工程地質(zhì)分析評(píng)價(jià)理論方法

目錄
序
前言
第1章　工程地質(zhì)人員在工程建設(shè)中的作用　1
1.1　工程勘察在工程建設(shè)中的作用　1
1.2　工程地質(zhì)人員的工作方法　1
1.3　工程地質(zhì)人員的技術(shù)水平　2
1.4　工程地質(zhì)人員的工作內(nèi)容　2
1.5　國外工程地質(zhì)人員技術(shù)工作方法　4
1.6　培養(yǎng)造就新一代的工程地質(zhì)專家　5
第2章　工程地質(zhì)學(xué)理論體系　7
2.1　工程地質(zhì)理論問題研究的必要性　7
2.2　工程地質(zhì)理論問題研究現(xiàn)狀7
2.3　工程地質(zhì)學(xué)研究?jī)?nèi)容及其與其他學(xué)科的關(guān)系　8
2.4　工程地質(zhì)學(xué)的科學(xué)技術(shù)觀　10
2.5　工程地質(zhì)學(xué)的理論體系11
2.6　工程地質(zhì)基本理論的探討　14
第3章　工程地質(zhì)耦合理論　18
3.1　耦合理論的基本思想　18
3.2　耦合理論的圖示模型　21
3.3　耦合理論的數(shù)學(xué)模型　23
3.4　耦合理論的應(yīng)用步驟及其循環(huán)　24
3.5　工程地質(zhì)學(xué)耦合理論的決策準(zhǔn)則　27
3.6　耦合度及其計(jì)算　28
3.7　耦合風(fēng)險(xiǎn)性分析　31
3.8　耦合理論與其他學(xué)科的關(guān)系　31
3.9　工程地質(zhì)耦合理論與汶川地震后的反思　33
第4章　工程地質(zhì)條件復(fù)雜程度分級(jí)　47
4.1　工程地質(zhì)條件復(fù)雜程度劃分的幾個(gè)概念　47
4.2　工程地質(zhì)條件復(fù)雜程度各評(píng)價(jià)項(xiàng)目指標(biāo)的計(jì)算　48
4.3　工程地質(zhì)條件復(fù)雜程度各評(píng)價(jià)項(xiàng)目指標(biāo)的評(píng)分　52
第5章　工程地質(zhì)勘察準(zhǔn)確度　54
5.1　工程地質(zhì)勘察及其準(zhǔn)確度　54
5.2　各種勘察手段的準(zhǔn)確度　55
5.3　地質(zhì)體勘察準(zhǔn)確度計(jì)算與評(píng)價(jià)　57
5.4　勘察準(zhǔn)確度分級(jí)及不同勘察設(shè)計(jì)階段對(duì)準(zhǔn)確度的要求　61
5.5　工程地質(zhì)形跡預(yù)報(bào)尺寸　63
5.6　工程地質(zhì)預(yù)報(bào)方法65
5.7　勘察準(zhǔn)確度計(jì)算應(yīng)用例題　68
5.8　勘察準(zhǔn)確度研究在實(shí)際工程中的意義　71
5.9　需要說明的幾個(gè)問題　71
第6章　工程地質(zhì)評(píng)價(jià)層序　73
6.1　工程地質(zhì)評(píng)價(jià)中的層序　73
6.2　工程地質(zhì)評(píng)價(jià)中的時(shí)間和空間模型　74
6.3　十三陵抽水蓄能電站地下廠房位置選擇的評(píng)價(jià)層序　79
第7章　工程地質(zhì)分析評(píng)價(jià)方法　91
7.1　工程地質(zhì)評(píng)價(jià)概述　91
7.2　工程地質(zhì)分析評(píng)價(jià)基本方法　95
7.3　工程地質(zhì)綜合評(píng)價(jià)方法　98
7.4　幾種典型工程地質(zhì)條件的評(píng)價(jià)方法　104
第8章　工程地質(zhì)決策方法　118
8.1　工程地質(zhì)決策及決策模型　118
8.2　工程地質(zhì)決策方法之一——經(jīng)驗(yàn)判斷法　119
8.3　工程地質(zhì)決策方法之二——工程類比法　124
8.4　工程地質(zhì)決策方法之三——優(yōu)劣對(duì)比法　129
8.5　工程地質(zhì)決策方法之四——決策分析法　133
8.6　工程地質(zhì)決策方法之五——綜合決策法　142
8.7　工程地質(zhì)決策程序　142
第9章　工程地質(zhì)學(xué)未來發(fā)展方向及待研究的問題　147
9.1　工程地質(zhì)學(xué)的發(fā)展方向　147
9.2　工程地質(zhì)評(píng)價(jià)研究目前存在的問題　148
9.3　耦合理論下一步應(yīng)研究的問題　151
參考文獻(xiàn)　152
后記　156
Contents
Foreword
Preface
Chapter 1　The Role of Engineering Geologists in Engineering Construction　1
1.1　The Role of Geological Survey in Engineering Construction　1
1.2　Working Methods of Engineering Geologists　1
1.3　Technical Level of Engineering Geologists　2
1.4　Work Contents of Engineering Geologists　2
1.5　The Technical Work Methods of Engineering Geologists in Other Countries　4
1.6　Cultivating a New Generation of Engineering Geology Experts　5
Chapter 2　Theoretical System of Engineering Geology　7
2.1　The Necessity of Research on the Theoretical Problems of Engineering Geology　7
2.2　The Current Situation of Research on Theory of Engineering Geology　7
