TY  - BOOK
AU  - Li,Shucai
AU  - Xu,Zhenhao
AU  - Huang,Xin
AU  - Du,Yuchao
TI  - Hazard-causing System and Assessment of Water and Mud Inrush in Tunnel
SN  - 9789811995231
U1  - 624.151 23
PY  - 2023///
CY  - Singapore
PB  - Springer Nature Singapore, Imprint: Springer
KW  - Geotechnical engineering
KW  - Engineering geology
KW  - Natural disasters
KW  - Environmental management
KW  - Geotechnical Engineering and Applied Earth Sciences
KW  - Geoengineering
KW  - Natural Hazards
KW  - Environmental Management
N1  - Foreword -- Chapter 1 Introduction -- Chapter 2 Classification and geological identification of hazard-causing system for water and mud inrush in tunnel -- Chapter 3 Typical cases and analysis of water and mud inrush in tunnel -- Chapter 4 Route selection of tunnel in karst area -- Chapter 5 Interval dynamic risk assessment of water and mud rush in tunnel construction -- Chapter 6 Resistance body assessment method against water and mud inrush in tunnel -- Chapter 7 Identification method of water and mud inrush hazard-causing system in tunnel -- Chapter 8 Dynamic management and analysis platform of water and mud inrush cases in tunnel -- References -- Appendix
N2  - This book is composed of eight chapters, introducing the authors' research and application achievements in the hazard-causing system and disaster evaluation of water and mud inrush in tunnels over the past 10 years. Through a large number of case studies and analysis, and on the basis of existing research, this book puts forward 3 categories and 11 types of tunnel water and mud inrush hazard-causing systems and 4 typical water and mud inrush disaster-forming modes. The authors carefully study the typical cases of tunnel water and mud inrush hazard-causing system, discuss the types of karst water system, structural characteristics, macro-geological identification, engineering identification, karst tunnel route selection principles and evaluation methods in detail, and then develop a dynamic evaluation method of tunnel water and mud inrush construction risk interval and an evaluation method for the resistance body. Ultimately, the authors put forward a systematic identification method of tunnel water and mud inrush disaster, which integrates geological identification, geophysical exploration identification, and drilling identification, and construct a dynamic management and analysis platform for tunnel water and mud inrush cases. This book is used as a reference book for teachers, graduate students, and undergraduates in colleges and universities of civil engineering, transportation, water conservancy and hydropower, mining, geology, etc., and also as a reference for technicians in related engineering fields
UR  - https://doi.org/10.1007/978-981-19-9523-1
ER  -