WWALS Watershed Coalition

WWALS Watershed Coalition, Inc. (WWALS) is Suwannee RIVERKEEPER® WWALS advocates for conservation and stewardship of the surface waters and groundwater of the Suwannee River Basin and Estuary, in south Georgia and north Florida, among them the Withlacoochee, Willacoochee, Alapaha, Little, Santa Fe, and Suwannee River watersheds, through education, awareness, environmental monitoring, and citizen activities.

WWALS
Home

TTM groundwater withdrawal and use permit application to GA-EPD 2019-07-24 [Up]

The groundwater withdrawal permit application:

You can join this fun and work by becoming a WWALS member today!

Pictures

424772086-7-24-19-Final-Application-for-Industrial-Groundwater-Withdrawal-Permit

[Application for Saunders Mine]
Application for Saunders Mine
PDF

Groundwater Withdrawal Permit Project No. 000180200804.00

[Groundwater Withdrawal, Prepared for TTM by TTL]
Groundwater Withdrawal, Prepared for TTM by TTL
PDF

[4.32 mgd, 1.44 mgd from each of three wells]
4.32 mgd, 1.44 mgd from each of three wells
PDF

[650 feet deep: Well 1]
650 feet deep: Well 1
PDF

[23 inch diameter hole: Well 2]
23 inch diameter hole: Well 2
PDF

[11.5 inch hole from 475 to 650 ft: Well 3]
11.5 inch hole from 475 to 650 ft: Well 3
PDF

0300 Groundwater Use Permit Project No. 000180200804.00 Phase 0300

[Groundwater Use, Also prepared by TTL for TTM]
Groundwater Use, Also prepared by TTL for TTM
PDF

[Table of Contents]
Table of Contents
PDF

[1 INTRODUCTION]
1 INTRODUCTION
PDF

[2 PURPOSE AND NEED]
2 PURPOSE AND NEED
PDF

[2.1 General Description of the Mining Process]
2.1 General Description of the Mining Process
PDF

[2.1.3 Site Preparation]
2.1.3 Site Preparation
PDF

[2.1.4.2 TIAA Mining Block]
2.1.4.2 TIAA Mining Block
PDF

[2.1.5 Reclamation (continued)]
2.1.5 Reclamation (continued)
PDF

[3 WELL SURVEY]
3 WELL SURVEY
PDF

[4 WATER CONSERVATION PLAN]
4 WATER CONSERVATION PLAN
PDF

[4.4 Percentage of Make-Up Water (MUW)]
4.4 Percentage of Make-Up Water (MUW)
PDF

[4.8 Recycle-Reuse - 4.10 Water Use Data]
4.8 Recycle-Reuse - 4.10 Water Use Data
PDF

[5 GROUNDWATER USAGE]
5 GROUNDWATER USAGE
PDF

[6 SIGNATURES OF PROFESSIONALS]
6 SIGNATURES OF PROFESSIONALS
PDF

Figures

[FIGURES]
FIGURES
PDF

[Figure 1: Site Location & Topographic Map]
Figure 1: Site Location & Topographic Map
PDF

[Figure 2: Site Location & Aerial Photograph]
Figure 2: Site Location & Aerial Photograph
PDF

[FIGURE 3: MINING BLOCKS TWIN PINES MINERALS]
FIGURE 3: MINING BLOCKS TWIN PINES MINERALS
PDF

[Figure 4: PROPOSED SITE LAYOUT MAP]
Figure 4: PROPOSED SITE LAYOUT MAP
PDF

[Estimated Mining Production Timeline]
Estimated Mining Production Timeline
PDF

[Figure 6. Impact Excavation Design]
Figure 6. Impact Excavation Design
PDF

Attachments

[ATTACHMENT A PROCESS FLOW DIAGRAM]
ATTACHMENT A PROCESS FLOW DIAGRAM
PDF

[PROCESS FLOW DIAGRAM]
PROCESS FLOW DIAGRAM
PDF

[ATTACHMENT B DRAWDOWN MODELING FOR WELLS]
ATTACHMENT B DRAWDOWN MODELING FOR WELLS
PDF

Modeling

[DRAWDOWN MODELING FOR WELLS FPW-01, FPW-02, AND FPW-03 AT THE TWIN PINES MINE SITE]
DRAWDOWN MODELING FOR WELLS FPW-01, FPW-02, AND FPW-03 AT THE TWIN PINES MINE SITE
PDF

[03) in the upper Floridian aquifer at their proposed mine site located in Chariton county, Georgia]
03) in the upper Floridian aquifer at their proposed mine site located in Chariton county, Georgia
PDF

[Tables intro page]
Tables intro page
PDF

[Table 1. Hydraulic properties; Table 2. Maximum drawdown at each pumping well over the eight-year life of the project for three cases]
Table 1. Hydraulic properties; Table 2. Maximum drawdown at each pumping well over the eight-year life of the project for three cases
PDF

Modeling Figures

[Figures intro page]
Figures intro page
PDF

[Site Map showing Okefenokee NWR]
Site Map showing Okefenokee NWR
PDF

[Site Map for Phase 1]
Site Map for Phase 1
PDF

[Figure 2. Predicted drawdown at each of the pumping wells for the Base Case Scenario.]
Figure 2. Predicted drawdown at each of the pumping wells for the Base Case Scenario.
PDF

[Figure 3. Predicted drawdown at each of the pumping wells for the Maximum Drawdown Scenario.]
Figure 3. Predicted drawdown at each of the pumping wells for the Maximum Drawdown Scenario.
PDF

[Figure 4. Predicted drawdown at each of the pumping wells for the Base Case Scenario.]
Figure 4. Predicted drawdown at each of the pumping wells for the Base Case Scenario.

[Figure 5. Drawdown 365 days; Potentiometric Surface, Floridan Aquifer]
Figure 5. Drawdown 365 days; Potentiometric Surface, Floridan Aquifer
PDF

[Figure 6. Drawdown 1825 days]
Figure 6. Drawdown 1825 days
PDF

[Figure 7. Drawdown 2920 days]
Figure 7. Drawdown 2920 days
PDF

[Figure 8. Drawdown 2930 days]
Figure 8. Drawdown 2930 days
PDF

Appendix A: MATLAB Code for Predicting the Drawdown History at Wells

[Appendix A intro page]
Appendix A intro page
PDF

[Theis Time Superposition FLAQ.m]
Theis Time Superposition FLAQ.m
PDF

[Example Input]
Example Input
PDF

Appendix B: MATLAB Code for Predicting the Areal Drawdown

[Appendix B intro page]
Appendix B intro page
PDF

[Theis Superposition N wells FLAQ.m 1 of 2]
Theis Superposition N wells FLAQ.m 1 of 2
PDF

[FLAQ.m cont.]
FLAQ.m cont.
PDF

[Example input for Theis_Superposition_N_wells_FLAQ.m]
Example input for Theis_Superposition_N_wells_FLAQ.m
PDF

Appendix C: Input File Welldat.dat for MATLAB Codes

[Appendix C]
Appendix C
PDF

[Three rows, five columns]
Three rows, five columns
PDF