Existing mill conversion from fine paper to linerboard production using 100% OCC furnish including new OCC facility and warehouse, conversion of existing machine, conversion of two boilers, and other utility upgrades.
This project included a contract for detailed design following a transition from another engineering firm at less than 10% complete; however, construction activities had already begun in the field. The scope of the project...
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.
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.
This effort included detailed design mechanical, piping, electrical and structural services to support a $500 million expansion to add two new sustainable technology product lines at an existing automotive manufacturing facility.
Isomer provided full-service FEL3 Engineering for a new ferric chloride production process at an existing specialty chemicals facility, including heat and material and layout development.
FEL1 Engineering and Owner’s Engineering Services for a 160 TPD Tissue Machine Rebuild project to convert from Towel-grade to Tissue-grade and increase production capacity as part of a Fleet-wide Rebuild Program.
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...
Civil engineering design, permit coordination, and construction administration for a commercial office park development, master planned to be anchored by a medical office with five (5) accessory building pads for a total 40,000-sf.
Detailed design engineering for replacement of an existing 240V MCC with a new 480V MCC at a specialty chemical facility, including relocation and refeed of wall-mounted loads to the new MCC.
