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%.
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.
Civil engineering design and development to support for the conceptual (30%) design of a 75 MW-DC solar facility located on 330-acres in Nevada located within heavy floodplains.
FEL3 Engineering package supporting the Balance of Plant design and integration of a vendor-supplied 4.0 MGD Wastewater Treatment System into an existing linerboard mill.
Front-end engineering and project development services to determine feasibility and conceptual layout for 314 MW-DC solar facility located on 2,040-acres in Utah.
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 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...
FEL2 and Detailed Design Engineering of ISBL scope for a new Drywall Compound Manufacturing Facility to expand client’s market footprint into a new location and optimize plant performance.
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...
