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Zhang Renhe,Xu Xiangde
Strategic Study of CAE 2012, Volume 14, Issue 9, Pages 102-112
Keywords: Tibetan Plateau comprehensive atmospheric monitoring JICA/Tibet Project
Reliability guarantee framework for the Sichuan–Tibet Railway
Frontiers of Engineering Management 2021, Volume 8, Issue 4, Pages 480-491 doi: 10.1007/s42524-021-0170-4
Keywords: Sichuan–Tibet Railway operational efficiency reliability guarantee Nine-Connotation implementation
“Heavenly Road”: The Qinghai–Tibet Railway
Yongfu SUN
Frontiers of Engineering Management 2020, Volume 7, Issue 2, Pages 304-307 doi: 10.1007/s42524-019-0079-3
Keywords: permafrost protection sustainable development health guarantee system
Suggestions on the Development of Four Major Geoscience project
Liu Guangzhi
Strategic Study of CAE 2004, Volume 6, Issue 3, Pages 15-18
Keywords: integrated ocean drilling deep-sea nodules natural gas hydrate geoscience of deep earth Qinghai-Tibet
Soil selenium concentration and Kashin-Beck disease prevalence in Tibet, China
Shunjiang LI, Wei LI, Xia HU, Linsheng YANG, Ruodeng XIRAO
Frontiers of Environmental Science & Engineering 2009, Volume 3, Issue 1, Pages 62-68 doi: 10.1007/s11783-009-0009-4
Keywords: Kashin-Beck disease (KBD) selenium (Se) soil Tibet
Risk warning technologies and emergency response mechanisms in Sichuan–Tibet Railway construction
Liujiang KANG, Hao LI, Cong LI, Na XIAO, Huijun SUN, Nsabimana BUHIGIRO
Frontiers of Engineering Management Pages 582-594 doi: 10.1007/s42524-021-0151-7
Keywords: railway construction risk warning technologies emergency response mechanisms Sichuan–Tibet Railway
Advantages of Copper Resources and Prospects for Their Exploitation and Utilization in Tibet
Tang Juxing, Wang Qin
Strategic Study of CAE 2019, Volume 21, Issue 1, Pages 140-147 doi: 10.15302/J-SSCAE-2019.01.020
Keywords: copper resources exploitation and utilization Tibet
Deep Exploration for Lithosphere With Special Reference to Qinghai-Tibet Plateau
Zhao Wenjin
Strategic Study of CAE 2003, Volume 5, Issue 2, Pages 1-15
Taking the Qinghai-Tibet Plateau as an example, the paper introduces newest results of deep
Keywords: lithosphere deep exploration Tibet Plateau
Advance in the Study on the Insect in Tibet
Wang Baohai,Huang Fusheng,Li Baohai,wang Cuiling,wang Chengming
Strategic Study of CAE 1999, Volume 1, Issue 3, Pages 86-92
Keywords: insect advance in study Tibet
Understanding of Qinghai-Tibet Railway
余春红
Strategic Study of CAE 2003, Volume 5, Issue 11, Pages 92-94
LI Shunjiang, YANG Linsheng, WANG Wuyi, LI Yonghua, LI Hairong, XIRAO Ruodeng
Frontiers of Medicine 2007, Volume 1, Issue 2, Pages 223-225 doi: 10.1007/s11684-007-0043-1
Keywords: different relationship non-disease selenium KBD distribution
Climate change and the engineering projects of the Qinghai-Tibet Plateau
Ren Guoyu
Strategic Study of CAE 2012, Volume 14, Issue 9, Pages 90-95
Evident change in climate of the Qinghai-Tibet Plateau occurred in the
Keywords: climate change adaptation ecosystem environment engineering projects Qinghai-Tibet Plateau
Men Kepei
Strategic Study of CAE 2009, Volume 11, Issue 6, Pages 82-88
Keywords: the north block of Tibet Plateau informational orderly network structure the great Wenchuan Earthquake
Highway Planning and Design in the Qinghai–Tibet Plateau of China: A Cost-Safety Balance Perspective Article
Chengqian Li, Lieyun Ding, Botao Zhong
Engineering 2019, Volume 5, Issue 2, Pages 337-349 doi: 10.1016/j.eng.2018.12.008
Keywords: Highway planning and design Cost-safety optimization Acceptable risk assessment Sichuan-Tibet Highway
Duo Ji
Strategic Study of CAE 2003, Volume 5, Issue 1, Pages 42-47
The Yangbajing Geothermal Field is one of non-volcanic high-temperature geothermal fields. The Yangbajing convective system consists of two reservoirs at different depth. The shallow reservoir is constitued of loose alluvium of Quanternary and altered granite of Himalaya. Temperature inside the shallow reservoir is in the range of 150〜165℃ at the depth of 180〜280 m. Shallow thermal water is of sodium chlorite type and mixture of deep hot water and cold groundwater. The deep reservoir is in a slip-fault zone of the core complex. It is a veinor zone-shape reservoir. The deep reservoir can be divided into two parts. The upper parts of temperature 251℃ is at depths ranging from 950m to 1350 m. The lower part is below 1850 m , in which the measured temperature is as high as 329℃ . The deep thermal water is of sodium chlorite type, too. Carbon dioxide-is a major non-condensate gas in the shallow and deep reservoir.
Keywords: high temperature geothermal thermal reservoirs genesis Yangbajing Tibet
Title Author Date Type Operation
atmospheric observing system over the Tibetan Plateau and its eastern region—a China-Japan cooperative JICAProject
Zhang Renhe,Xu Xiangde
Journal Article
Soil selenium concentration and Kashin-Beck disease prevalence in Tibet, China
Shunjiang LI, Wei LI, Xia HU, Linsheng YANG, Ruodeng XIRAO
Journal Article
Risk warning technologies and emergency response mechanisms in Sichuan–Tibet Railway construction
Liujiang KANG, Hao LI, Cong LI, Na XIAO, Huijun SUN, Nsabimana BUHIGIRO
Journal Article
Advantages of Copper Resources and Prospects for Their Exploitation and Utilization in Tibet
Tang Juxing, Wang Qin
Journal Article
Deep Exploration for Lithosphere With Special Reference to Qinghai-Tibet Plateau
Zhao Wenjin
Journal Article
Advance in the Study on the Insect in Tibet
Wang Baohai,Huang Fusheng,Li Baohai,wang Cuiling,wang Chengming
Journal Article
Relationship between selenium concentration in child hair and the distribution of Kashin-Beck Disease in Tibet
LI Shunjiang, YANG Linsheng, WANG Wuyi, LI Yonghua, LI Hairong, XIRAO Ruodeng
Journal Article
Earthquakes in the north block of Tibet-Plateau and retrospect of prediction for Wenchuan M8.0 Earthquake
Men Kepei
Journal Article
Highway Planning and Design in the Qinghai–Tibet Plateau of China: A Cost-Safety Balance Perspective
Chengqian Li, Lieyun Ding, Botao Zhong
Journal Article