Vista performed the engineering design and procurement for a multi-phase heavy crude oil processing facility in northern Alberta.
Working with a long-term client for more than 15 years, Vista engineered several greenfield expansion phases to a heavy crude oil processing facility, adding 270,000 barrels per day (BPD) of nameplate production capacity. The processing facility uses steam-assisted gravity drainage (SAGD) as its heavy oil extraction method.
Vista’s work centered on expanding steam generation, oil treating and produced water de-oiling, softening and recycle systems, as well as full utility services.
This facility is one of the most efficient bitumen extraction plants in the Alberta oilsands and operates with an exceptionally low steam-to-oil ratio.
Vista attributes the success of this ongoing client relationship to several factors.
By forming a lasting organizational commitment, we were able to establish dedicated teams who shared a long-term vision and took a collaborative approach to continually reduce engineering costs. Using a templated design approach across phases, Vista focused on a continuous improvement model to optimize the use of modularization and reduce design hours without compromising engineering quality.
Heavy Crude Oil Processing Equipment & Technology
This SAGD processing plant includes over 20 once-through steam generators (OTSGs) and four heat recovery steam generators (HRSG) units to generate enough steam for injection. It also includes all other equipment required to process the produced emulsion, produced water and natural gas from the reservoir, including:
- Oil/Water/Natural Gas separation: inlet degasser, free water knockouts (FWKOs) vessels and oil treaters, including associated chemical feed systems and a flash treating system for slop oil
- Steam generation: OTSGs (250 million BTU/h), including boiler feedwater booster pumps and steam separators plus HRSGs (300 million BTU/h) that get waste heat via natural gas turbines
- Power generation: two x 25 MW natural gas-fired turbines used as power generation units.
- Raw brackish water softening
- Produced water treatment via skim tanks, induced gas flotation (IGF) units, oil removal filters (ORFs), warm lime softeners (WLS) and ion exchange (IX) water softeners
- Diluent handling, injection and recovery
- Storage tanks for boiler feedwater, de-oiled water, recycled oil, sales oil with diluent
- Utility systems, including vapour recovery units, fuel gas distribution, integrated heating glycol and cooling glycol heat medium systems
- Energy efficiency design features, including:
- A unique OTSG combustion air preheating design
- Integrated glycol heating/cooling system to maximize energy recovery and reuse
- Direct energy recovery from hot inlet emulsion, sales oil and produced water, as well as energy recovery from boiler blowdown
- Recovery of low-pressure vapours from tanks and equipment by means of a vapour recovery unit for return to the fuel gas system
The engineering capabilities demonstrated on this heavy crude oil processing facility project are applicable in several industrial engineering markets.
- Produced Water Treatment: oil and water gravity separation, oil removal via filtration, water pH control for disposal, water softening to facilitate recycling
- Natural Gas Processing: natural gas sweetening (CO2 and H2S removal), natural gas dehydration (water removal)
- Gas Compression:reciprocating compressors, screw compressors, eductor technology
- Cogeneration: natural gas turbine technology for power generation, heat recovery steam generators (HRSG) technology for steam generation