Our Work in Action

Westinghouse designed, fabricated, and tested a large, modular Stored Liquid Waste (SLW) Processing System to process historic fuel reprocessing waste from underground storage tanks.

Westinghouse’s Fire Protection experts were contracted to replace the Fireworks computer terminals at Bruce B Nuclear Generating Station.

Working together with utilities and chemical laboratories, Westinghouse’s experts developed a solution for the rising tritium levels in CANDU^® reactors.

Westinghouse’s experts were contracted to design an innovative solution for aging components and soon-to-be obsolete equipment.

Westinghouse’s team was engaged to develop a new toolset to reposition the fuel channels in Bruce Power’s Unit 3 to extend the design life of the CANDU^® reactor.

Westinghouse was engaged by a CANDU^® client to design a Vendor Managed Inventory (VMI) solution for their Fuel Handling team.

Westinghouse’s team designed, manufactured and delivered a laser scanner toolset to provide our customer with a full profile and measurements of the Calandria Relief Duct (CRD) nozzle weld.

After removal from the spent fuel storage bay of a CANDU^® reactor, irradiated nuclear fuel may be stored above-ground in dry storage containers (DSCS).

Westinghouse was engaged to provide a fire detection system to cover large open space areas due to new construction at our customer’s CANDU^® plant. Given the large open spaces, Westinghouse designed and installed a Video Imaging Detection System (VIDS).

Westinghouse was contracted to design, develop, fabricate and test a Solid/liquid separation process system (SLSS) to safely and efficiently remove excess liquid and increase solids concentration in a waste storage tank.