Cogeneration Water Plant Upgrade
Retrofit an existing water treatment plant (WTP) to soften and reduce silica to acceptable feedwater levels for drum pressure of 425 psig.
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 diagrams (PFDs), sampling plan, and an evaluation of the water chemistry. Following the completion of the water chemistry evaluation, Integrated Sustainability conducted a multi-criteria evaluation which assessed water treatment technologies and optimization strategies to reduce disposal costs.
Final (Issued for Design) drawings for stormwater management concrete structures, inlet and/or outlet pipe size and material, etc…
Zero liquid discharge technology evaluation for wastewater treatment and central processing facility operational cost reduction.
Design and fabrication of Hydrogen Sulphide/Mercaptan Scavenging package for recovery of sulphur content from sour gas
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 redesign of the Source Water Station (SWS) for a heavy oil facility to meet the demand of an upcoming expansion.
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.
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.
Detailed discipline engineering including plant layout optimization, and process piping design to maximize performance while reducing footprint and cost.
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