Improvement of polymer grade l-lactic acid production using lactobacillus rhamnosus SCJ9 from low-grade cassava chips by simultaneous saccharification and fermentation

© 2020 by the authors. The present study aims to examine the process for L-lactic acid production from low-grade cassava chips (LGC) using a two-step fermentation approach (TSF) and simultaneous saccharification and fermentation (SSF) by proficient, newly isolated Lactobacillus rhamnosus strain SCJ9...

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Main Authors: Kridsada Unban, Narongsak Puangkhankham, Apinun Kanpiengjai, Rasiravathanahalli Kaveriyappan Govindarajan, Dharman Kalaimurugan, Chartchai Khanongnuch
Format: Journal
Published: 2020
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http://cmuir.cmu.ac.th/jspui/handle/6653943832/70320
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spelling th-cmuir.6653943832-703202020-10-14T08:27:32Z Improvement of polymer grade l-lactic acid production using lactobacillus rhamnosus SCJ9 from low-grade cassava chips by simultaneous saccharification and fermentation Kridsada Unban Narongsak Puangkhankham Apinun Kanpiengjai Rasiravathanahalli Kaveriyappan Govindarajan Dharman Kalaimurugan Chartchai Khanongnuch Chemical Engineering © 2020 by the authors. The present study aims to examine the process for L-lactic acid production from low-grade cassava chips (LGC) using a two-step fermentation approach (TSF) and simultaneous saccharification and fermentation (SSF) by proficient, newly isolated Lactobacillus rhamnosus strain SCJ9. The optimized medium composition revealed by response surface methodology for TSF was 166 g/L LGC hydrolysate and 20 g/L yeast extract (YE), while other medium components were fixed (g/L) as follows: tween80 (2.0), (NHA4)A2HPOA4 (2.0), CHA3COONa·3HA2O (6.0), (NHA4)A2HCA6HA5OA7 (2.0), MgSOA4·7HA2O (0.5), and MnSOA4·HA2O (0.3). Based on the optimization conditions, the maximum experimental L-lactic acid of 134.6 g/L was achieved at 60 h fermentation time with a production efficiency of 89.73%, 0.95 g/g yield and 2.24 g/L/h productivity. In contrast, L-lactic acid production by SSF under optimized concentrations of thermostable-α-amylase (AA) and glucoamylase (GA) gave maximum L-lactic acid of 125.79 g/L at only 36 h fermentation time which calculated to the production efficiency, yield and productivity of 83.86%, 0.93 g/g and 3.49 g/L/h, respectively. The L-lactic acid production obtained from SSF was significantly improved when compared to TSF based on lower enzyme loading usage, shorter hydrolysis time and increase in production efficiency and productivity. Furthermore, there were no significant differences in the production by SSF between experiments conducted in laboratory bottle and 10-L fermenter. The results indicated the success of up-scaling for L-lactic acid production by SSF which could be developed for a further pilot-scale production of L-lactic acid. 2020-10-14T08:27:32Z 2020-10-14T08:27:32Z 2020-09-01 Journal 22279717 2-s2.0-85092082219 10.3390/PR8091143 https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85092082219&origin=inward http://cmuir.cmu.ac.th/jspui/handle/6653943832/70320
institution Chiang Mai University
building Chiang Mai University Library
continent Asia
country Thailand
Thailand
content_provider Chiang Mai University Library
collection CMU Intellectual Repository
topic Chemical Engineering
spellingShingle Chemical Engineering
Kridsada Unban
Narongsak Puangkhankham
Apinun Kanpiengjai
Rasiravathanahalli Kaveriyappan Govindarajan
Dharman Kalaimurugan
Chartchai Khanongnuch
Improvement of polymer grade l-lactic acid production using lactobacillus rhamnosus SCJ9 from low-grade cassava chips by simultaneous saccharification and fermentation
description © 2020 by the authors. The present study aims to examine the process for L-lactic acid production from low-grade cassava chips (LGC) using a two-step fermentation approach (TSF) and simultaneous saccharification and fermentation (SSF) by proficient, newly isolated Lactobacillus rhamnosus strain SCJ9. The optimized medium composition revealed by response surface methodology for TSF was 166 g/L LGC hydrolysate and 20 g/L yeast extract (YE), while other medium components were fixed (g/L) as follows: tween80 (2.0), (NHA4)A2HPOA4 (2.0), CHA3COONa·3HA2O (6.0), (NHA4)A2HCA6HA5OA7 (2.0), MgSOA4·7HA2O (0.5), and MnSOA4·HA2O (0.3). Based on the optimization conditions, the maximum experimental L-lactic acid of 134.6 g/L was achieved at 60 h fermentation time with a production efficiency of 89.73%, 0.95 g/g yield and 2.24 g/L/h productivity. In contrast, L-lactic acid production by SSF under optimized concentrations of thermostable-α-amylase (AA) and glucoamylase (GA) gave maximum L-lactic acid of 125.79 g/L at only 36 h fermentation time which calculated to the production efficiency, yield and productivity of 83.86%, 0.93 g/g and 3.49 g/L/h, respectively. The L-lactic acid production obtained from SSF was significantly improved when compared to TSF based on lower enzyme loading usage, shorter hydrolysis time and increase in production efficiency and productivity. Furthermore, there were no significant differences in the production by SSF between experiments conducted in laboratory bottle and 10-L fermenter. The results indicated the success of up-scaling for L-lactic acid production by SSF which could be developed for a further pilot-scale production of L-lactic acid.
format Journal
author Kridsada Unban
Narongsak Puangkhankham
Apinun Kanpiengjai
Rasiravathanahalli Kaveriyappan Govindarajan
Dharman Kalaimurugan
Chartchai Khanongnuch
author_facet Kridsada Unban
Narongsak Puangkhankham
Apinun Kanpiengjai
Rasiravathanahalli Kaveriyappan Govindarajan
Dharman Kalaimurugan
Chartchai Khanongnuch
author_sort Kridsada Unban
title Improvement of polymer grade l-lactic acid production using lactobacillus rhamnosus SCJ9 from low-grade cassava chips by simultaneous saccharification and fermentation
title_short Improvement of polymer grade l-lactic acid production using lactobacillus rhamnosus SCJ9 from low-grade cassava chips by simultaneous saccharification and fermentation
title_full Improvement of polymer grade l-lactic acid production using lactobacillus rhamnosus SCJ9 from low-grade cassava chips by simultaneous saccharification and fermentation
title_fullStr Improvement of polymer grade l-lactic acid production using lactobacillus rhamnosus SCJ9 from low-grade cassava chips by simultaneous saccharification and fermentation
title_full_unstemmed Improvement of polymer grade l-lactic acid production using lactobacillus rhamnosus SCJ9 from low-grade cassava chips by simultaneous saccharification and fermentation
title_sort improvement of polymer grade l-lactic acid production using lactobacillus rhamnosus scj9 from low-grade cassava chips by simultaneous saccharification and fermentation
publishDate 2020
url https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85092082219&origin=inward
http://cmuir.cmu.ac.th/jspui/handle/6653943832/70320
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