2.3　Research Content of Engineering Geology and Its Relationship with Other Disciplines　8
2.4　Scientific and Technical View of Engineering Geology　10
2.5　Theoretical System of Engineering Geology　11
2.6　Exploration of the Basic Theory of Engineering Geology　14
Chapter 3　Engineering Geological Coupling Theory　18
3.1　The Basic Idea of Coupling Theory　18
3.2　Graphical Model of Coupling Theory　21
3.3　Mathematical Model of Coupling Theory　23
3.4　Implementation Steps and Cycles of Coupling Theory　24
3.5　Decision Criteria of Engineering Geological Coupling Theory　27
3.6　Coupling Degree and Calculation　28
3.7　Coupling Riskiness Analysis　31
3.8　Relationship Between Coupling Theory and Other Disciplines　31
3.9　Reflection After Wenchuan Earthquake Through Engineering Geological Coupling Theory　33
Chapter 4　Engineering Geological Complexity Classification　47
4.1　Several Concepts of Engineering Geological Complexity Classification　47
4.2　Calculation of Indicators for Each Evaluation Item　48
4.3　Grading of Indicators for Each Evaluation Item　52
Chapter 5　Accuracy of Engineering Geological Survey　54
5.1　Engineering Geological Survey and Its Accuracy　54
5.2　Accuracy of Various Survey Methods　55
5.3　Calculation and Evaluation of Survey Accuracy on Geological Body　57
5.4　Survey Accuracy Grading and Accuracy Requirements for Different Survey and Design Stages　61
5.5　Forecasting Size of Engineering Geological Defects　63
5.6　Engineering Geological Forecasting Methods　65
5.7　An Case of Accuracy Calculation　68
5.8　Significance of the Study on Accuracy in Actual Project　71
5.9　Several Issues That Need to be Clarified　71
Chapter 6　The Hierarchy of Engineering Geological Evaluation　73
6.1　The Hierarchy and Sequence in Engineering Geological Evaluation　73
6.2　Time and Space Models in Engineering Geological Evaluation　74
6.3　Evaluation Hierarchy for the Selection of Underground Plant Location of the Ming Tombs Pumped Storage Power Station　79
Chapter 7　The Methods of Engineering Geological Analysis and Evaluation　91
7.1　Overview of Engineering Geological Evaluation　91
7.2　Basic Methods of Engineering Geological Analysis and Evaluation　95
7.3　Comprehensive Method of Engineering Geological Evaluation　98
7.4　Evaluation Methods of Several Typical Engineering Geological Conditions　104
Chapter 8　Engineering Geological Decisionmaking Methods　118
8.1　Engineering Geological Decisionmaking and Decision Model　118
8.2　Empirical Judgment Method　119
8.3　Engineering Analogy Method　124
8.4　Comparison Method Between Advantages and Disadvantages　129
8.5　Decision Analysis Method　133
8.6　Integrated Decisionmaking Method　142
8.7　Decisionmaking Procedure for Engineering Geological Problems　142
Chapter 9　Future Development Direct