해조류 구멍갈파래 (Ulva pertusa )의 친환경적 이용을 위한 바이오에탄올의 생산
Ulva pertusa is one of the worst pollutant like a waste vinyl after agriculture and caused bad smell at seashore in Jejudo and south area of korean peninsular. For favorable environmental utilization of Ulva pertusa, it could be applied for ethanol production with its acid hydrolysate. The component...
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| Published in | KSBB Journal Vol. 26; no. 4; pp. 317 - 322 |
|---|---|
| Main Authors | , , , , , , |
| Format | Journal Article |
| Language | Korean |
| Published |
한국생물공학회
2011
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| Subjects | |
| Online Access | Get full text |
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| Abstract | Ulva pertusa is one of the worst pollutant like a waste vinyl after agriculture and caused bad smell at seashore in Jejudo and south area of korean peninsular. For favorable environmental utilization of Ulva pertusa, it could be applied for ethanol production with its acid hydrolysate. The components of hydrolysate included fermentable sugar of glucose, xylose, mannose, galactose, and higher amounts of unfermentable rhamnose. Fermentable sugars were converted to ethanol with S. cerevisiae, also xylose to ethanol with P. stipitis, their maximun ethanol production at optimum conditions were 462 μg/mL and 475 μg/mL, respectively. While, rhamnose cannot be changed to ethanol with S. cerevisiae or P. stipitis, alone. Combination of S. cerevisiae and P. stipitis can convert rhamnose to ethanol, because P.stipitis degradaded rhamnose to pyruvate, and then S. cerevisiae convert to ethanol, at optimum conditions, ethanol reached to 782 μg/mL (30.24%) that is higher than that of 2 strain alone from 500 mg of dried Ulva pertusa contained 2586.45 μg/mL of reduced sugars. Ulva pertusa can be utilized for renewal energy insted of environmenatal enemy. |
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| AbstractList | Ulva pertusa is one of the worst pollutant like a waste vinyl after agriculture and caused bad smell at seashore in Jejudo and south area of korean peninsular. For favorable environmental utilization of Ulva pertusa, it could be applied for ethanol production with its acid hydrolysate. The components of hydrolysate included fermentable sugar of glucose, xylose, mannose, galactose, and higher amounts of unfermentable rhamnose. Fermentable sugars were converted to ethanol with S. cerevisiae, also xylose to ethanol with P. stipitis, their maximun ethanol production at optimum conditions were 462 μg/mL and 475 μg/mL, respectively. While, rhamnose cannot be changed to ethanol with S. cerevisiae or P. stipitis, alone. Combination of S. cerevisiae and P. stipitis can convert rhamnose to ethanol, because P.stipitis degradaded rhamnose to pyruvate, and then S. cerevisiae convert to ethanol, at optimum conditions, ethanol reached to 782 μg/mL (30.24%) that is higher than that of 2 strain alone from 500 mg of dried Ulva pertusa contained 2586.45 μg/mL of reduced sugars. Ulva pertusa can be utilized for renewal energy insted of environmenatal enemy. Ulva pertusa is one of the worst pollutant like a waste vinyl after agriculture and caused bad smell at seashore in Jejudo and south area of korean peninsular. For favorable environmental utilization of Ulva pertusa, it could be applied for ethanol production with its acid hydrolysate. The components of hydrolysate included fermentable sugar of glucose, xylose, mannose, galactose, and higher amounts of unfermentable rhamnose. Fermentable sugars were converted to ethanol with S. cerevisiae, also xylose to ethanol with P. stipitis, their maximun ethanol production at optimum conditions were 462 ${\mu}g$/mL and 475 ${\mu}g$/mL, respectively. While, rhamnose cannot be changed to ethanol with S. cerevisiae or P. stipitis, alone. Combination of S. cerevisiae and P. stipitis can convert rhamnose to ethanol, because P.stipitis degradaded rhamnose to pyruvate, and then S. cerevisiae convert to ethanol, at optimum conditions, ethanol reached to 782 ${\mu}g$/mL (30.24%) that is higher than that of 2 strain alone from 500 mg of dried Ulva pertusa contained 2586.45 ${\mu}g$/mL of reduced sugars. Ulva pertusa can be utilized for renewal energy insted of environmenatal enemy. |
| Author | 신태선 변헌수 오석진 김종덕 서효진 김민용 윤양호 |
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| DocumentTitle_FL | Bioethanol Production from Seaweed Ulva pertusa for Environmental Application |
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| Keywords | H2SO4 Combined strain Seashore waste Ethanol P. stipitis Rhamnose Ulva pertusa S. cerevisiae H₂SO P S H_2SO_4 cerevisiae stipitis |
| Language | Korean |
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| StartPage | 317 |
| TableOfContents | Abstract
1. 서론
2. 재료 및 방법
2.1. 시료 처리
2.2. 구멍갈파래의 구성 당 분석
2.3. 에탄올의 생산
2.4. 에탄올의 정량
3. 결과 및 고찰
3.1. 구멍갈파래의 구성 당 분석
3.2. 에탄올의 생산
4. 결론
감사
References |
| Title | 해조류 구멍갈파래 (Ulva pertusa )의 친환경적 이용을 위한 바이오에탄올의 생산 |
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