Proven Field Results
Case Study 1: Process Water Spill
Case Study 2: High-Salinity Produced Water
Case Study 2: High-Salinity Produced Water
- Challenge: The release of produced water caused severe phytotoxicity and damaged soil structure.
- Solution: PC Bio applied its in-situ microbial treatment to the affected soil.
- Result: Independent laboratory testing confirmed that TPH and BTEX levels dropped to background or "non-detect" levels. The project was approved by the Texas Railroad Commission (TRC) and deemed thoroughly cleaned, thereby closing the operator's liability without excavation.
Case Study 2: High-Salinity Produced Water
Case Study 2: High-Salinity Produced Water
Case Study 2: High-Salinity Produced Water
- Challenge: A saltwater release damaged soil structure and vegetation.
- Solution: We introduced halophilic (salt-loving) microbes to the site.
- Result: The microbes successfully sequestered chloride ions, thereby reducing soil toxicity. This stopped the "burning" of organic matter and allowed the site to support volunteer plant growth again, restoring the land's ecological function.
ESG & Sustainability Impact
Decarbonizing Remediation: Traditional "dig and haul" is carbon-intensive, relying on heavy machinery and fleets of trucks that run for days. By treating soil in-situ, PC Bio can reduce CO2 emissions by up to 90% compared to excavation methods.
Supporting Your Net-Zero Goals. Our process aligns with corporate sustainability targets by:
- Diverting Waste: Preventing soil from entering landfills.
- Restoring Land: Returning the site to a natural, vegetative state.
- Reducing Intensity: Lowering the overall carbon intensity of your operations.