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      은수원사시나무의 무기산 가수분해에 의해 생성된 고형 부산물의 화학 구조 = Chemical Characteristics of Solid Residues Produced from Acid Hydrolysis of Hybrid Poplar Wood

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      https://www.riss.kr/link?id=A102062230

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      다국어 초록 (Multilingual Abstract)

      In this study, we investigated chemical characteristics of solid residues obtained from inorganic acid hydrolysis of hybrid poplar (Populus alba × glandulosa). Different concentration (72, 36, 18%) of sulfuric acid and hydrochloric acid were used for...

      In this study, we investigated chemical characteristics of solid residues obtained from inorganic acid hydrolysis of hybrid poplar (Populus alba × glandulosa). Different concentration (72, 36, 18%) of sulfuric acid and hydrochloric acid were used for first hydrolysis step and second hydrolysis step were carried out after equally dilution to 4%. Solid residues after consecutive two step hydrolysis were named to RS72 (Residue from Sulfuric acid 72%), RS36, RS18, as well as RC36 (Residue from hydroChloric acid 36%) and RC18, respectively. The yield of RS decreased from 71.2% to 21.4% with increasing sulfuric acid concentration in the first hydrolysis step, whereas that of RC showed little difference (67.0% to 65.0%), irrespective of hydrochloric acid concentration. The lignin content in solid residue was 23.6% for both of RS36 and RS18, 25.6% for RC36 and 27.3% for RC18, respectively. The results of pyrolyzer-GC/MS showed that 24 cellulose derivatives (Levoglucosan, Furfural) and 21 lignin derivatives (Guaiacol, Syringol) were detected. Thermogravimetric analysis indicated that the yield of char increased and maximum wieght loss rate decreased with increasing lignin portion of solid residue. Therefore, structure of lignin was condensed effectively by sulfuric acid and by high concentration of acid.

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      참고문헌 (Reference)

      1 신수정, "백합나무를 이용한 고농도 단당류 생산을 위한 산 가수분해 특성 연구" 한국목재공학회 37 (37): 578-584, 2009

      2 고재흥, "목질계 바이오매스 에너지" 29 (29): 351-354, 2011

      3 조대행, "^1H-NMR에 의한 Xylan의 황산가수분해 과정에서 나타나는 반응 동력학 연구" 한국펄프·종이공학회 43 (43): 52-58, 2011

      4 Kazen, R., "Wood hydrolysis a continuous process" 34 (34): 314-321, 1942

      5 Lu, X., "Two-step hydrolysis of Japanese beech as treated by semi-flow hot-compressed water" 55 (55): 367-375, 2009

      6 Bjorkman, A., "Studies on finely divided wood. Part 1. Extraction of lignin with neutral solvents" 59 (59): 477-485, 1956

      7 Matsushita, Y., "Reactivity of a condensed-type lignin model compound in the Mannich reaction and preparation of cationic surfactant from sulfuric acid lignin" 49 (49): 166-171, 2003

      8 Baker, S., "Rapid methoxyl analysis of lignins using gas chromatography" 50 (50): 573-574, 1996

      9 Mansson, P., "Quantitative determination of phenolic and total hydroxyl groups in lignins" 37 (37): 143-146, 1983

      10 Raveendran, K., "Pyrolysis characteristics of biomass and biomass components" 75 (75): 987-998, 1996

      1 신수정, "백합나무를 이용한 고농도 단당류 생산을 위한 산 가수분해 특성 연구" 한국목재공학회 37 (37): 578-584, 2009

      2 고재흥, "목질계 바이오매스 에너지" 29 (29): 351-354, 2011

      3 조대행, "^1H-NMR에 의한 Xylan의 황산가수분해 과정에서 나타나는 반응 동력학 연구" 한국펄프·종이공학회 43 (43): 52-58, 2011

      4 Kazen, R., "Wood hydrolysis a continuous process" 34 (34): 314-321, 1942

      5 Lu, X., "Two-step hydrolysis of Japanese beech as treated by semi-flow hot-compressed water" 55 (55): 367-375, 2009

      6 Bjorkman, A., "Studies on finely divided wood. Part 1. Extraction of lignin with neutral solvents" 59 (59): 477-485, 1956

      7 Matsushita, Y., "Reactivity of a condensed-type lignin model compound in the Mannich reaction and preparation of cationic surfactant from sulfuric acid lignin" 49 (49): 166-171, 2003

      8 Baker, S., "Rapid methoxyl analysis of lignins using gas chromatography" 50 (50): 573-574, 1996

      9 Mansson, P., "Quantitative determination of phenolic and total hydroxyl groups in lignins" 37 (37): 143-146, 1983

      10 Raveendran, K., "Pyrolysis characteristics of biomass and biomass components" 75 (75): 987-998, 1996

      11 Pew, J. C, "Properties of powdered wood and isolation of lignin by cellulytic enzymes" 40 : 553-, 1957

      12 Kleinert, M., "Phenols from lignin" 31 (31): 736-745, 2008

      13 Camacho, F., "Microcrystalline-cellulose hydrolysis with concentrated sulphuric acid" 67 (67): 350-356, 1996

      14 Carrott, P., "Ligninfrom natural adsorbent to activates carbon: A Review" 98 (98): 2301-2312, 2007

      15 Kalda, J. F., "Lignin-based carbon fibers for composite fiber applications" 40 (40): 2913-2920, 2002

      16 Dizhbite, T., "Lignin- a useful bioresource for the production of sorption-active materials" 67 (67): 221-228, 1999

      17 Adler, E., "Lignin chemistry-past, present, and the future" 11 : 169-218, 1977

      18 Gang, H., "Feed stock pretreatment atrategies for producind ethanol from wood, bark, and forest residues" 3 (3): 270-294, 2008

      19 Carrasco, J., "Effects of dilute acid and steam explosion pretreatments on the cellulose structure and kinetics of cellulosic fraction hydrolysis by dilute acids in lignocellulosic materials" 45 (45): 23-34, 1994

      20 Sluiter, A., "Determination of extractives in biomass" Laboratory Analytical Procedure (LAP) 2005

      21 Sluiter, A., "Determination of ash in biomass" National Renewable Energy Laboratory 2008

      22 Wise, L. E., "Chlorite holocellulose, its fractionnation and bearing on summative wood analysis and on studies on the hemicelluloses" 122 (122): 35-, 1946

      23 Hoover, R., "Acid-treated strarches" 16 (16): 369-392, 2007

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      2023 평가예정 해외DB학술지평가 신청대상 (해외등재 학술지 평가)
      2020-01-01 평가 등재학술지 유지 (해외등재 학술지 평가) KCI등재
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      기준연도 WOS-KCI 통합IF(2년) KCIF(2년) KCIF(3년)
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      KCIF(4년) KCIF(5년) 중심성지수(3년) 즉시성지수
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