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.
FEL1 and capital cost estimate development for the addition of a hydrocyclone cleaner to protect refiners from contaminants at an existing 30TPD ag-based pulping line.
FEL2 front-end engineering design to evaluate a deficient vacuum seal water cooling loop at an existing molded fiber facility and replace an undersized cooling tower and supply pumps.
FEED Package included developing a TIC estimate to replace existing utility boilers at a batch process plant, including evaluating boiler technology, layout and NFPA code for an existing building.
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 scope consisted of multiple layers of support for the re-development of a 48 MW biomass-fired power plant that had been moth-balled in the middle of the initial construction process. As the project found new life...
