Surf Lakes – Engineering Design
Surf Lakes waterbody classification analysis and detailed water treatment reticulation study concurrent with detailed design of an Australian base Surf Park wave generation facility.
Surf Lakes waterbody classification analysis and detailed water treatment reticulation study concurrent with detailed design of an Australian base Surf Park wave generation facility.
Feasibility study determining the reliability of existing water sources and define the costs associated with accessing and treating water for a prospective hydrogen project.
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
Major constituent removal was focused on selenium and metals and was designed to treat water to environmental discharge criteria. The selenium treatment system can perform up to 6,500 m3/day.
Secondary treatment of HDS plant effluent and TMF supernatant to remove dissolved metals (particularly copper), nitrate, and selenium
Treatment of dissolved metals (Cd, Cu, Fe, Zn), as well as ammonia, from several underground sources prior to discharge into the environment.
Feasibility level engineering design and cost estimating for a mine water treatment plant.
Major constituents for removal included copper, cadmium, iron, arsenic, and ammonia. Plant designed for peak flows
Developed a water reuse strategy to encourage water reuse to reduce operational costs and maintain the client’s social license to operate.
TSS management system utilizing innovative passive flocculation technology for water quality management in surface water event ponds.
Retrofit an existing water treatment plant (WTP) to soften and reduce silica to acceptable feedwater levels for drum pressure of 425 psig.
A study designed to provide a detailed overview of current operational conditions of a thermal energy plant, which consists of drafting piping and instrumentation diagram (P&IDs) and process flow
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
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