Open AccessDetermination of silica scale deposition rates and thresholds applied toward protection of injection reservoirs. Quarterly progress report, April 1--June 30, 1998
Publication year - 1998
Language(s) - English
Resource type - Reports
DOI - 10.2172/656535
Subject(s) - scaling , galvanic cell , masking (illustration) , signal (programming language) , deposition (geology) , scale (ratio) , materials science , current (fluid) , pipeline transport , environmental science , forensic engineering , electrical engineering , geology , metallurgy , engineering , computer science , physics , environmental engineering , art , paleontology , geometry , mathematics , quantum mechanics , sediment , visual arts , programming language
The program objective aims to identify the highest temperature at which silica scale will develop from partially evaporated and significantly cooled geothermal liquid. The approach involves tracking deposition of silica scale by monitoring the apparent electrical conductivity of the geothermal liquid in an isolation chamber. A decrease in apparent conductivity occurs because silica deposited on electrode surfaces is less conductive than the geothermal liquid. The major technical hurdle is building a conductivity monitoring system that is sensitive enough to distinguish between no silica deposition and almost no silica deposition, while accounting for other factors which also affect conductivity, such as temperature and varying fluid composition