Petrox microbes provide quick response surface oil spill bioremediation. Petrox can be applied to the oil surface with a backpack sprayer to initiate rapid bioremediation. This approach protects surface water and vegetation with minimal surface traffic. In the following example, an oil spill affected the vegetation and surface water at the edge of a lake. Contractors applied Petrox to […]
Bioaugmentation results can be accelerated and amplified by soil mixing to improve distribution and contact. The equipment shown in this example was used to blend Petrox with contaminated soil to a depth of 10 feet. Click here to view a short video of soil mixing.
https://cl-solutions.com/wp-content/uploads/2011/12/logo.jpg00Mike Saulhttps://cl-solutions.com/wp-content/uploads/2011/12/logo.jpgMike Saul2016-06-16 15:46:142019-04-10 12:39:10Soil Mixing to Improve Distribution of Microbial Solution
CL-Out makes bioremediation by cometabolism of 1,1,1-TCA and other chemicals in a mixed solvent plume possible. One of the benefits of CL-Out cometabolism is that the enzymes produced by the Pseudomonas sp. organisms convert a wide range of organic chemicals into organic acids that can be metabolized. The aggressive application of CL-Out organisms to soil […]
https://cl-solutions.com/wp-content/uploads/2011/12/logo.jpg00Mike Saulhttps://cl-solutions.com/wp-content/uploads/2011/12/logo.jpgMike Saul2016-03-16 16:29:122024-04-17 09:23:31Can Bioremediation by Cometabolism Take Care of 1,1,1-TCA in a Mixed Solvent Plume?
Aerobic cometabolism of TCE may be limited by the potential microbial toxicity of by products or by product metabolic repression. An independent comparison of induced cometabolism using soluble methane and CL-Out bioaugmentation showed that CL-Out bioaugmentation removed more TCE. The TCE removal rate by CL-Out when supplemented with an oxygen source was a steady rate […]
Surface Oil Spill Bioremediation
/in Auto Dealerships, Chemical Industries, Gas Stations, Industrial Maintenance, Petrox/by Mike SaulPetrox microbes provide quick response surface oil spill bioremediation. Petrox can be applied to the oil surface with a backpack sprayer to initiate rapid bioremediation. This approach protects surface water and vegetation with minimal surface traffic. In the following example, an oil spill affected the vegetation and surface water at the edge of a lake. Contractors applied Petrox to […]
Soil Mixing to Improve Distribution of Microbial Solution
/in Chemical Industries, Chlorinated Solvent Remediation, Gas Stations, Industrial Sites, News, Oil Fields, Oil Spill Remediation, Petroleum Remediation, Petrox, Sustainability/by Mike SaulBioaugmentation results can be accelerated and amplified by soil mixing to improve distribution and contact. The equipment shown in this example was used to blend Petrox with contaminated soil to a depth of 10 feet. Click here to view a short video of soil mixing.
Can Bioremediation by Cometabolism Take Care of 1,1,1-TCA in a Mixed Solvent Plume?
/in Chlorinated Solvent Remediation, CL-Out/by Mike SaulCL-Out makes bioremediation by cometabolism of 1,1,1-TCA and other chemicals in a mixed solvent plume possible. One of the benefits of CL-Out cometabolism is that the enzymes produced by the Pseudomonas sp. organisms convert a wide range of organic chemicals into organic acids that can be metabolized. The aggressive application of CL-Out organisms to soil […]
The Basics of Petroleum Bioremediation
/in Auto Dealerships, Chemical Industries, Excavated and Land Farmed Soils, Gas Stations, Hotels/Resorts, Industrial Maintenance, Industrial Sites, News, Oil Fields, Oil Spill Remediation, Petroleum Remediation, Petrox, Storage Tanks, Sustainability/by Mike SaulFor a brief summary of the basics of petroleum bioremediation follow this link Basics of Petroleum Bioremediation
Overcoming TCE Cometabolism Rate Limits
/in Chemical Industries, Chlorinated Solvent Remediation, CL-Out, Dry Cleaners, Industrial Sites, News, Printers, Storage Tanks, Sustainability/by Mike SaulAerobic cometabolism of TCE may be limited by the potential microbial toxicity of by products or by product metabolic repression. An independent comparison of induced cometabolism using soluble methane and CL-Out bioaugmentation showed that CL-Out bioaugmentation removed more TCE. The TCE removal rate by CL-Out when supplemented with an oxygen source was a steady rate […]