Description

Book Synopsis

1. Introduction.- 2. Statistical Tools and Concepts.- 3. Geological Controls and Block Modeling.- 4. Definition of Estimation Domains.- 5. Data Collection and Handling.- 6. Spatial Continuity.- 7. Mining Dilution.- 8. Recoverable Resources: Estimation.- 9. Recoverable Resources: Probabilistic Estimation.- 10. Recoverable Resources: Simulation.- 11. Resource Model Validations and Reconciliations.- 12. Uncertainty and Risk.- 13. Short Term Models.- 14. Case Studies.- 15. Conclusions.- Index.



Table of Contents

1 Introduction

1.1 Objectives and Approach

1.2 Scope of Resource Modeling

1.3 Critical Aspects

1.4 Historical Perspective

1.5 References

2 Statistical Tools and Concepts

2.1 Basic Concepts

2.2 Probability Distributions

2.3 Spatial Data Analysis

2.4 Gaussian Distribution and Data Transformations

2.5 Data Integration and Inference

2.6 Exercises

2.7 References

3 Geological Controls and Block Modeling

3.1 Geological and Mineralization Controls

3.2 Geologic Interpretation and Modeling

3.3 Visualization

3.4 Block Model Setup and Geometry

3.5 Summary of Minimum, Good and Best Practices

3.6 Exercises

3.7 References

4 Definition of Estimation Domains

4.1 Estimation Domains

4.2 Defining the Estimation Domains

4.3 Case Study: Estimation Domains Definition for the Escondida Mine

4.4 Boundaries and Trends

4.5 Uncertainties Related to Estimation Domain Definition

4.6 Summary of Minimum, Good and Best Practices

4.7 Exercises

4.8 References

5 Data Collection and Handling

5.1 Data

5.2 Basics of Sampling Theory

5.3 Sampling Quality Assurance and Quality Control

5.4 Variables and Data Types

5.5 Compositing and Outliers

5.6 Density Determinations

5.7 Geometallurgical Data

5.8 Summary of Minimum, Good and Best Practices

5.9 Exercises

5.10 References

6 Spatial Continuity

6.1 Concepts

6.2 Experimental Variograms and Exploratory Analysis

6.3 Modeling 3-D Variograms

6.4 Multivariate Case

6.5 Summary of Minimum, Good and Best Practices

6.6 Exercises

6.7 References

7 Mining Dilution

7.1 Recoverable vs. In-Situ Resources

7.2 Types of Dilution and Ore Loss

7.3 Volume-Variance Correction

7.4 Information Effect

7.5 Summary of Minimum, Good and Best Practices

7.6 Exercises

7.7 References

8 Recoverable Resources: Estimation

8.1 Goals and Purpose of Estimation

8.2 Kriging Estimators

8.3 CoKriging

8.4 Block Kriging

8.5 Kriging Plans

8.6 Summary of Minimum, Good and Best Practices

8.7 Exercises

8.8 References

9 Recoverable Resources: Probabilistic Estimation

9.1 Conditional Distributions

9.2 Gaussian-based Kriging Methods

9.3 Indicator Kriging

9.4 Summary of Minimum, Good and Best Practices

9.5 Exercises

9.6 References

10 Recoverable Resources: Simulation

10.1 Simulation versus Estimation

10.2 Continuous Variables: Gaussian-based Simulation

10.3 Continuous Variables: Indicator-based Simulation

