1. 1 Steam Enhanced Remediation In Fractured Rock (and a little about the other sites) Gorm Heron, Scientist/Engineer Hank Sowers, CEO/Chief Operator Dacre Bush, Geologist/Program Manager Gregg Crisp, Site manager SteamTech Environmental Services Bakersfield, CA

2. 2 Creosote DNAPL to +140 ft depth Alluvial sands and gravels with clays Both LNAPL and DNAPL Approaching MCLs in 2002 Craig Eaker, SCE 160,000 gallons removed from subsurface In-situ destruction significant UC Berkeley – LLNL - SCE Visalia Pole Yard

3. 3 Alameda Point Alameda Point (Berkeley Environmental Restoration Center)

4. 4 Edwards AFB Site 61

5. 5 Beale AFB 5

6. 6 Loring: Fractured limestone

7. 7 Florida site  Full-scale clean-up with performance guarantee  Steam enhanced remediation and electrical heating  Tight pneumatic and hydraulic control  Stimulated oxidation reactions for reduction of TPH concentrations in oily areas  Detailed subsurface monitoring (temperature and electrical resistance tomography)

8. 8 Extraction well with Hawthorn electrode (EE) Clay Sand Area A steam injection well with Hawthorn electrode (SE) Perimeter steam injection wells (SI) Steam Electrode Deep electrode (DE) Well types

9. 9 Preliminary results, Edwards AFB Acknowledgments to: Stephen Watts, Edwards AFB project manager Dave Leeson, AFCEE Scott Palmer, Earth Tech project manager Gregg Crisp, site manager and operator Layi Oyelowo, Edwards AFB Results are preliminary, conclusions have not been published or confirmed by the above persons

10. 10 Fractured granite (quartz monzonite)

11. 11 Objectives/questions Will SER be effective for removal of VOCs from fractured rock at Edwards AFB? How is the DNAPL mobilized and extracted? What are the ultimate VOC cleanup levels that can be expected at Edwards AFB using SER? How rapidly will the steam heat Site 61 at Edwards AFB? How should steam injection and extraction well-fields be designed for optimum performance at Edwards AFB? What is the optimal steam injection and extraction strategy for DNAPL in fractured rock at Edwards AFB? How long will the site stay hot after completion of the steaming?

12. 12 Weathered zone Fractured granite 30 ft Hydrogeology

13. 13    TCE distribution

14. 14 Vertical distribution of contaminants before operations: PID readings on cores

15. 15 Extraction and steam injection wells

16. 16 Injection well design 0 10 20 60 50 40 30 High-temperature grout (9 ft) High-temperature grout (5 ft) Coarse sand/gravel (9 ft) Fine sand (3 ft) #1/20 Fine sand (3 ft) Fine sand (2 ft) Coarse sand/gravel (13 ft) Coarse sand/gravel (11 ft) Weathered zone (approximately 35 ft) Fresh bedrock 43 34 23 12 9 52 45 65 26 31 50 #1/20 Fine sand (3 ft) Deep injection screen (58 to 60 ft) Middle injection screen (38 to 40 ft) Top injection screen (18 to 20 ft) Depth below grade (ft) Note: Thermocouples were attached at 5 ft intervals from 5 ft below grade to 45 ft below grade, and at 49 ft, 52 ft, 55 ft and 60 ft.

17. 17

18. 18

19. 19 Strategy Vacuum test: Vapor capture radius ~ 80 ft Initially steam injection deep only, extraction shallow Air co-injection Extract 25 to 50 % more than injected Monitor carefully and adjust strategy

20. 20 VEA-5 VEA-4 VEA-3VEA-1 VEA-2 EW-1 EW-3 EW-2 EW-4 TMA-A TMA-D TMA-C TMA-B IW-1 Subsurface monitoring network

21. 21 ERT data planes VEA-5 VEA-4 VEA-3VEA-1 VEA-2 ERT data planes

22. 22 Example ERT data plane 6/10 6/236/27 7/67/10

23. 23 Depth below grade (ft) Thermocouple data

24. 24 Depth below grade (ft)

25. 25 Depth below grade (ft)

26. 26 Water balance

27. 27 Energy balance

28. 28 Vapor flow rate and PID readings

29. 29 Headspace PID data

30. 30 Recovery of NAPL

31. 31 Results Successful treatability study - great data Steam heated site partially, and accelerated mass removal More than 700 lbs of VOCs removed NAPL recovered where no NAPL was expected Air injection promising for opening fractures to steam flow, and potentially for reducing risk of NAPL condensation ERT apparently valuable at Edwards: Heated zones showed large changes in electrical resistivity Very uneven steam distribution: Increased focus on temperature monitoring, also in extraction wells