Erh various applications - SCME 2013
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Transcript of Erh various applications - SCME 2013
Electrical Resistance Heating (ERH)
For Various Applications
Jerry Wolf(817) 379-0536
October 2013
CSME - Amsterdam
TRS ERH Global Network
TRS Group, Inc.
TRS International B.V.(‘s Hertogenbosch, The Netherlands)
TRSDoxor, Limitada(Sao Paulo, Brazil)
HMVTRS B.V.(Ede, The Netherlands)
Electricity is directed into the subsurface area.TRS ERH PROCESSTRS ERH PROCESS
TRS Power Control Unit
What is ERH?What is ERH?
PCU
Electrode/Vapor Recovery Wells
CondenserGACVR Blower
Site Building
• In Situ Soil and Groundwater – simultaneously
• VOCs and Semi-VOCs
• Heterogeneous Lithology
• Under Buildings, Roadways, Railroads
• Rapid Remediation – Brownfields/Property Transfer
• Mass Removal (Source) – Reduce Downgradient Migration
When Does ERH Apply?
TCE in Soil and Fractured BedrockClark’s Summit, PA
• TCE in soil
• Treatment Area: 260 m2; 1 to 34 m bgs; 8,487 m3
• Sand and clay between 3.3-6.6 m bgs; bedrock -fractured sandstone with occasional siltstone; coal seams at depths of 23 and 34 m bgs. Groundwater: 5 m bgs
• Baseline levels in soil (maximum): 560 mg/kg
• Remedial goal(s):
• remove estimated mass - 219 kg TCE
• Negligible/asymptotic concentrations observed in the vapor stream
• total design energy
Project Site Plan
ERH Design• 17 Electrodes (6 intervals each)
• VGAC for vapor treatment
Vapor Concentrations vs. EnergyV
apo
r C
on
cen
trat
ion
s (p
pm
)
En
erg
y (k
Wh
)
Results
• Asymptotic vapor concentrations in vapor stream reached after 79 days of operations (estimate of 69-90)
• 181 kg of CVOC mass recovered
Seattle Site History • Active chemical warehouse and distribution facility
• Contaminated soil first found at the site in 1990
• Previously applied technologies• 1995-1997: Soil Vapor Extraction with Pump & Treat
• 1998: DVE/Hydrogen peroxide injection Pilot
• 2003~2004: Potassium Permanganate and Sodium Permanganate Injection
• 2003~2004: SVE
• 2005~2007: Expanded SVE and Potassium Permanganate Pilot
• 2008~2011: Enhanced Reductive Dechlorination – downgradient
• 2010: Expanded ERD and Expanded SVE Pilot Testing
Guaranteed ERH Remediation of PCE and Mineral Spirits - Seattle 2013
• Silt, sand; 7.1 x 10-3 cm/sec
• GW at 2 m bgs; flow 0.6 m/day
• 2,484 m2; variable depths; 32,188 m3
• 163 electrodes
• Elevated TOC from mineral spirits
• Active work areas & RR spurs
• Beginning maximum TCE+PCE: 4,210 mg/kg
• Remedial goal: <10 mg/kg PCE + TCE• Contaminant mass estimate – 10,200 kg
ERH Modeling – 5 Areas
The site was divided into 5 Areas for purposes of modeling
Energy & Power Design Targets
AREADesign Energy
(kWh)Design Energy
Density (kWh/m3)
1 804,000 328
2 356,000 358
3 1,064,000 383
4 5,962,000484 shallow209 deep
5 1,235,000 209
Total Estimated Energy Required: 9,421,000 kWh
Results• Cumulative Energy – 7,377,000 kWh– 78% of total
• Average Power Input Rate – 2,557 kW (max weekly 3,438 kW)
• Average subsurface temperature – 95.2⁰C• All treatment areas met clean up goals set by Washington
Department of Ecology
• Total cumulative mass removed – 9,404 kg
• 56% Mineral Spirits, 44% TCE, PCE
• Total project cost - €96/m3
“I am impressed to say the least, I expected things to clean up but not be this clean!” - Seattle Client
Results
“I have reviewed the compliance soil sample results. I agree that the soil remediation level of 10 ppm specified in the CAP (Corrective Action Plan) has been met, and that the thermal treatment system can be shut down.” – Washington Department of Ecology
Seattle Potassium Permanganate
ERH Summary• GFPR or SFPR – nearly 100 remediation
projects• Perfect safety record• In situ remediation of VOCs, semi-VOCs • Unaffected by heterogeneity – easy to control• Does not cause desiccation – Self-regulating• Achieve >99% reduction• Low cost compared to life cycle costs
QUESTIONS?
www.thermalrs.com 1-817-379-0536www.hmvtrs.eu31.318.624.624