Figures
From GARDGuide
Contents
[hide]1.0 The Global Acid Rock Drainage Guide
List of Figures
- Figure 1-1: Types of Drainage Produced by Sulphide Mineral Oxidation
- Figure 1-2: Overall ARD Management Plan
- Figure 1-3: Applying an Environmental Management System to ARD
2.0 The Acid Rock Drainage Process
List of Tables
- Table 2-1: Common Sulphides Known or Inferred to GenerateAcid when Oxidized (Plumlee, 1999)
- Table 2-2: Typical NP Values and pH Buffering Ranges for Some Common Minerals (Jambor, 2003; Blowes et al., 2003; BCAMDTF, 1989)
List of Figures
- Figure 2-1: Roman Portal with Acid Rock Drainage – Spain
- Figure 2-2: Generalized Conceptual Model of Sources, Pathways and Receiving Environment at a Mine or Processing Site
- Figure 2-3: Ficklin Diagram Showing ARD, NMD, and SD as a Function of Dissolved Base Metal Concentrations (Plumlee et al., 1999)
- Figure 2-4: Diagram Showing ARD, NMD, and SD as a Function of Sulphate Concentrations
- Figure 2-5: Ficklin Diagram Showing Selected Principles that Govern Mine Water Quality (Plumlee et al., 1999)
- Figure 2-6: The Global Sulphur Cycle (Stumm and Morgan, 1996). Global Fluxes in Millions Tons of Sulphur per Year and Inventories in Millions Tons of Sulphur
- Figure 2-7: The Biogeochemical Sulphur Cycle
- Figure 2-8: Model for the Oxidation of Pyrite (Stumm and Morgan, 1981). (The numbers in brackets refer to the reactions presented in Section 2.6.4)
- Figure 2-9: Schematic Illustration of Normalized Sulphide Oxidation Rates with and without Bacterial Mediation (Robertson and Broughton, 1992)
- Figure 2-10: Stages in the Formation of ARD (Broughton and Robertson, 1992). (The numbers in brackets refer to the reactions presented in Chapter 2.6.4.)
- Figure 2-11: Schematic Illustration of Factors that Affect Sulphide Oxidation and Modify Mine Drainage during Transport
- Figure 2-12: Schematic Illustration of the Effect of Temperature on Normalized Sulphide Oxidation Rates (Robertson and Broughton, 1992)
- Figure 2-13: Two-Stage Process for Pyrite Oxidation in a Tailings Impoundment (Wunderly et al., 1996)
3.0 Corporate, Regulatory, and Community Framework
List of Tables
- Table 3-1 : Risk Management Procedure for Mine Sites (modified from Lee, 1999)
- Table 3-2: Integrating Risk Approach into ARD/ML Management
List of Figures
- Figure 3-1: Framework for ARD management
- Figure 3-2: Hierarchical relationship between Global, National and Local Elements of the Framework
- Figure 3-3: Conceptual ARD Management Framework
- Figure 3-4: Sustainable Development Balance
4.0 Defining the Problem – Characterization
List of Tables
- Table 4-1: Mine Phase Objectives and Activities
- Table 4-2: Characterization Activities by Mine Phase
- Table 4-3: Source Material Characterization Activities by Mine Phase
- Table 4-4: Geologic Characteristics of Mineral Deposits that Affect Their Environmental Signatures (Plumlee, 1999)
- Table 4-5: Australian Guidance on Sample Numbers (Australian Government Department of Industry, Tourism and Resources, 2007)
List of Figures
- Figure 4-1: Components of Site Characterization Program
- Figure 4-2: Characterization Chapter Road Map
- Figure 4-3: Typical Data Requirements of a Conceptual Site Model (CSM)
- Figure 4-4: Example Conceptual Site Model Schematic
- Figure 4-5: Major Steps Involved in Extraction Metallurgy of Metals
- Figure 4-6: Sources and Pathways of ARD, NMD, and SD in a Pit during Operation and Closure
- Figure 4-7: Sources and Pathways of ARD, NMD, and SD in Underground Workings during Operation and Closure
- Figure 4-8: Sources and Pathways of ARD, NMD, and SD in a Waste Rock Pile
- Figure 4-9: Sources and Pathways of ARD, NMD, and SD in a Subaqueous Tailings Storage Facility
- Figure 4-10: Source Material Geochemical Testing Program Components
- Figure 4-11: Water Balance Box and Arrow Diagram
