Integrating Fluorescent Dye Flow-Curve Testing and Acoustic Doppler Velocimetry Profiling for In Situ Hydraulic Evaluation and Improvement of Clarifier Performance
link https://doi.org/10.2175/106143009X425889account_box Tarud, F.account_box Aybar, M.account_box Pizarro, G.account_box Cienfuegos, R.account_box Pasten, P.
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Enhancing the performance of clarifiers requires a thorough understanding of their hydraulics. Fluorescence spectroscopy and acoustic doppler velocimeter (ADV) profiling generally have been used separately to evaluate secondary settlers. We propose that simultaneous use of these techniques is needed to obtain a more reliable and useful evaluation. Experiments were performed on laboratory- and full-scale clarifiers. Factors affecting Fluorescein and Rhodamine 6G properties were identified. Underestimations up to 500% in fluorescence intensities may be derived from differential fluorescence quenching by oxygen. A careful control and interpretation of fluorescent dye experiments is needed to minimize artifacts in real settings. While flow-curve tests constructed under controlled conditions provided a more accurate overall quantitative estimation of the hydraulic performance, ADV velocity and turbulence profiling provided a detailed spatial understanding of flow patterns that was used to troubleshoot and fix the causes of hydraulic short-circuits. Water Environ. Res., 82, 675 (2010).
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| Autor | Tarud, F. Aybar, M. Pizarro, G. Cienfuegos, R. Pasten, P. |
| Título | Integrating Fluorescent Dye Flow-Curve Testing and Acoustic Doppler Velocimetry Profiling for In Situ Hydraulic Evaluation and Improvement of Clarifier Performance |
| Revista | WATER ENVIRONMENT RESEARCH |
| ISSN | 1061-4303 |
| ISSN electrónico | 1554-7531 |
| Volumen | 82 |
| Número de publicación | 8 |
| Página inicio | 675 |
| Página final | 685 |
| Fecha de publicación | 2010 |
| Resumen | Enhancing the performance of clarifiers requires a thorough understanding of their hydraulics. Fluorescence spectroscopy and acoustic doppler velocimeter (ADV) profiling generally have been used separately to evaluate secondary settlers. We propose that simultaneous use of these techniques is needed to obtain a more reliable and useful evaluation. Experiments were performed on laboratory- and full-scale clarifiers. Factors affecting Fluorescein and Rhodamine 6G properties were identified. Underestimations up to 500% in fluorescence intensities may be derived from differential fluorescence quenching by oxygen. A careful control and interpretation of fluorescent dye experiments is needed to minimize artifacts in real settings. While flow-curve tests constructed under controlled conditions provided a more accurate overall quantitative estimation of the hydraulic performance, ADV velocity and turbulence profiling provided a detailed spatial understanding of flow patterns that was used to troubleshoot and fix the causes of hydraulic short-circuits. Water Environ. Res., 82, 675 (2010). |
| Derechos | acceso restringido |
| Agencia financiadora | Corfo and Vinnova Chile (Santiago, Chile) |
| DOI | 10.2175/106143009X425889 |
| Editorial | WILEY |
| Enlace | |
| Id de publicación en Pubmed | MEDLINE:20853746 |
| Id de publicación en WoS | WOS:000280300300001 |
| Paginación | 11 páginas |
| Palabra clave | clarifier Fluorescein Rhodamine 6G acoustic doppler velocimeter fluorescence spectroscopy flow-curve test hydraulic short-circuit in situ evaluation SECONDARY CLARIFIER SPECTRAL PROPERTIES RHODAMINE 6G BEHAVIOR TRACER DESIGN SLUDGE INLET |
| Tema ODS | 06 Clean Water and Sanitation |
| Tema ODS español | 06 Agua limpia y saneamiento |
| Tipo de documento | artículo |