18 May, 2008.214-218.
5.         Pang, Z., Yang, F., Duan, Z., 2008, State of the art and outlook of geological sequestration of CO2,A keynote paper for the second congress of the national commission on geological disposal of waste,2008, P479-492  
6.         Pang, Z., 2008,Water-rock interaction and sustainable development of geothermal resources in Guanzhong Basin, Proc. of National forum on scientific development of geothermal resources in China, Xianyang,2008,P19-20 (Abstract).
7.         Pang, Z., 2008, A Brief Review Of Geological Studies On Geothermal Systems In China 1988-2008, Proceedings of the 30th anniversary of the UNU-GTP, Reykjavik, Iceland
8.         Gates, J., Edmunds, M., Darling, G., Ma, J., Pang, Z., Young,A., 2008,Conceptual model of recharge to southeastern Badain Jaran Desert groundwater and lakes from environmental tracers. Applied Geochemistry, 23: 3519-3534.
10.     庞忠和, 美国地热能新技术与政府的政策倾向, 2008.7.14, 科学时报
11.     杨丰田、庞忠和,澳大利亚利用增强型地热系统开发深层地热资源,2008.8.10,科学时报
12.     庞忠和,瑞士政府投资重点:开发地热资源,2008.8.25,科学时报
13.     庞忠和,亲历冰岛地热开发:冰火交融 创造奇迹,2008.9.7,科学时报
14.     庞忠和,冰岛:多元化开发地热,2008.10.5,科学时报
15.     庞忠和,花园之国的绿色能源:新西兰地热开发,2008.10.22,科学时报
16.     庞忠和,地热成为德国公众喜爱的职业,2008.11.16,科学时报
17.     庞忠和,德国靠技术进步开发地热能,2008.11.30,科学时报
18.     段忠丰, 杨峰田,庞忠和,2008,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,煤炭工业出版社,北京,189-203.
19.     黄天明, 聂中青, 袁利娟. (2008) 西部降水氢氧稳定同位素温度及地理效应. 干旱区资源与环境. 22(8): 76-81.
 
2007
1.         庞忠和, 郭永海, 苏锐, 秦大军, 许冰, 2007, 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, 2007, 26(supp.2): 3954-3958.
2.         Huang T, Pang Z, Ma J (2007) Groundwater Recharge Sequence in Badain Jaran Desert as Related to Oasis Ecology: Reassessment of Environmental Tracers. Proc of Abstracts of IAH35th, Lisbon, p86, ID. 421.
3.         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. 2007, 21(4).624-631.
4.         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,2007,81:405-412.
5.         Pang, Z., Qin.,D.,Yang,Y.,2007, Isotopes in deep groundwater in Northwest China:hydrological and paleoclimatic implications, Proc. of abstracts of International Symposium on Advances in Isotope Hydrology and Its Role in Sustainable Water Resources Management, 21-25 May, International Atomic Energy Agency, Vienna, IAEA-CN151/122.
 
2006
1.         Pang, Z., 2006, pH dependent isotope variations in arc-type geothermal fluids: new insights into their origins, Journal of Geochemical Exploration, 89, 306-308.
2.   钱云平,秦大军,庞忠和,等.2006,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, 25-29.
3.         Pang Z., Armmannson, H. (eds.), 2006, Analytical Procedures and Quality Assurance of Geothermal Water Chemistry, 2006, Report of the United Nations University Geothermal Training Programme, Reykjavik, 200 pp. 
 
