This effort included the completion of the conceptual design (FEL2) phase for a $5 million USD water sustainability program for an existing Fiber Optics facility with a goal to reduce water consumption at the site by 80%.
Heat and Material Balance (HMB) study and preliminary vendor engagement for a 9 MW biomass-to-power generation facility utilizing gasification to produce syngas and biochar, coupled with an ORC system for power generation.
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.
This effort included the FEED, detailed design, permitting, and construction support for a 6500 BPD Renewable Diesel Plant, utilizing Haldor Topsoe technology.
This scope consisted of front-end engineering and detailed design to increase the bark firing capacity of an existing combination boiler at a paper mill. Initial studies identified issues, and the project team proceeded...
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 full-service FEL3 Engineering for a new ferric chloride production process at an existing specialty chemicals facility, including heat and material and layout development.
The project included front-end engineering and detailed design for a multi-year facility expansion at a honeycomb scrubber plant to facilitate a six-fold increase in production capacity.
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.
Detailed design, procurement, and construction (EPC) services for a $300 million coal-fired power plant regulatory program including fly ash, bottom ash, and water management conversions.
