TRI's patented technology is highly versatile and completely customizable to clients' local circumstances and objectives.

TRI’s proprietary thermo-chemical gasification process enables:

  • flexibility to process a wide range of feedstocks so that a facility can quickly react to changing feedstock market conditions
  • maximum production of syngas per pound of biomass
  • optimum thermal and process integration of gasification for a range of combined heat and power and liquid fuel and biochemical needs

Some of TRI’s specific features and available benefits are outlined below. We encourage any interested parties to contact us directly for more customized and in-depth discussions.

  • A high quality synthesis gas (H2 and CO) with high purity and a higher heating value (HHV) of ~ 300 btu/dscf
  • A synthesis gas that is customized to meet the feedstock needs of the downstream gas to liquids (GTL) or combined cycle (CC) process
  • Feedstock flexibility including wood waste, agricultural wastes, energy crops and refuse derived fuels (RDF)
  • A gasification system that is energy self-sufficient by burning syngas or tail gas from the integrated GTL process
  • A stable and safe system that has the ability to minimize syngas variability regardless of biomass feedstock characteristics
  • A system that is fully scalable from 500 dry tons per day of biomass (dtpd) to 2000 dtpd of biomass with a single steam reforming reaction vessel

TRI has a commercial demonstration plant with over 23,000 hours of operation, allowing interested clients to visit a fully-commercial operating facility.

TRI’s technology is the only gasification that can gasify solid biomass, spent liquor (liquid biomass), and co-process feedstocks, which affords the benefits to clients of having a single platform for multiple , flexible uses, reducing spares and ensuring an ability to access a range of different feedstocks and manage key input costs.

TRI’s technology can efficiently balance the steam and electricity requirements of an existing host facility to lower operating costs and /or increase profits.

In gas-to-liquids scenarios, a biorefinery integrated with a host facility has significantly increased efficiencies versus a standalone biorefinery, a significant competitive advantage in a large, dynamic and emerging market.