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.
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.
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.
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, procurement, and construction management for a $80 million brownfield polymer manufacturing facility expansion.
Structural feasibility study to evaluate the potential addition of rooftop solar panels to multiple existing structures at a chemicals manufacturing facility, as well as the potential for adding panels over existing stormwater infrastructure.
This effort included the FEED, detailed design, permitting, and construction support for a 6500 BPD Renewable Diesel Plant, utilizing Haldor Topsoe technology.
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.
This effort included the detailed design, permitting, and construction support for the balance of plant (BOP) systems on a 1400 BPD facility converting woody biomass into renewable fuels.
