Mine Refuse Material Storage Expansion, Sediment Pond Design, & Channel Designs
Geotechnical and civil designs for staged expansion, slope stability, infiltration control, and discharge compliance for coarse refuse storage.
Geotechnical and civil designs for staged expansion, slope stability, infiltration control, and discharge compliance for coarse refuse storage.
Implement an integrated Blue Economy policy framework and strategic action plan with local Caribbean partners and international specialists.
Conceptual design to upgrade the two wastewater treatment facilities in Barbados (the Bridgetown & South Coast Wastewater Treatment Plants)
Prime contractor for all construction, construction management, procurement, QA/QC, of a 100,000 m3 lined freshwater storage reservoir.
Provided the siting, geotechnical investigation, preliminary/detailed engineering, regulatory package, procurement, and construction services required for 2 x 50,000 m3 saline water storage ponds in NE BC. Collected orthorectified imagery with an Unmanned Aerial Vehicle (UAV), which was used to provide periodic excavation and fill volumes. Provided onsite QA/QC construction services. Successful in obtaining approval from BC Regulator. Implementation of an innovative outtake system.
The client requested that Integrated Sustainability transform an existing borrow pit into a Lined Water Storage Pond/Water Hub in northeast British Columbia. The Pond will be used to store a combination of hydraulic fracturing fluid (flowback) and make-up source water, which could include saline groundwater, freshwater, or a combination of the two.
Site investigation & assessment, detailed reservoir and associated infrastructure design, contractor tender services, and on-site construction management services
Integrated Sustainability was retained to execute the design phase of the client’s Water Hub and Intake Pipeline infrastructure project. The Water Hub and associated infrastructure was required to store and distribute 300,000 m³ of water between two storage ponds, while the Intake Pipeline utilized a pumping system to transport the water over 5.5 km from the source to the Water Hub.
Evaluating water demand for a community potable water system along with identifying raw water reservoir development options
Engineering design review, regulatory support, construction QA/QC, and comissioning to Convert approximately 62 acres of an existing landfill to an aerobic landfill designed to reduce methane content at the landfill and qualify for carbon credits.
Geotechnical and civil design, procurement and construction support for the earthworks, drainage, access road for a long-term pipeline camp.
Site selection, crown land permit application and preliminary design for a 70,000 m³ fresh water storage pond
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