10.4 Simulated Annealing

10.5 Simulating Categorical Variables

10.6 Co-simulation: Using Secondary Information and Joint Conditional Simulations

10.7 Post Processing Simulated Realizations

10.8 Summary of Minimum, Good and Best Practices

10.9 Exercises

10.10 Reference

11 Resource Model Validations and Reconciliations

11.1 The Need for Checking and Validating the Resource Model

11.2 Resource Model Integrity

11.3 Resampling

11.4 Resource Model Validation

11.5 Comparisons with Prior and Alternate Models

11.6 Reconciliations

11.7 Summary of Minimum, Good and Best Practices

11.8 Exercises

11.9 References

12 Uncertainty and Risk

12.1 Models of Uncertainty

12.2 Assessment of Risk

12.3 Resource Classification and Reporting Standards

12.4 Summary of Minimum, Good and Best Practices

12.5 Exercises

12.6 References

13 Short Term Models

13.1 Limitations of Long-term Models for Medium-term Planning

13.2 Medium- and Short-term Modeling

13.3 Selection of Ore and Waste

13.4 Selection of Ore and Waste: Simulation-based Methods

13.5 Practical and Operational Aspects of Grade Control

13.6 Summary of Minimum, Good and Best Practices

13.7 Exercises

13.8 References

14 Case Studies

14.1 The 2003 Cerro Colorado Resource Model

14.2 Multiple Indicator Kriging: São Francisco Gold Deposit

14.3 Modeling Escondida Norte’s Oxide Units with Indicators

14.4 Multivariate Geostatistical Simulation at Red Dog Mine

14.5 Uncertainty Models and Resource Classification: The Michilla Mine Case Study

14.6 Grade Control at the San Cristóbal Mine

14.7 Geometallurgical Modeling at Olympic Dam, South Australia

14.8 References

15 Conclusions

15.1 Building a Mineral Resource Model

15.2 Assumptions and Limitations of the Models Used

15.3 Documentation and Audit Trail Required

15.4 Future Trends

15.5 References

Index

Mineral Resource Estimation

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A Hardback by Mario E. Rossi, Clayton V. Deutsch

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    View other formats and editions of Mineral Resource Estimation by Mario E. Rossi

    Publisher: Springer-Verlag New York Inc.
    Publication Date: 13/01/2014
    ISBN13: 9781402057168, 978-1402057168
    ISBN10: 1402057164
    Also in:
    Earth sciences Geology, geomorphology and the lithosphere Petrology, petrography and mineralogy

    Description

    Book Synopsis

    1. Introduction.- 2. Statistical Tools and Concepts.- 3. Geological Controls and Block Modeling.- 4. Definition of Estimation Domains.- 5. Data Collection and Handling.- 6. Spatial Continuity.- 7. Mining Dilution.- 8. Recoverable Resources: Estimation.- 9. Recoverable Resources: Probabilistic Estimation.- 10. Recoverable Resources: Simulation.- 11. Resource Model Validations and Reconciliations.- 12. Uncertainty and Risk.- 13. Short Term Models.- 14. Case Studies.- 15. Conclusions.- Index.



