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.
The client requested that Integrated Sustainability conduct a water risk assessment that included the evaluation of source water, water use, and associated water-related risks in relation to its operations and anticipated developments.
Zero liquid discharge technology evaluation for wastewater treatment and central processing facility operational cost reduction.
Integrated Sustainability investigated opportunities to improve the management of waste at a gas processing facility in British Columbia in order to achieve operational cost savings. The team was also tasked with developing Class 5 estimates regarding CAPEX investments required to achieve OPEX savings.
Changing regulatory requirements surrounding the use of fresh water for Steam Assisted Gravity Drainage (SAGD) heavy oil extraction resulted in the need for this study. Through it, Integrated Sustainability was able to provide a quantitative comparison of the capital, operational and maintenance costs of all feasible water options, while validating the basis of design and the technical feasibility of pipeline transport and on-site water treatment.
Comprehensive mine closure planning balancing operational, ecological, and social considerations to support responsible resource management and post-closure land use optimization
Decentralized wastewater treatment plant and disposal design for a large exploration camp in a remote location in the Yukon Territory. Extreme cold temperatures as low as -60°C were expected at the camp. Integrated Sustainability was approached to provide design details, procurement and construction support for the proposed infrastructure to serve the 400 person camp.
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.
Elevator Blowdown (EBD) treatment solutions were being considered to serve as a cost saving alternative to the Steam Assisted Gravity Drainage (SAGD) Facility’s current disposal method for liquid waste from the site.
Establishing and securing a reliable, safe, and cost effective means of waste stream disposal is critical to guard operational integrity.
Develop a comprehensive solution for reducing freshwater requirements, and both transportation and disposal costs via flowback water reuse.
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