Article

추출 공정에 따른 파삼의 진세노사이드 함량과 이산화탄소 배출량 비교

최운용1, 이춘근1, 송치호1, 서용창1, 김지선1, 김보현2, 임혜원3, 이현용1,*
Woon-Yong Choi1, Choon-Geun Lee1, Chi-Ho Song1, Yong-Chang Seo1, Ji-Seon Kim1, Bo-Hyeon Kim2, Hye-Won Lim3, Hyeon-Yong Lee1,*
Author Information & Copyright
1강원대학교 의생명소재공학과
2소망화장품
3세바바이오텍
4서원대학교 차학과
1Department of Medical Biomaterial Engineering, Kangwon National University
2SOMANG cosmetics
3Shebah Biotech Co.
4Department of Teaics, Seo Won University
*Corresponding author: Hyeon-Yong Lee, Department of Teaics, Seo Won University, Chungju 361-742, Korea. Tel: +82-33-256-4819; Fax: +82-33-253-6560, E-mail: hyeonl@kangwon.ac.kr

ⓒ Copyright 2012 Korean Society for Food Engineering. This is an Open-Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/4.0/) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

Received: Jul 19, 2012; Revised: Oct 08, 2012; Accepted: Oct 11, 2012

Published Online: Nov 30, 2012

Abatract

This study is to demostrate how the low molecular ginsenosides can be produced from low grade fresh ginsengs by low CO2 emission processes. Since it was known to apply the low carbon dioxide emission processes to the ginseng processing companies due to requiring high temperature extractions in low grade fresh ginseng. Several types of low CO2 emission processes were empolyed in this experiment such as microwave, ultrasound, ultra-high pressure extraction process that can be more eaisly scaled up to ginseng processing industries. From microwave extraction process, 1.290 mg/g of total low molecule ginsenosides (sum of Rg2, Rg3 and Rh2) were obtained while 1.442 mg/ g and 1.258 mg/g were estimated from ultrasonification and ultra high pressure extraction processes, respectively. Total carbon dioxide production (TCO2) from each process was also calculated as 0.1437, 0.0862, 0.1014 TCO2 for microwave, ultrasound and ultra-high pressure extraction process, respectively. It was found that the ultrasonification process was most effective extraction method in processing the low quality ginsengs since this process generated the lowest CO2 emission while the highest low molecular ginsenosides were produced. This result could be caused by that the energy from ultrasonification most efficiently penetrates since the minimum energy from this process was about 146.2 kcal while C-O glycoside binding energy of ginsenosides was ca. 76.5 kcal, and the minimum energy from two other processes were lowere than this.

Keywords: low quality fresh ginseng; low molecular ginsenoside; low CO2 emission process