FEL1 and detailed design to double the capacity of an existing ag-pulp feedstock processing line, including modifications to material handling, hammer mill, pneumatic transport, and conveying systems.
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.
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.
This effort included the basic design (FEL1-2) phase for a greenfield $37 million USD Lithium-Ion Battery recycling facility. The owner operates facilities throughout Asia and Europe and this facility is their first in the United States.
The scope of this effort consisted of front-end engineering for a significant capacity increase for an existing polymer facility. The facility produces high-performance elastomers used as replacements for rubber. The project team...
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.
Front-end engineering for the addition of a 3,000 TPY rolled ornamental stainless steel, high-frequency production line at an existing rolled tubes production facility.
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.
FEL2 Engineering and Owner’s Engineering Services for a 280 TPD Tissue Machine Process Air System Replacement project as part of a Fleet-wide Rebuild Program.
