The URL can be used to link to this page

Home My WebLink AboutNC0000396_App B Updated Groundwater Modeling_20160219Produced by: Ron Falta, PhD February 12, 2016 Page 1 P:\Duke Energy Progress.1026\102. Asheville Ash Basin GW Assessment Plan\20.EG_CAP\CAP Part 2\Appendices\Appendix B\Appendix A New_Asheville_Simulations_12_17_15.docx Figure 1. Simulated 2015 manganese concentration (ug/L) in the top model layer of the transition zone or alluvium (layer 8). Produced by: Ron Falta, PhD February 12, 2016 Page 2 P:\Duke Energy Progress.1026\102. Asheville Ash Basin GW Assessment Plan\20.EG_CAP\CAP Part 2\Appendices\Appendix B\Appendix A New_Asheville_Simulations_12_17_15.docx Figure 2. Simulated 2015 manganese concentration (ug/L) in the second model layer of the fractured bedrock (layer 11). Produced by: Ron Falta, PhD February 12, 2016 Page 3 P:\Duke Energy Progress.1026\102. Asheville Ash Basin GW Assessment Plan\20.EG_CAP\CAP Part 2\Appendices\Appendix B\Appendix A New_Asheville_Simulations_12_17_15.docx Figure 3. Simulated 2020 TDS concentration (mg/L) in the second model layer of the fractured bedrock (layer 11) for the CAP2 case (excavation only). Produced by: Ron Falta, PhD February 12, 2016 Page 4 P:\Duke Energy Progress.1026\102. Asheville Ash Basin GW Assessment Plan\20.EG_CAP\CAP Part 2\Appendices\Appendix B\Appendix A New_Asheville_Simulations_12_17_15.docx Figure 4. Simulated 2030 TDS concentration (mg/L) in the second model layer of the fractured bedrock (layer 11) for the CAP2 case (excavation only). Produced by: Ron Falta, PhD February 12, 2016 Page 5 P:\Duke Energy Progress.1026\102. Asheville Ash Basin GW Assessment Plan\20.EG_CAP\CAP Part 2\Appendices\Appendix B\Appendix A New_Asheville_Simulations_12_17_15.docx Figure 5. Simulated 2045 TDS concentration (mg/L) in the second model layer of the fractured bedrock (layer 11) for the CAP2 case (excavation only). Produced by: Ron Falta, PhD February 12, 2016 Page 6 P:\Duke Energy Progress.1026\102. Asheville Ash Basin GW Assessment Plan\20.EG_CAP\CAP Part 2\Appendices\Appendix B\Appendix A New_Asheville_Simulations_12_17_15.docx Figure 6. Simulated 2020 sulfate concentration (mg/L) in the second model layer of the fractured bedrock (layer 11) for the CAP2 case (excavation only). Produced by: Ron Falta, PhD February 12, 2016 Page 7 P:\Duke Energy Progress.1026\102. Asheville Ash Basin GW Assessment Plan\20.EG_CAP\CAP Part 2\Appendices\Appendix B\Appendix A New_Asheville_Simulations_12_17_15.docx Figure 7. Simulated 2030 sulfate concentration (mg/L) in the second model layer of the fractured bedrock (layer 11) for the CAP2 case (excavation only). Produced by: Ron Falta, PhD February 12, 2016 Page 8 P:\Duke Energy Progress.1026\102. Asheville Ash Basin GW Assessment Plan\20.EG_CAP\CAP Part 2\Appendices\Appendix B\Appendix A New_Asheville_Simulations_12_17_15.docx Figure 8. Simulated 2045 sulfate concentration (mg/L) in the second model layer of the fractured bedrock (layer 11) for the CAP2 case (excavation only). Produced by: Ron Falta, PhD February 12, 2016 Page 9 P:\Duke Energy Progress.1026\102. Asheville Ash Basin GW Assessment Plan\20.EG_CAP\CAP Part 2\Appendices\Appendix B\Appendix A New_Asheville_Simulations_12_17_15.docx Figure 9. Simulated 2020 manganese concentration (mg/L) in the second model layer of the fractured bedrock (layer 11) for the CAP2 