Food Engineering Progress
Korean Society for Food Engineering
Article

찰벼 품종을 이용한 파보일드미의 물리·호화특성

유재수1, 이미자1, 박현수1, 조영찬1, 이점호1, 하기용1,*
Jae-Soo Yoo1, Mi-Ja Lee1, Hyun-Su Park1, Young-Chan Cho1, Jeom-Ho Lee1, Ki-Yong Ha1,*
1국립식량과학원 벼맥류부
1Department of Rice and Winter Cereal Crop, National Institute of Crop Science, RDA
*Corresponding author: Ki-Yong Ha, Department of Rice and Winter Cereal Crop, NICS, RDA, Iksan 570-080, Korea, Tel: +82-63-840-2132; Fax: +82-63-840-2119 E-mail: ha0ky04@korea.kr

ⓒ Copyright 2013 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: Oct 17, 2013; Revised: Nov 19, 2013; Accepted: Nov 19, 2013

Published Online: Nov 30, 2013

Abatract

This study analyzed the physical and pasting properties of parboiled rice using glutinous rice cultivars. The Sinseonchal cultivar of japonica and the Tongil–type Hangangchal showed the highest and the lowest hardness, respectively, after parboiling treatment and increased in hardness 1.6 to 3.8 times over that of raw milled rice. The solid contents in the parboiled rice of all cultivars were lower than those of raw milled rice. Hwaseonchal showed the highest water binding capacity and increased after parboiling by 1.9 to 5.3 times. The Colormetric L value decreased after parboiling and it tended to darken compared to raw milled rice. The solubility and swelling power of raw milled rice were higher when treated at 75°C than when treated at the normal temperature of 25°C. Parboiling increased swelling power but decreased solubility. As for amylogram characteristics, the pasting temperature was in a range of 62.1 to 69.4°C and there was no significant difference among all the cultivars except Tongil–type Hanganchal. For the paste viscosity properties of parboiled rice, the peak viscosity increased and setback decreased when compared to that of raw milled rice in all cultivars except Hangangchal. Especially, setback viscosity showed a negative value which seems to be the result of the slow retrogradation of cooked parboiled rice. In the case of X-ray diffraction, raw milled and parboiled rice showed the same pattern A and the relative crystallinity of flour particles showed a decrease by 9-30%, which verified the result that a part of the crystalline regions’ structure was disintegrated.

Keywords: parboiled rice; glutinous rice; water binding capacity; swelling power; X-ray diffraction