FEL2 front-end engineering design for a first-of-a-kind 1000TPA facility to recover monomers from spent textiles via a proprietary chemical recycling process, including scale-up from an existing lab-scale processes.
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.
This effort included the detailed design, permitting, and on-site construction support for a $75 million greenfield plant to produce food-grade vegetable oil.
FEL3 front-end engineering design for a proprietary bioprocessing facility to utilize specially engineered microorganisms to synthesize bio-based chemicals and produce sustainable commodity products using renewable raw materials, like sugar.
Civil engineering design, permit coordination, and construction administration for a commercial office park development, master planned to be anchored by a medical office with five (5) accessory building pads for a total 40,000-sf.
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.
Red Flags Analysis report in support of client’s potential investment in a polystyrene recycling company and the planned scale up of their demonstration-level facility to a commercial scale.
Owner’s Engineering and support during the pre-FID engineering phase (FEL3) for a new 20 million gallons per year Renewable Fuel Oil Production Facility.
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.
Detailed design engineering and construction oversight for a new oil tank farm, oil conditioning system, utilities, and impregnation system for film capacitors.