case (excavation only). Produced by: Ron Falta, PhD February 12, 2016 Page 10 P:\Duke Energy Progress.1026\102. Asheville Ash Basin GW Assessment Plan\20.EG_CAP\CAP Part 2\Appendices\Appendix B\Appendix A New_Asheville_Simulations_12_17_15.docx Figure 10. Simulated 2030 manganese concentration (mg/L) in the second model layer of the fractured bedrock (layer 11) for the CAP2 case (excavation only). Produced by: Ron Falta, PhD February 12, 2016 Page 11 P:\Duke Energy Progress.1026\102. Asheville Ash Basin GW Assessment Plan\20.EG_CAP\CAP Part 2\Appendices\Appendix B\Appendix A New_Asheville_Simulations_12_17_15.docx Figure 11. Simulated 2045 manganese concentration (mg/L) in the second model layer of the fractured bedrock (layer 11) for the CAP2 case (excavation only). Produced by: Ron Falta, PhD February 12, 2016 Page 12 P:\Duke Energy Progress.1026\102. Asheville Ash Basin GW Assessment Plan\20.EG_CAP\CAP Part 2\Appendices\Appendix B\Appendix A New_Asheville_Simulations_12_17_15.docx Figure 12. Hydraulic heads in layer 12 with 10 extraction wells pumping at an average of 0.3 gpm per well. Produced by: Ron Falta, PhD February 12, 2016 Page 13 P:\Duke Energy Progress.1026\102. Asheville Ash Basin GW Assessment Plan\20.EG_CAP\CAP Part 2\Appendices\Appendix B\Appendix A New_Asheville_Simulations_12_17_15.docx Figure 13. Simulated 2020 boron concentration (ug/L) in the top model layer of the bedrock (layer 12) for the CAP2 case (excavation only, wells are not pumping). Produced by: Ron Falta, PhD February 12, 2016 Page 14 P:\Duke Energy Progress.1026\102. Asheville Ash Basin GW Assessment Plan\20.EG_CAP\CAP Part 2\Appendices\Appendix B\Appendix A New_Asheville_Simulations_12_17_15.docx Figure 14. Simulated 2020 boron concentration (ug/L) in the top model layer of the bedrock (layer 12) for the CAP4 case (excavation with pumping wells). Produced by: Ron Falta, PhD February 12, 2016 Page 15 P:\Duke Energy Progress.1026\102. Asheville Ash Basin GW Assessment Plan\20.EG_CAP\CAP Part 2\Appendices\Appendix B\Appendix A New_Asheville_Simulations_12_17_15.docx Figure 15. Simulated 2030 boron concentration (ug/L) in the top model layer of the bedrock (layer 12) for the CAP2 case (excavation only, wells are not pumping). Produced by: Ron Falta, PhD February 12, 2016 Page 16 P:\Duke Energy Progress.1026\102. Asheville Ash Basin GW Assessment Plan\20.EG_CAP\CAP Part 2\Appendices\Appendix B\Appendix A New_Asheville_Simulations_12_17_15.docx Figure 16. Simulated 2030 boron concentration (ug/L) in the top model layer of the bedrock (layer 12) for the CAP4 case (excavation with pumping wells). Produced by: Ron Falta, PhD February 12, 2016 Page 17 P:\Duke Energy Progress.1026\102. Asheville Ash Basin GW Assessment Plan\20.EG_CAP\CAP Part 2\Appendices\Appendix B\Appendix A New_Asheville_Simulations_12_17_15.docx Figure 17. Simulated 2045 boron concentration (ug/L) in the top model layer of the bedrock (layer 12) for the CAP2 case (excavation only, wells are not pumping). Produced by: Ron Falta, PhD February 12, 2016 Page 18 P:\Duke Energy Progress.1026\102. Asheville Ash Basin GW Assessment Plan\20.EG_CAP\CAP Part 2\Appendices\Appendix B\Appendix A New_Asheville_Simulations_12_17_15.docx Figure 18. Simulated 2045 boron concentration (ug/L) in the top model layer of the bedrock (layer 12) for the CAP4 case (excavation with pumping wells).