Scaling Risk Assessment in Nanofiltration of Mine Waters

Scaling Risk Assessment in Nanofiltration of Mine Waters

Nanofiltration can be applied for the treatment of mine waters. One of the main problems is the risk of crystallization of sparingly soluble salts on the membrane surface (scaling). In this work, a series of batch-mode nanofiltration experiments of the mine waters was performed in a dead-end Sterlit...

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Main Authors: Krzysztof Mitko, Ewa Laskowska, Marian Turek, Piotr Dydo, Krzysztof Piotrowski
Format: Article
Language:English
Published: MDPI AG 2020-10-01
Series:Membranes
Subjects:
membrane module modeling
calcium sulfate precipitation risk
ionic rejection coefficients
Online Access:https://www.mdpi.com/2077-0375/10/10/288
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spelling doaj-3c85657b1f4846c1a248ecf2aea76aab2020-11-25T03:57:32ZengMDPI AGMembranes2077-03752020-10-011028828810.3390/membranes10100288Scaling Risk Assessment in Nanofiltration of Mine WatersKrzysztof Mitko0Ewa Laskowska1Marian Turek2Piotr Dydo3Krzysztof Piotrowski4Department of Inorganic, Analytical Chemistry and Electrochemistry, Faculty of Chemistry, Silesian University of Technology, ul. B. Krzywoustego 6, 44-100 Gliwice, PolandPolymemTech Sp. z o.o., Al. Niepodległości 118/90, 05-577 Warsaw, PolandDepartment of Inorganic, Analytical Chemistry and Electrochemistry, Faculty of Chemistry, Silesian University of Technology, ul. B. Krzywoustego 6, 44-100 Gliwice, PolandDepartment of Inorganic, Analytical Chemistry and Electrochemistry, Faculty of Chemistry, Silesian University of Technology, ul. B. Krzywoustego 6, 44-100 Gliwice, PolandDepartment of Chemical Engineering and Process Design, Faculty of Chemistry, Silesian University of Technology, ul. M. Strzody 7, 44-100 Gliwice, PolandNanofiltration can be applied for the treatment of mine waters. One of the main problems is the risk of crystallization of sparingly soluble salts on the membrane surface (scaling). In this work, a series of batch-mode nanofiltration experiments of the mine waters was performed in a dead-end Sterlitech<sup>®</sup> HP 4750X Stirred Cell. Based on the laboratory results, the concentration profiles of individual ions along the membrane length in a single-pass industrial-scale nanofiltration (NF) unit was calculated, assuming the tanks-in-series flow model inside the membrane module. These calculations also propose a method for estimating the maximum achievable recovery before the occurrence of the calcium sulfate dihydrate scaling in a single-pass NF 40″ length spiral wound module, simultaneously allowing metastable supersaturation of calcium sulfate dihydrate. The performance of three membrane types (NF270, NFX, NFDL) has been evaluated for the nanofiltration of mine water.https://www.mdpi.com/2077-0375/10/10/288membrane module modelingcalcium sulfate precipitation riskionic rejection coefficients
collection DOAJ
language English
format Article
sources DOAJ
author Krzysztof Mitko
Ewa Laskowska
Marian Turek
Piotr Dydo
Krzysztof Piotrowski
spellingShingle Krzysztof Mitko
Ewa Laskowska
Marian Turek
Piotr Dydo
Krzysztof Piotrowski
Scaling Risk Assessment in Nanofiltration of Mine Waters
Membranes
membrane module modeling
calcium sulfate precipitation risk
ionic rejection coefficients
author_facet Krzysztof Mitko
Ewa Laskowska
Marian Turek
Piotr Dydo
Krzysztof Piotrowski
author_sort Krzysztof Mitko
title Scaling Risk Assessment in Nanofiltration of Mine Waters
title_short Scaling Risk Assessment in Nanofiltration of Mine Waters
title_full Scaling Risk Assessment in Nanofiltration of Mine Waters
title_fullStr Scaling Risk Assessment in Nanofiltration of Mine Waters
title_full_unstemmed Scaling Risk Assessment in Nanofiltration of Mine Waters
title_sort scaling risk assessment in nanofiltration of mine waters
publisher MDPI AG
series Membranes
issn 2077-0375
publishDate 2020-10-01
description Nanofiltration can be applied for the treatment of mine waters. One of the main problems is the risk of crystallization of sparingly soluble salts on the membrane surface (scaling). In this work, a series of batch-mode nanofiltration experiments of the mine waters was performed in a dead-end Sterlitech<sup>®</sup> HP 4750X Stirred Cell. Based on the laboratory results, the concentration profiles of individual ions along the membrane length in a single-pass industrial-scale nanofiltration (NF) unit was calculated, assuming the tanks-in-series flow model inside the membrane module. These calculations also propose a method for estimating the maximum achievable recovery before the occurrence of the calcium sulfate dihydrate scaling in a single-pass NF 40″ length spiral wound module, simultaneously allowing metastable supersaturation of calcium sulfate dihydrate. The performance of three membrane types (NF270, NFX, NFDL) has been evaluated for the nanofiltration of mine water.
topic membrane module modeling
calcium sulfate precipitation risk
ionic rejection coefficients
url https://www.mdpi.com/2077-0375/10/10/288
work_keys_str_mv AT krzysztofmitko scalingriskassessmentinnanofiltrationofminewaters
AT ewalaskowska scalingriskassessmentinnanofiltrationofminewaters
AT marianturek scalingriskassessmentinnanofiltrationofminewaters
AT piotrdydo scalingriskassessmentinnanofiltrationofminewaters
AT krzysztofpiotrowski scalingriskassessmentinnanofiltrationofminewaters
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