Water Intake, Water Treatment Plant & Storage Infrastructure
Development of a 10,000 m3/day river water intake, water storage tanks, 10,000 m3/day treatment facility, and 200,000 m3 saline water storage ponds
Development of a 10,000 m3/day river water intake, water storage tanks, 10,000 m3/day treatment facility, and 200,000 m3 saline water storage ponds
Design, Build, Finance, and Operation of a dedicated 4,000 m3/d water treatment facility for on-demand water recycle. Provided the design and operation of the facility with guaranteed performance to customer on fixed price $/m3 treatment.
Developed a water reuse strategy to encourage water reuse to reduce operational costs and maintain the client’s social license to operate.
Flowback sampling and analysis for baseline characterization, norm management, and treatment recommendations for reuse. The sampling was performed to provide a baseline characterization of the N2-foam linear gel flowback waters and determine the required treatment process for flowback reuse.
Scale formation in the client’s produced water pipeline has been a challenge, resulting in unnecessary pigging and chemical treatment costs. The client requested that Integrated Sustainability conduct and evaluation to mitigate the scale formation as well as determine an optimal approach to reuse of produced water.
The water treatment system will provide treatment of produced water generated from the client’s operations. The water treatment system will treat for total suspended solids, iron, hydrogen sulphide, and bacteria. Treated produced water will meet the client’s post-treatment requirements.
Conduct a produced water reuse strategy, preliminary engineering design and site investigation, and detailed design for two water storage ponds and a produced water treatment facility.
Preliminary treatment system design, regulatory permitting and process identification, and capital/operational cost estimate analysis of preliminary design.
Develop a comprehensive solution for reducing freshwater requirements, and both transportation and disposal costs via flowback water reuse.
The client had requested that Integrated Sustainability complete a Water Reuse Strategy Evaluation that provided a recommendation regarding a water treatment process and associated infrastructure including storage, treatment processes, and equipment.
Study the effect of stream mixing water disposal challenges, specifically related to mixing of thermal heavy oil produced water blow down (BD) with other waste streams such as emulsion treating liquids.
Predict the quantity and types of solids that will form in the disposal tank and in downstream disposal dumps, pipeline, and disposal well at an operating SAGD Central Processing Facility.
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