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.
Preliminary engineering support of a first-of-its-kind ag-based pulping and thermoforming facility, including heat & material balance development and other key activities.
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.
Front-end engineering services for a pelletized corn stover feedstock facility supporting sustainable aviation fuel production, including material balance development, high-level equipment sizing, and a feasibility-level site layout.
This effort included the basic design (FEL1-2) phase for a greenfield $37 million USD Lithium-Ion Battery recycling facility. The owner operates facilities throughout Asia and Europe and this facility is their first in the United States.
This effort included detailed engineering on a four project Anaerobic Digestion to biogas program with site locations in Georgia and California. The facilities were located on existing dairy farms of approximately 12,000 cows each...
Front-end engineering and project development services to determine feasibility and order of magnitude costs for a greenfield facility with 150MW Electrolyzers and balance of plant infrastructure.
Technical advisory services in support of novel co-located phosphoric and sulfuric acid production facilities, including risk analysis and development of an order-of-magnitude capital cost estimating tool.
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.
Isomer provided process engineering design and consulting services in support of an OEM’s proprietary pyrolysis skid designed to convert municipal solid waste (MSW) into an enhanced syngas stream for sustainable aviation fuel (SAF) production.