    Table of Contents

    1 Introduction

    1.1 Objectives and Approach

    1.2 Scope of Resource Modeling

    1.3 Critical Aspects

    1.4 Historical Perspective

    1.5 References

    2 Statistical Tools and Concepts

    2.1 Basic Concepts

    2.2 Probability Distributions

    2.3 Spatial Data Analysis

    2.4 Gaussian Distribution and Data Transformations

    2.5 Data Integration and Inference

    2.6 Exercises

    2.7 References

    3 Geological Controls and Block Modeling

    3.1 Geological and Mineralization Controls

    3.2 Geologic Interpretation and Modeling

    3.3 Visualization

    3.4 Block Model Setup and Geometry

    3.5 Summary of Minimum, Good and Best Practices

    3.6 Exercises

    3.7 References

    4 Definition of Estimation Domains

    4.1 Estimation Domains

    4.2 Defining the Estimation Domains

    4.3 Case Study: Estimation Domains Definition for the Escondida Mine

    4.4 Boundaries and Trends

    4.5 Uncertainties Related to Estimation Domain Definition

    4.6 Summary of Minimum, Good and Best Practices

    4.7 Exercises

    4.8 References

    5 Data Collection and Handling

    5.1 Data

    5.2 Basics of Sampling Theory

    5.3 Sampling Quality Assurance and Quality Control

    5.4 Variables and Data Types

    5.5 Compositing and Outliers

    5.6 Density Determinations

    5.7 Geometallurgical Data

    5.8 Summary of Minimum, Good and Best Practices

    5.9 Exercises

    5.10 References

    6 Spatial Continuity

    6.1 Concepts

    6.2 Experimental Variograms and Exploratory Analysis

    6.3 Modeling 3-D Variograms

    6.4 Multivariate Case

    6.5 Summary of Minimum, Good and Best Practices

    6.6 Exercises

    6.7 References

    7 Mining Dilution

    7.1 Recoverable vs. In-Situ Resources

    7.2 Types of Dilution and Ore Loss

    7.3 Volume-Variance Correction

    7.4 Information Effect

    7.5 Summary of Minimum, Good and Best Practices

    7.6 Exercises

    7.7 References

    8 Recoverable Resources: Estimation

    8.1 Goals and Purpose of Estimation

    8.2 Kriging Estimators

    8.3 CoKriging

    8.4 Block Kriging

    8.5 Kriging Plans

    8.6 Summary of Minimum, Good and Best Practices

    8.7 Exercises

    8.8 References

    9 Recoverable Resources: Probabilistic Estimation

    9.1 Conditional Distributions

    9.2 Gaussian-based Kriging Methods

    9.3 Indicator Kriging

    9.4 Summary of Minimum, Good and Best Practices

    9.5 Exercises

    9.6 References

    10 Recoverable Resources: Simulation

    10.1 Simulation versus Estimation

    10.2 Continuous Variables: Gaussian-based Simulation

    10.3 Continuous Variables: Indicator-based Simulation

    10.4 Simulated Annealing

    10.5 Simulating Categorical Variables

    10.6 Co-simulation: Using Secondary Information and Joint Conditional Simulations

    10.7 Post Processing Simulated Realizations

    10.8 Summary of Minimum, Good and Best Practices

    10.9 Exercises

    10.10 Reference

    11 Resource Model Validations and Reconciliations

    11.1 The Need for Checking and Validating the Resource Model

    11.2 Resource Model Integrity

    11.3 Resampling

    11.4 Resource Model Validation

    11.5 Comparisons with Prior and Alternate Models

    11.6 Reconciliations

    11.7 Summary of Minimum, Good and Best Practices

    11.8 Exercises

    11.9 References

    12 Uncertainty and Risk

    12.1 Models of Uncertainty

    12.2 Assessment of Risk

    12.3 Resource Classification and Reporting Standards

    12.4 Summary of Minimum, Good and Best Practices

    12.5 Exercises

    12.6 References

    13 Short Term Models

    13.1 Limitations of Long-term Models for Medium-term Planning

    13.2 Medium- and Short-term Modeling

    13.3 Selection of Ore and Waste

    13.4 Selection of Ore and Waste: Simulation-based Methods

    13.5 Practical and Operational Aspects of Grade Control

    13.6 Summary of Minimum, Good and Best Practices

    13.7 Exercises

    13.8 References

    14 Case Studies

    14.1 The 2003 Cerro Colorado Resource Model

    14.2 Multiple Indicator Kriging: São Francisco Gold Deposit

    14.3 Modeling Escondida Norte’s Oxide Units with Indicators

    14.4 Multivariate Geostatistical Simulation at Red Dog Mine

    14.5 Uncertainty Models and Resource Classification: The Michilla Mine Case Study

    14.6 Grade Control at the San Cristóbal Mine

    14.7 Geometallurgical Modeling at Olympic Dam, South Australia

    14.8 References

    15 Conclusions

    15.1 Building a Mineral Resource Model

    15.2 Assumptions and Limitations of the Models Used

    15.3 Documentation and Audit Trail Required

    15.4 Future Trends

    15.5 References

    Index

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