深部開采擾動(dòng)的區(qū)域應(yīng)力效應(yīng)與臨災(zāi)響應(yīng)特征(英文版)
定 價(jià):80 元
- 作者: 張?jiān)抡鳎o(jì)洪廣,向鵬 著
- 出版時(shí)間:2020/12/1
- ISBN:9787516031131
- 出 版 社:中國(guó)建材工業(yè)出版社
- 中圖法分類:TD82
- 頁碼:159
- 紙張:膠版紙
- 版次:1
- 開本:16開
《深部開采擾動(dòng)的區(qū)域應(yīng)力效應(yīng)與臨災(zāi)響應(yīng)特征(英文版)》針對(duì)深部開采中沖擊地壓災(zāi)害孕育、誘發(fā)和控制方面的地質(zhì)條件、構(gòu)造條件及動(dòng)力學(xué)基礎(chǔ)問題,從區(qū)域應(yīng)力場(chǎng)狀態(tài)與災(zāi)害相關(guān)性、開采擾動(dòng)作用與區(qū)域應(yīng)力場(chǎng)的耦合效應(yīng)及其演化分析入手,通過開采擾動(dòng)作用下區(qū)域應(yīng)力效應(yīng)的變化過程監(jiān)測(cè)和分析,揭示了沖擊地壓災(zāi)源體巖體與周邊區(qū)域地層之間的結(jié)構(gòu)性協(xié)同演化機(jī)制、力-能傳遞機(jī)理和動(dòng)力觸發(fā)條件,探明了固體潮汐應(yīng)力對(duì)礦震的觸發(fā)作用,加深了對(duì)礦震孕育及誘發(fā)機(jī)理的認(rèn)識(shí),提出了基于開采擾動(dòng)作用與區(qū)域應(yīng)力場(chǎng)耦合效應(yīng)分析的新理論與新方法,為深部資源開采中沖擊地壓災(zāi)害的有效防控提供理論基礎(chǔ)。
With the gradual disappearance of shallow resources in China,resource mining has gradually shifted to deep mining.As mining activities have turned to deep minings of more than one thousand meters deep,mining dynamic disasters such as impact ground pressure and earthquakes are occumng even more frequently.The frequency,scale,and degree of damage have all significantly increased,and more than 150 mines across the country are threatened by such dynamic disasters.For example,on October 20,2018,21 people were killed due to the impact of the Longyun Coal Industry on the ground pressure,and the loss made a great impact.Therefore,effective control of and safety protection against mine dynamic disasters such as rock-burst remain a key techni-cal bottleneck that severely restricts the safe development of deep resources.It is urgent to solve the scientific and technical problems in the prediction,control and comprehen-sive prevention of dynamic disasters such as rock-burst in deep mining,and to realize the safety protection and effective control of such dynamic disasters.
Mining dynamic disasters such as rock-burst and mining earthquakes seriously threaten the safety of the mine.During the breeding and inducing processes,factors such as stress and energy ke.ep accumulating,causing the surrounding rock of the stope to reach and even exceed the critical state,so that it ruptures,expands amd evolves into earthquake or disaster.The emergence and evolution processes reflect the co-action process of multiple factors such as overburden and stratum structure,original stress field,mining disturbance,etc.It also reflects the synergy mechanism and state evolu-tion process of multiple physical mechanics fields on multiple spatial scales.
This book aims to study the geological conditions,tectonic conditions,and dynamic basic problems in the incubation,induction,and control of rock-burst disasters in deep mining,from the regional stress field state and disaster correlation,the coupling effect of mining disturbance and regional stress field,and its effects.Starting with evolutionary a-nalysis,through the monitoring and analysis of the change process of regional stress effects under the action of mining disturbances,the structural co-evolution mechanism,force-energy transmission mechanism,and dynamic triggering conditions between the rock and the surrounding area stratum are revealed.The book will further explore the mggering effect of solid tidal stress on mining earthquakes,deepen the understanding of mining earthquakes' inducing and inducing mechanisms,explore new theories and meth-ods for analyzing the coupling effects of mining disturbances and regional stress fields,and provide a theoretical basis for the effective prevention and control of disasters in deep resource mining.
The book wasdrafted at the University of Science and Technology Beijing.At the same time,a large number of experiments and data analysis were carried out at the engi-neering site of the mining enterprise.I would like to extend my sincere gratitude and blessings to the instructor Prof Hongguang Ji.Thanks to Mr.Lei Zhang,Mr.Shuang You,Mr.Peng Xiang and other team members for their help and support.Thanks to the National Natural Science Foundation of China (51534002) ,the Major Scientific and Technological Innovation Projects in Shandong Province (2019SDZY02) ,the Basic Sci-entific Research Business Expenses of Central Universities ( FRF-TP-16-074A1,F(xiàn)RF-TP-19-026A2) ,and the Chinese Postdoctoral Science Foundation (2017M620623) for their great support for the research and publication of this book.At the same time,I would like to thank Ms.Na Yang at the China Building Materials Industry Press,for her excellent work during the typesetting process,and I have benefited greatly communica-ting about the manuscript with her.While writing this book,I read a lot of domestic and foreign literature and peer work,and I thank them for their hard work.
