product-mock-up_TPH_Gone

Our products are developed by applying our “Constructed Functional Microbiome™” platform technology, which harness natural microbial consortia for increasing crop yield, improving soil quality, prevent crop to accumulate heavy metals and remediate soil pollutants.

case_study_2_f

Other microbial products

BIOSTIMULANT
BIOREMEDIATION + BIOSTIMULANT

Bioremediation

Site Specific Products

Bespoke microbial products to degrade a cocktail of toxic pollutants on site

We apply functional microbiome and high throughput screening technologies to isolate and screen microbes from impacted soil and develop products to degrade a cocktail of toxic pollutants from the polluted sites.

When clients are dealing with soil contaminated with TPH, PAH, pesticide and other organic pollutants, simple windrowing or biopiling can fail to remediate all of these pollutants due to inefficient numbers and categories of pollutant degraders. We can design tailored microbial degrading consortia to target all of these pollutants and deliver bespoke designed products to you within 8 weeks.

WHO IS THIS TAILORED PODUCT FOR?

Oilfield and oil refining industries
Coal and gas industries
Contaminated arable land owners
Environmental remediation companies
Dredging and land reclamation companies

WHAT ARE THE BENEFITS?

Site specific: We use pollutant degrading microbes that are already adapted for survival on your site – so no site adaptation and environmental issues.
High performance: Greater remediation efficiency with our unique encapsulation system which enable a high-survival rate of pollutant degrading microbes.
Cost effective: Lower volume of beads products needed for contaminated site which can greatly save cost for our clients. Each 1mm bead contains about 1 billion live bacterial cells.
Slow release through encapsulation: Our proprietary slow release biodegradable matrix breaks down slowly in soil and water releasing high cell numbers over an extended period of time. This results in efficient pollutant degradation.
Variable bead size with floating and sedimentation capacities: The size and buoyancy of the beads can be tailored to your specific application for in situ, ex-situ, surface or ground water application.
Environmental friendly: Our products are made from 100% non-toxic, all natural materials, safe to use and easy to handle.

PROVEN RESULTS

Case studies.

This product can be applied to TPH and PAH impacted materials.

It can also be applied to TPH or PAH impacted only material sufficiently.

From our past experience working on remediation projects for oilfield sites, gas field sites, and PAH or TPH impacted brownfield, TPH and PAH are often the co-contaminants.

TPH-PAH Gone ™

Microbial consortiums degrading TPH and PAH with proven efficiency

This product can be applied to TPH and PAH impacted materials.
From our wide experience working on remediation projects for oilfield sites, gas field sites, and PAH or TPH impacted brownfield, TPH and PAH are often the co-contaminants.

WHO IS THIS PRODUCT FOR?

Oilfield and oil refining industries: treat oil impacted soil, oil sludge, oil spill
Coal and gas industries: TPH and PAH impacted soil pollution
Environmental remediation companies: treat TPH, PAH and/or pesticide impacted material
Governments and farmers: treating contaminated agricultural land while increasing crop yield
Dredging and land reclamation companies: to treat pollutant impacted sludges and sediments

WHAT ARE THE BENEFITS?

Low cost
Environmentally friendly: no chemical treatments or incineration
Treat mixed contaminants
in situ method: no transportation costs
Can be used to treat very large volumes of soil
No toxic end products
Stabilise heavy metal pollutants in soil matrix: prevents dispersal by wind etc.
Creates a “green” ecosystem: when used with a phytoremediation approach

PROVEN RESULTS

We have applied this product to over 15,000 tons of TPH and PAH impacted soil and oil sludge to completely remove these pollutantsfrom the impacted material to the regulatory required levels both in Ireland and China.