Groundwater monitoring, well installation, hydraulic testing, and baseline water quality assessment across fracture-dominated bedrock zones.
Feasibility study and engineering for consolidating two mine water treatment assets, based on mine plan, water chemistry, and timing analysis.
Adaptive water management framework and initial dilution zone modelling to guide discharge planning and compliance at a mine.
Explore how we modelled the impact of mining on groundwater with a detailed analysis of contact water migration and seepage rates.
Moving Bed BioReactor Project Highlights Integrated Sustainability delivered the leading commercial-scale moving bed bioreactor system to treat mine effluent for selenium and nitrate removal. Provided complete design, equipment supply, and field engineering for a facility treating 520 gallons
Developed a water reuse strategy to reduce operational costs and engineering design of two water storage ponds and water treatment facility. Made water treatment recommendations and chemical modelling services to find the most cost effective equipment, chemicals and
Water Treatment Plant Design, Commissioning, & Operations Support Project Overview Integrated Sustainability provided the design of treatment system upgrades,followed by commissioning of a moving bed biofilm reactor to address nitrogen removal. Once operational, the team transitioned into continuous
Saturated rock fill development project that implemented technology for long-term semi-passive water treatment. Installed and field-tested groundwater monitoring wells and groundwater injection and extraction wells. Conducted water quality analysis including nutrients and dissolved metals.
Mine water transfer and treatment project designed for seasonal extraction at 65L/s. Used 8” layflat hose and 3” HDPE pipeline for water discharge. Focused on removing ammonia and nitrate using MBBRs with 432 m³/day capacity. Delivered full engineering
Active arsenic removal process estsimate costs to meet IFC targets, proposing hydroxide precipitation with iron co-precipitation, reverse osmosis, and ion exchange. The project focuses on sustainable water management, design optimization, and reintroducing treated water to meet environmental standards.
Designed a wastewater treatment plant and disposal for remote location in the Yukon. Treatment allowed effluent to be discharged to the surface in the surrounding soils. Freeze measures were also put into place to ensure freezing within pipes
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