Sub-critical water technology for enhanced extraction of bioactive compounds from microalgae
Current extraction technologies, including chemical, mechanical, and biological based methods, routinely used to extract biochemical compounds from microalgal biomass are disadvantaged with lengthy processing steps, energy intensive operations, high operational cost, lower product yields and environ...
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School of Engineering, Taylor’s University College
2016
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| Online Access: | http://psasir.upm.edu.my/id/eprint/52037/1/Sub-critical%20water%20technology%20for%20enhanced%20extraction%20of%20bioactive%20compounds%20from%20microalgae.pdf http://psasir.upm.edu.my/id/eprint/52037/ http://jestec.taylors.edu.my/Special%20Issue_SOMCHE_2015.htm |
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my.upm.eprints.520372017-05-05T02:32:21Z http://psasir.upm.edu.my/id/eprint/52037/ Sub-critical water technology for enhanced extraction of bioactive compounds from microalgae Awaluddin, Saidatul Aliaa Siajam, Shamsul Izhar Yoshida, Hiroyuki Danquah, Michael Kobina Harun, Mohd Razif Current extraction technologies, including chemical, mechanical, and biological based methods, routinely used to extract biochemical compounds from microalgal biomass are disadvantaged with lengthy processing steps, energy intensive operations, high operational cost, lower product yields and environmentally unfriendly processes. Hence, the search for a sustainable low-cost technology for high throughput extract ion of biochemicals from microalgal biomass is major research endeavour. Sub-critical water extraction (SWE) technology has been used for the extraction of active compounds from different biomass materials with low process cost, mild operating conditions, short process times, and environmental sustainability. With the limited application of the technology to microalgal biomass, this work investigates the factors that affect the production yield of bioactive compounds during SWE of microalgal biomass. The SWE process was investigated under different process conditions include temperature (180-374 ̊C), extraction time (1-20min) and biomass loading (5-40 wt%). The results showed that the highest carbohydrate and protein yields of 14.2 g/100g and 31.2 g/100g, respectively, were achieved at 277ºC, 5 min with 5% of biomass loading. This productivity level which is in keeping or higher than that of current production systems endorses SWE as a promising technique for extracting bioactive compounds from microalgae. School of Engineering, Taylor’s University College 2016 Article PeerReviewed application/pdf en http://psasir.upm.edu.my/id/eprint/52037/1/Sub-critical%20water%20technology%20for%20enhanced%20extraction%20of%20bioactive%20compounds%20from%20microalgae.pdf Awaluddin, Saidatul Aliaa and Siajam, Shamsul Izhar and Yoshida, Hiroyuki and Danquah, Michael Kobina and Harun, Mohd Razif (2016) Sub-critical water technology for enhanced extraction of bioactive compounds from microalgae. Journal of Engineering Science and Technology, 11 (spec. July). pp. 63-72. ISSN 1823-4690 http://jestec.taylors.edu.my/Special%20Issue_SOMCHE_2015.htm |
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Current extraction technologies, including chemical, mechanical, and biological based methods, routinely used to extract biochemical compounds from microalgal biomass are disadvantaged with lengthy processing steps, energy intensive operations, high operational cost, lower product yields and environmentally unfriendly processes. Hence, the search for a sustainable low-cost technology for high throughput extract ion of biochemicals from microalgal biomass is major research endeavour. Sub-critical water extraction (SWE) technology has been used for the extraction of active compounds from different biomass materials with low process cost, mild operating conditions, short process times, and environmental sustainability. With the limited application of the technology to microalgal biomass, this work investigates the factors that affect the production yield of bioactive compounds during SWE of microalgal biomass. The SWE process was investigated under different process conditions include temperature (180-374 ̊C), extraction time (1-20min) and biomass loading (5-40 wt%). The results showed that the highest carbohydrate and protein yields of 14.2 g/100g and 31.2 g/100g, respectively, were achieved at 277ºC, 5 min with 5% of biomass loading. This productivity level which is in keeping or higher than that of current production systems endorses SWE as a promising technique for extracting bioactive compounds from microalgae. |
| format |
Article |
| author |
Awaluddin, Saidatul Aliaa Siajam, Shamsul Izhar Yoshida, Hiroyuki Danquah, Michael Kobina Harun, Mohd Razif |
| spellingShingle |
Awaluddin, Saidatul Aliaa Siajam, Shamsul Izhar Yoshida, Hiroyuki Danquah, Michael Kobina Harun, Mohd Razif Sub-critical water technology for enhanced extraction of bioactive compounds from microalgae |
| author_facet |
Awaluddin, Saidatul Aliaa Siajam, Shamsul Izhar Yoshida, Hiroyuki Danquah, Michael Kobina Harun, Mohd Razif |
| author_sort |
Awaluddin, Saidatul Aliaa |
| title |
Sub-critical water technology for enhanced extraction of bioactive compounds from microalgae |
| title_short |
Sub-critical water technology for enhanced extraction of bioactive compounds from microalgae |
| title_full |
Sub-critical water technology for enhanced extraction of bioactive compounds from microalgae |
| title_fullStr |
Sub-critical water technology for enhanced extraction of bioactive compounds from microalgae |
| title_full_unstemmed |
Sub-critical water technology for enhanced extraction of bioactive compounds from microalgae |
| title_sort |
sub-critical water technology for enhanced extraction of bioactive compounds from microalgae |
| publisher |
School of Engineering, Taylor’s University College |
| publishDate |
2016 |
| url |
http://psasir.upm.edu.my/id/eprint/52037/1/Sub-critical%20water%20technology%20for%20enhanced%20extraction%20of%20bioactive%20compounds%20from%20microalgae.pdf http://psasir.upm.edu.my/id/eprint/52037/ http://jestec.taylors.edu.my/Special%20Issue_SOMCHE_2015.htm |
| _version_ |
1643835129989169152 |
| score |
13.18916 |