The main content of this book is from my doctoral dissert.ation.It is my first aca-demic professional book.Although I have done a lot of work,due to the limited level,omissions and inadequacies would certainly exist in the contents.Experts and readers are more than welcomed to criticize and correct it.
1 Introduction
1.1 Research background
1.1.1 Research significance
1.1.2 Questions raised
1.2 Summary of research progress on mining dynamic disasters such as mine earthquake and rock-burst
1.2.1 Research progress of domestic and foreign mine earthquakes
1.2.2 Research progress on shock pressure at home and abroad
1.2.3 Relationship between mining earthquake and rock-burst
1.3 Research scope and research content
2 Impact Hazard Analysis Technology Based on Evolution of Stress State
2.1 Concept of impact danger
2.2 Characteristics of initial stress fields in deep formations
2.2.1 Stress field formed by the earth's gravity field
2.2.2 Main stress directions of tectonic stress field
2.2.3 Geological dynamics of in-situ stress field
2.3 Impact risk assessment method based on the stress state
2.3.1 Establishment and analysis of 3D stress state evaluation indicators
2.3.2 Triaxial test research on evaluation indicators of stress state
2.3.3 Classification of dangerous levels of rock mass stability based on stress state
2.4 Impact hazard analysis technique based on the spatio-temporal change Of stress field
2.4.1 Analysis of regional geological background of Hunting Coalfield
2.4.2 Original geo-stress field measurement
2.4.3 Inversion of regional geo-stress field in Huating Coalfield
2.4.4 Stress field, energy field and geodynamic characteristics of Huafing Coalfield
2.4.5 Evaluation of impact dangerous area based on stress state of floor in Huating Coalfield
2.4.6 Discussing the spatiotemporaI evolution of impact danger
2.5 Summary
3 Correlation and Trigger Mechanism Between Regional Solid Tidal Stress and Mine-induced Earthquakes
3.1 Earth's solid tidal stress theory
3.2 Statistical analysis method of solid tide triggering effect of mine earthquake
3.3 Analysis of triggering effect of solid tide of quake in huating coalfield area
3.3.1 Analysis of background of seismic activity in Huating Coalfield
3.3.2 Correlation analysis between tidal action and roof-type quake activity
3.3.3 Correlation analysis between tidal action and floor-type seismic activity
3.4 Analysis on the relationship between the triggering of solid tide and the scale of mine earthquakes
3.4.1 Analysis of triggering effects of solid tide on roof-type mine earthquakes of different magnitudes
3.4.2 Analysis of triggering effects of solid tide on floor-type mine earthquakes of different magnitudes
3.5 Analysis of trigger mechanism of tidal stress induced mine earthquake
3.5.1 Action mode of tidal stress
3.5.2 Triggering effects of tidal stress on roof-type mine earthquakes
3.5.3 Effect of tidal stress on floor-type mine earthquakes
3.6 Impact of the earthquake process on local tide activity
3.7 Summary
4 Observation and Analysis Methods of Regional Strain Effects of Mining Earthquakes
4.1 Correlation and synergy mechanism between mining disturbance effect and regional stress field
4.2 Geological and engineering background analysis of regional stress (strain) effect observation in Huating mining area
4.3 Observation technology of drilling strain
4.4 Analysis of time series of borehole strain observation data
4.4.1 Fractal feature analysis method
4.4.2 Analysis method of group statistical theory
4.4.3 Analysis method of time history of strain rate
4.5 Summary
5 Analysis of Regional Strain Effects and Disaster-related
Characteristics of Mininginduced Dynamic Disasters
5.1 Regional strain response models and relations to seismic features during mining
5.1.1 Regional strain coseismic response models of mining and natural earthquakes
5.1.2 Relationship between the regional strain response model and the characteristics of a mine earthquake
5.2 Disaster feature extraction analysis based on time history changes of borehole strain data
5.2.1 Feature analysis of fractal box dimension
5.2.2 Parameter analysis of group statistical characteristic
5.2.3 Analysis of strain rate characteristics
5.3 Analysis of precursor characteristics of mining dynamic disasters
5.3.1 Analysis of precursor mechanical mechanism and box dimension characteristics of mining dynamic disasters
5.3.2 Analysis of disaster gestation and precursory characteristics based on the evolution of rock deformation trends
5.4 Summary
6 Research Conclusions and Understanding
6.1 Main conclusions
6.2 Innovation
6.3 Outlook
References