Title :
Extended abstract: Primary separation vessel interface control
Author :
Li, Bo ; Xu, Fangwei ; Ren, Zhenyun ; Espejo, Aris
Author_Institution :
Syncrude Canada Ltd., Fort McMurray, AB, Canada
Abstract :
The Primary Separation Vessel (PSV) plays a key role in oil sands extraction process. Controlling the interface between the froth and middlings at an optimal level provides significant economical and environmental benefits. Traditional level transmitters are not sufficient enough to provide consistent interface level information due to slurry quality changes from time to time. Two novel measuring approaches are discussed in this paper, which have been applied at PSV interface level control in Syncrude Canada Limited. One is based on image signals captured from a camera installed on the PSV sight glass; the other one is based on density readings along the PSV depth provided by a density profiler installed inside the vessel. Application results show both approaches perform outstandingly in detecting the interface, and are promising to improve the performance of PSV interface level control.
Keywords :
flotation (process); image processing; oil sands; oil technology; separation; slurries; PSV depth; PSV interface level control; PSV sight glass; Syncrude Canada Limited; density profiler; density readings; economical benefits; environmental benefits; froth; image signals; level transmitters; middlings; oil sands extraction process; primary separation vessel interface control; slurry quality; Cameras; Detectors; Filtering algorithms; Glass; Level control; Microwave filters;
Conference_Titel :
Advanced Control of Industrial Processes (ADCONIP), 2011 International Symposium on
Conference_Location :
Hangzhou
Print_ISBN :
978-1-4244-7460-8
Electronic_ISBN :
978-988-17255-0-9
