Application of Membrane Separation for Cleaning and Concentration of Nanolignin Suspensions in a Biorefinery Environment

Application of Membrane Separation for Cleaning and Concentration of Nanolignin Suspensions in a Biorefinery Environment

Biorefining is a key technology for the sustainable production of chemicals, fuels and energy from abundant lignocellulosic resources. Within the concept, production of micro- and nanoscaled lignin particles recently gained increasing interest due to their excellent properties and potential applicat...

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Main Authors: Martin Miltner, Stefan Beisl, Angela Miltner, Johannes Adamcyk, Rita Gaspar, Sofia Capelo, Michael Harasek, Anton Friedl
Format: Article
Language:English
Published: AIDIC Servizi S.r.l. 2019-10-01
Series:Chemical Engineering Transactions
Online Access:https://www.cetjournal.it/index.php/cet/article/view/10474
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spelling doaj-a201daa1b75d45a8b6b2fef4d137ec312021-02-16T20:59:14ZengAIDIC Servizi S.r.l.Chemical Engineering Transactions2283-92162019-10-017610.3303/CET1976023Application of Membrane Separation for Cleaning and Concentration of Nanolignin Suspensions in a Biorefinery EnvironmentMartin MiltnerStefan BeislAngela MiltnerJohannes AdamcykRita GasparSofia CapeloMichael HarasekAnton FriedlBiorefining is a key technology for the sustainable production of chemicals, fuels and energy from abundant lignocellulosic resources. Within the concept, production of micro- and nanoscaled lignin particles recently gained increasing interest due to their excellent properties and potential application in high-value products. Fabricated via direct precipitation of Organosolv extracts, Nanolignin suspensions need to be increased in concentration and cleaned from impurities. Additionally, solvent background needs to be exchanged from hydroalcoholic solution to pure water for most applications. This work focuses on the application of ultrafiltration in diafiltration mode for this separation task. Experimental operation on lab-scale apparatuses demonstrate the reduction of Ethanol and impurities like sugars, dissolved lignin and sugar degradation products accessed by TOC analysis. Most important, the size of Nanolignin particles is not changed during 9 h of operation. Nevertheless, significant performance degradation due to compaction of polymeric membrane material as well as fouling resulting from deposited lignin particles has been monitored. Consequently, a rigorous optimisation of operating pressure and the development of an adequate membrane regeneration procedure is mandatory.https://www.cetjournal.it/index.php/cet/article/view/10474
collection DOAJ
language English
format Article
sources DOAJ
author Martin Miltner
Stefan Beisl
Angela Miltner
Johannes Adamcyk
Rita Gaspar
Sofia Capelo
Michael Harasek
Anton Friedl
spellingShingle Martin Miltner
Stefan Beisl
Angela Miltner
Johannes Adamcyk
Rita Gaspar
Sofia Capelo
Michael Harasek
Anton Friedl
Application of Membrane Separation for Cleaning and Concentration of Nanolignin Suspensions in a Biorefinery Environment
Chemical Engineering Transactions
author_facet Martin Miltner
Stefan Beisl
Angela Miltner
Johannes Adamcyk
Rita Gaspar
Sofia Capelo
Michael Harasek
Anton Friedl
author_sort Martin Miltner
title Application of Membrane Separation for Cleaning and Concentration of Nanolignin Suspensions in a Biorefinery Environment
title_short Application of Membrane Separation for Cleaning and Concentration of Nanolignin Suspensions in a Biorefinery Environment
title_full Application of Membrane Separation for Cleaning and Concentration of Nanolignin Suspensions in a Biorefinery Environment
title_fullStr Application of Membrane Separation for Cleaning and Concentration of Nanolignin Suspensions in a Biorefinery Environment
title_full_unstemmed Application of Membrane Separation for Cleaning and Concentration of Nanolignin Suspensions in a Biorefinery Environment
title_sort application of membrane separation for cleaning and concentration of nanolignin suspensions in a biorefinery environment
publisher AIDIC Servizi S.r.l.
series Chemical Engineering Transactions
issn 2283-9216
publishDate 2019-10-01
description Biorefining is a key technology for the sustainable production of chemicals, fuels and energy from abundant lignocellulosic resources. Within the concept, production of micro- and nanoscaled lignin particles recently gained increasing interest due to their excellent properties and potential application in high-value products. Fabricated via direct precipitation of Organosolv extracts, Nanolignin suspensions need to be increased in concentration and cleaned from impurities. Additionally, solvent background needs to be exchanged from hydroalcoholic solution to pure water for most applications. This work focuses on the application of ultrafiltration in diafiltration mode for this separation task. Experimental operation on lab-scale apparatuses demonstrate the reduction of Ethanol and impurities like sugars, dissolved lignin and sugar degradation products accessed by TOC analysis. Most important, the size of Nanolignin particles is not changed during 9 h of operation. Nevertheless, significant performance degradation due to compaction of polymeric membrane material as well as fouling resulting from deposited lignin particles has been monitored. Consequently, a rigorous optimisation of operating pressure and the development of an adequate membrane regeneration procedure is mandatory.
url https://www.cetjournal.it/index.php/cet/article/view/10474
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