Influence of reduced cleaning-in-place on aged membranes during ultrafiltration of whey

Thilo Heinz Alexander Berg; Richard Ipsen; Niels  Ottosen; A. Tolkach; Franciscus Winfried J van der Berg

doi:10.1515/ijfe-2014-0240

Influence of reduced cleaning-in-place on aged membranes during ultrafiltration of whey

Thilo Heinz Alexander Berg, Richard Ipsen, Niels Ottosen, A. Tolkach, Franciscus Winfried J van der Berg

1 Citation (Scopus)

Abstract

Optimization of cleaning-in-place (CIP) procedures using bench-scale equipment is severely restricted by the short testing times (typically 1-3 days) compared with the normal lifespans of industrial membrane materials (years). In our research, industrially used polyethersulfone membrane material (aged membrane) was migrated to a lab-scale filtration apparatus. Performance (flux) of aged membranes was found to be 10% lower compared to new membranes of the same specification. For each set of membranes, performance was on the same level during multiple filtrations with intermediate CIPs. Reducing the CIP from a three-step procedure (caustic, enzymatic, acid) to only one step (caustic) had no influence on subsequent filtration performance even though flux recovery after reduced CIP was as low as 38% compared to 90% after three-step CIP. Consequences of reduced cleaning could first be observed in the subsequent CIP where the level of resistance during the respective CIP steps was increased.

Original language	English
Journal	International Journal of Food Engineering
Volume	11
Issue number	4
Pages (from-to)	447-455
Number of pages	9
ISSN	1556-3758
DOIs	https://doi.org/10.1515/ijfe-2014-0240
Publication status	Published - 1 Aug 2015

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title = "Influence of reduced cleaning-in-place on aged membranes during ultrafiltration of whey",

abstract = "Optimization of cleaning-in-place (CIP) procedures using bench-scale equipment is severely restricted by the short testing times (typically 1-3 days) compared with the normal lifespans of industrial membrane materials (years). In our research, industrially used polyethersulfone membrane material (aged membrane) was migrated to a lab-scale filtration apparatus. Performance (flux) of aged membranes was found to be 10% lower compared to new membranes of the same specification. For each set of membranes, performance was on the same level during multiple filtrations with intermediate CIPs. Reducing the CIP from a three-step procedure (caustic, enzymatic, acid) to only one step (caustic) had no influence on subsequent filtration performance even though flux recovery after reduced CIP was as low as 38% compared to 90% after three-step CIP. Consequences of reduced cleaning could first be observed in the subsequent CIP where the level of resistance during the respective CIP steps was increased.",

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T1 - Influence of reduced cleaning-in-place on aged membranes during ultrafiltration of whey

AU - Berg, Thilo Heinz Alexander

AU - Ipsen, Richard

AU - Ottosen, Niels

AU - Tolkach, A.

AU - van der Berg, Franciscus Winfried J

PY - 2015/8/1

Y1 - 2015/8/1

N2 - Optimization of cleaning-in-place (CIP) procedures using bench-scale equipment is severely restricted by the short testing times (typically 1-3 days) compared with the normal lifespans of industrial membrane materials (years). In our research, industrially used polyethersulfone membrane material (aged membrane) was migrated to a lab-scale filtration apparatus. Performance (flux) of aged membranes was found to be 10% lower compared to new membranes of the same specification. For each set of membranes, performance was on the same level during multiple filtrations with intermediate CIPs. Reducing the CIP from a three-step procedure (caustic, enzymatic, acid) to only one step (caustic) had no influence on subsequent filtration performance even though flux recovery after reduced CIP was as low as 38% compared to 90% after three-step CIP. Consequences of reduced cleaning could first be observed in the subsequent CIP where the level of resistance during the respective CIP steps was increased.

AB - Optimization of cleaning-in-place (CIP) procedures using bench-scale equipment is severely restricted by the short testing times (typically 1-3 days) compared with the normal lifespans of industrial membrane materials (years). In our research, industrially used polyethersulfone membrane material (aged membrane) was migrated to a lab-scale filtration apparatus. Performance (flux) of aged membranes was found to be 10% lower compared to new membranes of the same specification. For each set of membranes, performance was on the same level during multiple filtrations with intermediate CIPs. Reducing the CIP from a three-step procedure (caustic, enzymatic, acid) to only one step (caustic) had no influence on subsequent filtration performance even though flux recovery after reduced CIP was as low as 38% compared to 90% after three-step CIP. Consequences of reduced cleaning could first be observed in the subsequent CIP where the level of resistance during the respective CIP steps was increased.

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DO - 10.1515/ijfe-2014-0240

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Influence of reduced cleaning-in-place on aged membranes during ultrafiltration of whey

Abstract

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