Multi-discipline front-end engineering and estimating services for a facility using a proprietary process to convert waste cellulose into consumer product replacements.
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.
FEL1 engineering design for a novel critical elements recovery facility funded by ARPA-e to process 1 ktpd of ultramafic tailings, integrating direct air capture of CO2 for carbon sequestration and electrolytic production of sulfuric acid.
FEL1 preliminary engineering design for a first-of-a-kind 1KTPA facility to produce Cathode Active Materials for EV batteries, including scale-up from an existing lab-scale processes.
Preliminary engineering support of a first-of-its-kind ag-based pulping and thermoforming facility, including heat & material balance development and other key activities.
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.
FEL1 study for a 6 ktpa battery-grade phosphoric acid plant co-located with 10 ktpa sulfuric acid facility, including process validation and several alternatives analyses.
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. ..
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.
This effort included the front-end engineering, detailed design, and construction oversight over the complete winder replacement of the paper machine.