2005
1.         Bahati, G., Pang, Z.*, Armannsson, A., Isabirye, E., Kato, V., 2005, Hydrology and reservoir characteriscs of three geothermal systems in western 4, 568-591. (As correspondent author).Uganda, Geothermics, 3
2.         Aguilera E., Cioni R., Gherardi F., Magro G., Marini L. and Pang Z., 2005, Chemical and isotope characteristics of the Chachimbiro geothermal fluids, Ecuador, Geothermics,34, 495-517.
3.         Qin D., J. Turner, Pang Z, 2005, Hydrogeochemistry and groundwater circulation in the Xi’an geothermal field, China, Geothermics 34, 471-494.
4.   秦大军, 庞忠和J. Turner,等. 2005, 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):1489-1500.
5.         Qian, Y., Pang, Z., Qin, D., 2005, Turner and A. Herzceg, 2005, Isotope composition of base flow and surface runoff in the Black River of northwestern China, Geophysical Research Abstracts, Vol. 7, 10760, European Geosciences Union
6.         Pang, Z, 2005, Origin of sulfur compounds and application of isotope geothermometry in selected geothermal systems of China, in: Pang, Z., 2005 (ed.), Use of isotopes to trace the origin of acidic fluids in geothermal systems, Technical Documents of the International Atomic Energy Agency, Vienna, Austria, 270pp.
7.         Pang, Z., 2005, Isotope techniques and geothermal resources management, Proc. of World Geothermal Congress 2005, Antalya, Turkey
8.         Pang, Z., 2005 (ed.), Use of isotopes to trace the origin of acidic fluids in geothermal systems, Technical Documents of the International Atomic Energy Agency, Vienna, Austria, 270pp
9.         Pang, Z., & A. H. Truesdell (Guest Editors), 2005,  A set of papers on “Isotope and Hydrochemical Techniques Applied to Geothermal Systems” Geothermics 34, Elsievier
10.     Qin D., Turner, J., Han, L. and Pang Z.,2005,Inferring Young Groundwater from Deep Geothermal Water using CFCs and Isotope Data: Implication for Circulation of Groundwater in the Xi'an Geothermal Field, Shaanxi Province, China,Proc. of World Geothermal Congress 2005, Turkey
11.     PangZ., 2005,Isotope Techniques and Geothermal Resources Management,Proc. of World Geothermal Congress 2005, Turkey
12.     Urbino G., and Pang Z., 2005, Inter-laboratory Comparison as a tool to improve accuracy in the analysis of geothermal waters, Proc. of World Geothermal Congress 2005, Turkey
 
2004
1.   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,2004,114-116.
2.         Thereska, J., & Pang, Z., 2004 (Eds.), Application of radiotracers in industry-a guidebook, International Atomic Energy Agency, Vienna Technical Report (priced), Vienna, 281pp.
 
2001
2.         Pang, Z. 2001,Chemical and isotope geothermometry and applications, Science in China, Vol. 44 Supp., 16-20.
 
2000
1.         Pang, Z., 2000,Isotope geochemistry of geothermal waters in northern North China Basin: implications on deep fluid migration, Proc. of World Geothermal Congress 2000, Tokyo, Japan, 1559-1564.
2.         Wang, Y., Liu, S. and Pang, Z., 2000, Geothermal Resources in the Jidong Area, North China Basin, Proc. of World Geothermal Congress 2000, Tokyo, Japan,
 
1999
1.         Pang, Z., 1999, Whole system chemical geothermometry: a technical review, In: Water & Environment News, International Atomic Energy Agency,No. 6, 10-12, ISSN 1020 7120.
 
1998
1.         Pang, Z., Gourcy, L., Araguas, L., and Froehlich, K., 1998, Global Network for Isotopes in Precipitation: a programme review, In: Water & Environment News, No. 4, 1998, ISSN 1020 7120.
2.         Pang, Z. And Reed, M., 1998, Theoretical chemical geothermometry on geothermal waters: Problems and methods, Geochimica et Cosmochimica Acta, 62, 6, 1083-1091.
 
