Applied Biological Chemistry
- Volume 37 Issue 5
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- Pages.349-355
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- 1994
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- 2468-0834(pISSN)
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- 2468-0842(eISSN)
A Study for Automatic Analysis of Qualysis of Quality Components in Tabacco Leaves Using Non-destructive Analytical Method
근적외 분광분석법에 의한 잎담배의 품질측정 자동화
- Cho, Rae-Kwang (Department of Agricultural Chemistry, Kyung-pook National University) ;
- Lee, Kyung-Hee (Department of Agricultural Chemistry, Kyung-pook National University) ;
- Lee, Jung-Hwan (Department of Agricultural Chemistry, Kyung-pook National University) ;
- Kwon, Yong-Kil (Department of Agricultural Chemistry, Kyung-pook National University)
- Published : 1994.10.31
Abstract
The present study was conducted to develop the automatic analytical method for determining moisture, nicotine, reducing sugar and total nitrogen contents and color(L, a, b) value in domestic tobacco leaves using near infrared(NIR) spectroscopy. The results of multiple linear regression analysis between chemical and NIR data showed that NIR spectro-scopy can determine those quality components of tobacco samples in 30 seconds, non-destructively. The results using developed calibrations are summarized as follows; The standard error of prediction(SEP) for moisture, nicotine. total nitrogen, reducing sugar contents and color(L, a, b) value in domestic tobacco leaves was 0.28%, 0.25%, 0.07%, 0.75%, 1.25, 0.44 and 1.07, respectively. In addition, The possibility of developing the cheaper filter type NIR instrument, for quality evaluation in the procurement from leaf tobacco cultivators and process control was investigated.
비파괴 측정법의 하나인 근적외 분광분석법을 응용하여 국내산 황색종 잎담배의 품질에 관련된 주요성분인 수분, 니코틴, 전질소, 환원당 및 색깔 등을 신속, 정확하게 동시에 측정하기 위한 가능성을 조사하였다. 근적외 영역의 광학데이타와 기존 습식분석법에 의한 잎담배의 수분, 니코틴, 전질소, 환원당 및 L, a, b 측정치 간에 중회귀 분석을 행한 결과, 검정용 시료에 대한 측정오차(SEP)가 각각 0.28%, 0.25%, 0.07%, 1.25, 0.44 및 1.07이며, 시료의 전처리없이 30초 이내에 동시에 측정 가능함을 알 수 있었다. 아울러 잎담배 수매, 원료가공 및 제품담배 제조현장에 활용하기 위한 보급형 근적외 분광분석기의 개발 가능성도 검토하였다.
Keywords
- Near infrared spectroscopy(NIRS);
- Tobacco leaf quality;
- Nicotine;
- Tobacco quality;
- Non-destructive quality evaluation