Front end engineering study to evaluate a deficient vacuum system at an existing ag-based thermoforming facility, including quantifying baseline operation conditions and evaluating potential system improvement modifications.
Pre-FEL study and FEL1 design of a primarily greenfield 150TPD ag-based pulp molded fiber facility, including feedstock handling and separation, material storage, semi-chem pulping, stock preparation, and molding.
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.
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.
The scope consisted of developing a companywide reliability program for a major pulp and paper corporation. The project team led a group that included contractors from three separate companies with extensive reliability programs...
FEED and Detailed Design Engineering for a new tank farm with 300,000 gallons of total capacity to store a combination of Class I, II, and III flammable and combustible liquids.
FEL-2 and full-service detailed design engineering of the ISBL scope for a Dry Bagging expansion at an existing drywall compound manufacturing facility.
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.
Detailed design for rerouting broke from an existing linerboard machine to the OCC system to improve water balance, remove fines, and increase fiber recovery.
Isomer provided detailed design for a $6 million battery storage project to enhance grid stability by providing additional capacity during times of peak consumption for the city utility.