1997
1.         Pang, Z., Reed, M. H., 1997, FixAl: A complete chemical geothermometry method for incomplete water analysis with special reference to aluminum, Proc. of 30th International Geological Congress (Pei Rongfu, ed.), V.9, 475-484
 
1996
1.         Pang, Z., 1996, FixAl method applied to Zhangzhou geothermal system, in: Advances in Solid Earth Sciences (Pang et al. eds), Science Press, Beijing
2.         Pang, Z., Zhang, J. And Sun, J. H. (eds.), 1996, Advances in Solid Earth Sciences(Contributions of Chinese Young Scientists to the 30th International Geological Congress, Beijing, China), Science Press,Beijing and New York, 209 pp.
3.   庞忠和,1996,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),中国地质大学(北京)
4.   庞忠和,1996,中低温对流型地热系统热储工程研究,国家科技攻关计划“八五”重点项目课题总结报告,中国科学院地质研究所,71页
 
1995
1.         Pang, Z, Wang, J,, Zhao P, and Jin J,, 1995, 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, Vol. 4, No.4, 273-286.
2.         Wang J. and Pang Z., 1995, Application of isotope and geochemical techniques to geothermal exploration in southeast of China -- A review, IAEA (International Atomic Energy Agency) -- TECDOC 788, 9-20.
3.         Pang Z. and Wang J., 1995, Application of isotope and geochemical techniques to geothermal exploration -- The Zhangzhou Case, Proceedings of the 1995 World Geothermal Congress, International Geothermal Association, Vol. 2, 1037-1042.
4.         Pang Z., Michelot, J-L, and Wang J., 1995, Reservoir temperatures of geothermal fields and residence time of thermal waters derived from isotope data on dissolved sulfate, Water-Rock Interaction, Kharaka & Chudaev, Balkema, Roterdam, 215-218.
5.         Wang J., Chen M., Xiong L. and Pang Z., 1995, Geothermal Resources and Development in China, Proc. of World Geothermal Congress 1995, Florence, Italy
 
1993
1.         Tole, M., Ármannsson, H., Pang Z., 1993,Stefán Arnórsson Fluid/mineral equilibrium calculations for geothermal fluids and chemical geothermometry, Geothermics, 22: 17-37,
2.   庞忠和1993,地热系统地质构造-新构造分析,见:汪集旸,熊亮萍,庞忠和,1993,中低温对流型地热系统,科学出版社,260 页。第二章;
3.   庞忠和1993,地热系统地球化学,见:汪集旸,熊亮萍,庞忠和,1993,中低温对流型地热系统,科学出版社,260 页。第三章。
4.   庞忠和,邬伦, 胡圣标,林松祥,1993,用 GIS 方法研究南方花岗岩地区的新构造, 第四纪研究,2,188-195;
5.   庞忠和,熊亮萍,胡圣标,邬伦,林松祥,黄明发,1993,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;
6.   庞忠和,1993,美国黄石公园的水热活动与自然保护,科技导报,64,35+封1-4;
7.   庞忠和,1993,海南石梅湾旅游开发区水热资源调查与开发利用规划,中国科学院地质研究所,70页
 
1992
1.         Pang, Z., Wang, J., Jin, J., Chen, S.,and Jiang, Z. ,1992, Geothermal potential evaluation of the Zhangpu-Yunxiao area, in: Advances in Geosciences (Wang, S., ed.) (2), 373- 378, China Ocean Press;
2.         Pang, Z.,1992, Calibration of chemical geothermometers and its application to the granitic geothermal areas of SE China, Water-Rock Interaction, Kharaka & Maest (eds.), Balkema, Rotterdam,1463-1466
3.         Pang, Z., 1992, Theoretical calibration of chemical geothermometers and its application to the granitic geothermal areas of SE China, Water-Rock Interaction, Kharaka & Maest (eds.), Balkema, Rotterdam, 1463-1466;
4.         Pang, Z., Wang, J., Jin, J., Chen, S., and Jiang, Z., 1992, Geothermal potential evaluation of the Zhangpu-Yunxiao area, in: Advances in Geosciences (Wang, S., ed.) (2), 373- 378, China Ocean press;
5.         Pang, Z., 1992, Calibration of chemical geothermometers and their application to the southeast China geothermal belt, Scientia Geologica Sinica, 1, 237-248;
6.   庞忠和, 汪集旸, 1992, 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, 中国科学技术出版社;
7.   庞忠和,1992,第十三届新西兰地热年会学术要览,新能源,14 (4),22-26
8.   庞忠和,1992,广州市花县芙蓉度假村水热资源形成分布条件分析与开发利用途径的初步评价(总结报告),中国科学院地质研究所,44页
 
