The Ozmotics Insider

BTEX is a common acronym used to describe benzene, toluene ethyl benzene, and xylenes. BTEX compounds are some of the most commonly VOC (volatile organic compounds) found in petroleum derivatives such as gasoline and are often found as a persistent contaminants in the areas prone to gasoline and gasoline derivative spills (old gas stations, gasoline storage yards, refineries, etc.).

The inherent danger of BTEX is that toluene, ethyl benzene, and xylenes are very toxic substances with the documented history of harmful effects on the central nervous system. Because of the solubility of the majority of the BTEX components they are also prone to leaching into the underground waterways therefore polluting much wider area than the original contamination site. As such the decontamination of soils and ground water contaminated with the BTEX traces is strongly recommended.

Ozone is well known oxidizer able to decompose most of the complex organic substances to the less harmful basic elements from which the complex substance is derived. In case of the BTEX, this is the hydrogen and carbon. Through further reaction the hydrogen is used to create water and the carbon is either left in its pure state or further synthesized in carbon dioxide.

In-Situ soil and ground water remediation – Ozone Sparging.

In-situ ozonation of the BTEX contaminated soil and ground water has shown promising results in removing BTEX without the need to remove the contaminated soil for off-site remediation. Also referred to as “ozone sparging” the technology involves injecting the ozone deep inside the contaminated ground where it comes into the contact with the BTEX contaminants therefore starting the process of the decomposition.

In documented research studies and reviews of the data from projects where the ozone sparging has been successfully used for the soil and water remediation, the contamination of BTEX in the soil and surrounding ground water has been successfully reduced by as much as 90% within the first five weeks of the treatment and as much as 98% + reduced by the week seven or eight of the treatment.

Ozone for soil and ground water remediation – Conclusion.

Because the soil does not have to be removed or decontaminated off-site and because the ozone leaves virtually no byproduct traces (unlike chemical treatment), the in-situ ozone sparging is both an economical (saves money) and effective solution (98% or higher contaminant removal rate) for soil and ground water remediation of sites contaminated with the BTEX and other petroleum derivatives).

Therefore the in-situ ozone sparging is highly recommended in treatment of the BTEX and petrol derivative contaminated soil and ground water.

If you have an application that requires an ozone generator and need help sizing a unit please contact your Ozmotics representative at 1-877-386-3763.