Pairing a pilot plant to a direct filtration water treatment plant

This paper outlines experiments that were conducted to establish that statistically equivalent intermittent and finished water quality was demonstrated between pilot treatment trains and a corresponding full-scale plant (FSP). First, equivalence was successfully established between the two pilot tra...

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Veröffentlicht in:	Canadian journal of civil engineering 2012-06, Vol.39 (6), p.689-700
Hauptverfasser:	KNOWLES, Alisha D, MACKAY, Jessica, GAGNON, Graham A
Format:	Artikel
Sprache:	eng
Schlagworte:	Alkalinity Applied sciences Buildings. Public works Carbon contrôle de la qualité Dissolved organic carbon Drinking water drinking water treatment Equivalence Exact sciences and technology Management Methods paired t testing pilot plant Pilot plants Pilots Purification Quality control tests de Student pour échantillons appariés Trains traitement de l’eau potable Turbidity usine pilote validation Water Water filtration Water quality Water supply. Pipings. Water treatment Water treatment Water treatment plants
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container_end_page	700
container_issue	6
container_start_page	689
container_title	Canadian journal of civil engineering
container_volume	39
creator	KNOWLES, Alisha D MACKAY, Jessica GAGNON, Graham A
description	This paper outlines experiments that were conducted to establish that statistically equivalent intermittent and finished water quality was demonstrated between pilot treatment trains and a corresponding full-scale plant (FSP). First, equivalence was successfully established between the two pilot trains using paired t tests to confirm that the two trains were producing statistically equivalent water quality (e.g., pH, turbidity) while operating under identical operational and process conditions. Secondly, hypothesized mean differences and paired t tests were effectively applied to confirm the water quality achieved following each treatment phase in the pilot plant mimicked the corresponding treatment process in the FSP. Successive trials demonstrated equivalence in multiple water quality parameters throughout the two treatment scales, including pH, UV 254 , total organic carbon, dissolved organic carbon, alkalinity, and turbidity. The validation process demonstrated that the pilot plant has the ability to reproduce water quality outcomes from the FSP and that the results of the pilot facility are representative of process changes that will optimize the FSP performance.
doi_str_mv	10.1139/l2012-060
format	Article
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subjects	Alkalinity Applied sciences Buildings. Public works Carbon contrôle de la qualité Dissolved organic carbon Drinking water drinking water treatment Equivalence Exact sciences and technology Management Methods paired t testing pilot plant Pilot plants Pilots Purification Quality control tests de Student pour échantillons appariés Trains traitement de l’eau potable Turbidity usine pilote validation Water Water filtration Water quality Water supply. Pipings. Water treatment Water treatment Water treatment plants
title	Pairing a pilot plant to a direct filtration water treatment plant
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