1991
1.         Pang, Z. and Wang, J. and Zhao, P.,1991,Exploration for low temperature geothermal resources: a case history of Hainan Island,   Hainan Prov., China, Proc. 13th New Zealand Geothermal Workshop,  223-226;
2.         Pang, Z. and Wang, J., 1991, A Conceptual model for groundwater circulation and flow pattern in Zhangzhou Basin as determined by geochemical and isotope data, in: Modelling in groundwater resources (Xue and Bear eds.), Nanjing University Press, pp 408-413;
3.         Pang, Z. and Wang, J., 1991, Geothermal potential in SE China assessed by geochemical and isotopic methods - a review, Proc. 13th   New Zealand Geothermal Workshop, 95-98;
4.         Pang, Z., 1991, Calibration of chemical geothermometers based on fluid-mineral equilibrium calculations with appli-cation to the hot spring areas in the south of Fujian Province, China, U.S. Geothermal Resources Council TRANSACTIONS, 15, 273-278;
 
1990
1.         Pang, Z. and Wang, J., 1990, Oxygen and hydrogen isotope study on Zhangzhou Basin Hydrothermal System,   Southeast of China, U.S. Geothermal Resources Council TRANSACTIONS, Vol. 14, Part II, 945-951;
2.         Wang, J., Pang, Z., Xiong, L., Jiang, Z., Zhuang, Q. and Chen, S. 1990, The Zhangzhou Geothermal System: a genesis model, Proceedings of "1990 International symposium on new and renewable energy resources (Beijing)", International Academic Press;
3.         Pang, Z., Wang, J. and Fan, Z., 1990, Calculation of the reservoir temperature of Zhangzhou Geothermal Field using a SiO2 mixing model, Chinese Science Bulletin, Vol. 35, No. 16, pp 1360-1363.
4.   庞忠和,樊志成,汪集旸,1990,漳州盆地水热系统氢氧稳定同位素研究,岩石学报,4, 75-84;
5.   庞忠和,樊志成,汪集旸,1990,漳州盆地水热系统氚同位素研究,地质科学,4, 385-393;
6.   庞忠和,樊志成,汪集旸, 1990,利用 SiO2 混合模型计算漳州地热田热储温度,科学通报,1,57-59;
7.   庞忠和,樊志成,汪集旸,1990,漳州盆地地下热水成因及海水混合的同位素证据,地 球化学;
 
1989
1.         Pang, Z. 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;
2.   庞忠和,1989,漳州好坑古地裂缝的发现及其构造涵义,地震地质,2,96-98;
3.   庞忠和,1989,地热系统中固形物沉淀专题国际讨论会学术要览,新能源,10,4-55;
 
1988
1.         庞忠和,1988,基岩海岛地下水资源与环境,勘察科学技术,3,27-30;
2.         庞忠和,1988,漳州地热田基本特征及成因模式,地球科学进展;
3.   庞忠和,1988,漳州盆地地热系统-成因模式、热能潜力与热水分布规律,博士论文,中国科学院地质研究所,280页(导师:张文佑研究员、汪集旸研究员、肖楠森教授)
 
1987
1.   庞忠和,1987,中国东部沿海基岩海岛地下水资源分部特征,地质科学,291-299;
2.   庞忠和,1987,地下水运动对地温场的影响(1),水文地质与工程地质,2, 20-25;
3.   庞忠和,1987,地下水运动对地温场的影响(2),水文地质与工程地质,3, 30-34;
 
1984
1.   庞忠和,1984,庙岛群岛地下水资源分布规律,硕士论文,南京大学地球科学系,70页 (导师:肖楠森教授、高明副教授)

 

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