Front end engineering study to evaluate the feasibility of firing a secondary biomass fuel in three separate biomass boilers at an existing facility in an effort to reduce the consumption of the primary fuel source.
FEL1 and detailed design to double the capacity of an existing ag-pulp feedstock processing line, including modifications to material handling, hammer mill, pneumatic transport, and conveying systems.
Front end engineering design and technology trials support for a liquor coproduct contaminant reduction system at an existing 30TPD ag-based pulp mill.
Front-end engineering and project development support for a 450,000 TPA greenfield wood pellet plant. Roundwood and residuals were used for feedstock. Facility included rotary drying, rail and truck loadout capability.
Front end engineering study to evaluate the feasibility of installing pressure screening systems on existing stock approach loops at an ag-based pulp thermoforming facility.
This effort centered around providing early-stage project development services for a brownfield wood pellet plant rated at 150,000 metric tons per year. Residuals from nearby sawmills made up all of the feedstock used for this project. ..
This scope consisted of multiple layers of support for the re-development of a 48 MW biomass-fired power plant that had been moth-balled in the middle of the initial construction process. As the project found new life...
This effort included the FEL3 and detailed design for a new reactor structure, associated equipment and supporting insfras turecture at an existing surfactant production facility.
FEL2 front-end engineering design to evaluate a deficient vacuum seal water cooling loop at an existing molded fiber facility and replace an undersized cooling tower and supply pumps.
