한국연초학회지 (Journal of the Korean Society of Tobacco Science)

한국연초학회 (The Korean Society of Tobacco Science)
권호 표지

근적외선 분광분석법을 이용한 판상엽 화학성분 평가

Evaluation of Chemical Composition in Reconstituted Tobacco Leaf using Near Infrared Spectroscopy

  • 투고 : 2013.11.08
  • 심사 : 2013.11.29
  • 발행 : 2013.12.20
PDF 다운로드
⟨ 이전 논문 다음 논문 ⟩

초록

Near InfraRed Spectroscopy(NIRS) is a quick and accurate analytical method to measure multiple components in tobacco manufacturing process. This study was carried out to develop calibration equation of near infrared spectroscopy for the prediction of the amount of chemical components and hot water solubles(HWS) of reconstituted tobacco leaf. Calibration samples of reconstituted tobacco leaf were collected from every lot produced during one year. The calibration equation was formulated as modified partial least square regression method (MPLS) by analyzing laboratory actual values and mathematically pre-treated spectra. The accuracy of the acquired equation was confirmed with the standard error of prediction(SEP) of chemical components in reconstituted tobacco leaf samples, indicated as coefficient of determination($R^2$) and prediction error of sample unacquainted, followed by the verification of model equation of laboratory actual values and these predicted results. As a result of monitoring, the standard error of prediction(SEP) were 0.25 % for total sugar, 0.03 % for nicotine, 0.03 % for chlorine, 0.16 % for nitrate, and 0.38 % for hot water solubles. The coefficient of determination($R^2$) were 0.98 for total sugar, 0.97 for nicotine, 0.96 for chlorine, 0.98 for nitrate and 0.92 for hot water solubles. Therefore, the NIRS calibration equation can be applicable and reliable for determination of chemical components of reconstituted tobacco leaf, and NIRS analytical method could be used as a rapid and accurate quality control method.

키워드

참고문헌

  1. Rense, T. and Gastellu C. (1983) Estimation of total volatile bases in tobacco by near infrared (NIR) reflectance spectrophotomctry, Tob. Sci. 27: 92- 94.
  2. Delac, S. (1990) Determination of total alkaloids and total nitrogen by near infrared reflectance spectroscopy, 7-11th International Coresta Symposium, Kallithea, Halkidiki, Greece.
  3. Hamid, A., McClure W. F. and Weeks W. W. (1978) Rapid spectrophotometric analysis of the chemical composition of tobacco. part 2; total alkaloids, Beitrage zur Tabakforschung 9: 267- 274.
  4. McClure, W. F. and Norris K. H. (1977) Rapid spectrophotometric analysis of the chemical composition of tobacco, Part 1; total reducing sugar, Beitrage zur Tabakforschung 9: 13-18.
  5. Nagarajan R., Parul Singh, and Ranjana Mehrotra (2006) Direct determination of moisture in powder milk using near infrared spectroscopy. J. Auto. M. 2006: 1-4.
  6. Osborne, B. G. and T. Fearn (1986) Near infrared spectroscopy in food analysis. p. 1-182, 1st ed., B. G. Osborne and T. Fearn Ed., Longman Scientific & Technical, Harlow Essex, U.K.
  7. Osborne B. G., Fearn T, and Hindle P. H. (1993) Practical NIR spectroscopy with applications in food and beverage analysis, p. 227, Longman Scientific & Technical, Essex, England.
  8. Pandeya, R. S., Nestorrosa F. H. W. and Elliot J. M. (1978) Rapid estimation of some flue-cured tobacco chemical characteristics by infrared-refletance spectroscopy, Tob. Sci. 22: 27-31.
  9. 김용옥, 정한주, 백순옥, 김기환 (1995) 근적외선 분광법을 이용한 버어리 토스트엽의 화학성분 분석, 한국연초학회지 17(2): 177-183.
  10. 김용옥, 이경구, 장기철, 김기환 (1998) 근적외 분광분석법을 이용한 황색종 잎담배의 화학성분 분석, 한국연초학회지 20(2): 181-190.
  11. 김용옥, 장기철, 이경구 (1999) 근적외 분광분석법을 이용한 버어리종. 잎담배 화학성분 분석, 한국연초학회지 21(1): 95-101.
  12. 김용옥, 장기철, 이철회, 정한주 (2005) 근적외 분광분석법을 이용한 담배 중 전휘발성 염기분석, 27(2): 207-211.
  13. 장기철, 김용옥, 이경구 (1998) 근적외 분광분석법을 이용한 한국산과 미국산 잎담배의 판별분석, 한국연초학회지 20(2): 191-197.
  14. 조래광, 이경희, 이정환, 권영길 (1994) 근적외 분광분석법에 의한 잎담배의 품질측정 자동화, 한국농화학회지 37(5): 349- 355.
  15. 한윤희, 신용민, 박성배, 남성운, 김효진 (2010) 근적외선 분광분석을 이용한 종이기록물의 비파괴 특성평가 연구, Ana. Sci. & Tec. 23(3): 304-311. https://doi.org/10.5806/AST.2010.23.3.304