국내 음식부산물 발생량은 연간 약 500만톤으로 그 중 70 %가량은 퇴비화 또는 사료화로 자원화되고 있다. 최근 비료공정규격상 음식부산물 건조분말(DFP)이 혼합유기질비료 및 유기복합비료의 원료로 사용할 수 있게 되었지만 아직 적정사용기준에 대한 설정이 미흡한 상태이다. 이에 본 연구는 수집 시기별 음식부산물 건조분말의 화학적 특성을 평가하고 음식부산물 건조분말이 혼합된 혼합유기질비료의 사용량에 따른 작물 및 토양화학성 변화에 대해 평가하고자 하였다. 처리구는 무처리(NF), 무기질비료처리구(NPK, N-P2O5-K2O=32-7.8-19.8 kg 10a-1), 음식부산물 건조분말 단독처리구(DFP), 시판혼합유기질비료(MOF), 음식부산물 건조분말 혼합유기질비료 처리구(DFPMOF)이며 DFPMOF 처리구는 100, 200, 400 및 600%로 구분하여 설정하였다. DFP, MOF 및 DFPMOF 처리구는 질소비료 사용량을 기준으로 하여 비료처리를 하여 작물 재배실험을 진행하였다. 음식부산물의 화학적 특성은 시기별에 따라서 유의적인 차이가 없었으며 중금속 함량 또한 기준에 적합한 수준이었다. 배추 생산량은 DFPMOF 처리구가 6,280 kg 10a-1로 NPK처리구(7,000 g kg-1)와 가장 유사하였으며 질소이용효율 또한 유사한 경향이었다. 토양 pH는 DFPMOF 사용량이 증가함에 따라 감소하는 경향이었으며, EC, OM 및 Ex. K는 DFPMOF 사용량이 증가함에 따라 감소하는 경향이었다. 이를 통해 DFPMOF 는 질소비료사용량 기준으로 처리하였을 때 가장 적합할것으로 판단되나, 적정사용기준을 설정하기 위해서는 장기간 연용시험을 통한 환경영향평가가 필요할 것으로 사료된다.

In this study, a relatively effective process is used to sterilize Escherichia coli on the surface of micro-sized calcium citrate powder using nitrogen and argon as process gases in a low-temperature vacuum plasma treatment. The purpose of this study is to confirm and to introduce the effectiveness of homogeneous surface treatment for the sterilization of fine inorganic powder by the rotatable low-temperature RF plasma system designed by ourselves. The results of the test using 3M petrifilm showed that there were no remarkable spots in the case of the surface of plasma treated powder, whereas the untreated powder showed many blue spots, which indicating that the E. coli was alive. After 5 days, in the same samples, the blue spots were seen to be larger and darker than before, while the plasma-treated powder showed no changes. The results from FE-SEM analysis showed that the E. coli was damaged and/or destroyed by reactive species generated in the plasma space, resulting in the E. coli being sterilized. Furthermore, the sterilization effects according to the selected parameters (N2 and Ar; flow rate 30 and 50 sccm) adapted in this study were mutually similar, regardless of such different process parameters, and this indicates that homogeneous treatment of powder surfaces could be more effective than conventional methods. Therefore, the plasma apparatus used in this study may be a practical method to use in a powerful sterilization process in powder-type food.

In this study, physio-chemical, mechanical, and sensory characteristics of Tofu containing 0, 0.5, 1.0, and 2.0% Adenophora remotiflora powder were examined. In addition, we examined the potential of utilizing Adenophora remotiflora powder as a functional food material by estimating total phenol contents, electron-donating abilities, and hydroxyl radical scavenging activities of the hot water and ethanol extracts of Adenophora remotiflora powder in the range from 0~2.0%. The total phenol content of the ethanol extracts of Adenophora remotiflora powder was 487.93μg/mL while the that of the water extract of Adenophora remotiflora powder was 403.70μ/mL. The electron-donating abilities of the ethanol and water extracts of Adenophora remotiflora powder were 75.37 and 86.10%, respectively. The hydroxyl radical scavenging activities of the ethanol and water extracts of Adenophora remotiflora powder were 65.50 and 66.22%, respectively. We also evaluated the quality characteristics of Tofu containing Adenophora remotiflora powder. In the case of color values, as the level of Adenophora remotiflora powder increased, the values of L (lightness) and a (redness) decreased, whereas that of b (yellowness) increased. In the case of mechanical properties, as the level of Adenophora remotiflora powder increased, hardness, gumminess, and chewiness values increased (p〈0.05), whereas springiness and cohesiveness values decreased (p〈0.05). In the case of sensory evaluation, MPT1.0 scored significantly higher in color, flavor, tenderness, texture, and overall quality. To sum up, Tofu containing 1% Adenophora remotiflora powder showed the highest overall preference.

The spiral vibration heat exchange dryer moves, dries continuously and mixes uniformly particles on the spiral heating plate. So this system is adequate to dry the powder-type food materials. The mass and heat balance equation is used to design dry capacity and water content measurement, sieve analysis and vibration moving test are practiced to lay out the spiral plate. Spiral vibration dryer(300 kg/hr) is manufactured and tested by Dashida powder of 4.8% water content at 80~85oC. The frequency of vibration motor is operated 45Hz, 55Hz, 60Hz and the product mass per time is measured by digital scale. The water content of product is 1.0~1.6% and the dry efficiency is 67.4~78.2%. The spiral vibration heat exchange dryer make 125~363 kg/hr of Dashida dehydrated with temperature consistency and without dust in case.

창포의 뿌리를 주근(main root)과 측근(lateral root)으로 분리하여 3 열풍건조분말의 주된 포화지방산으로는 caprylic acid, pentadecanoic acid, stearic acid 및 heneicosanoic acid 등 10종이 확인되었고, 이들은 각각 주근과 측근의 경우 caprylic acid가 28.35%, 31.44%이었고, 불포화지방산으로는 linoleic acid, palmitoleic acid 및 lin

창포 뿌리를 주근(main mot)과 측근(lateral root)으로 분리하여 열풍건조 분쇄, 분말화한 후 일반성분, 당 및 아미노산등 화학성분을 분석하여 식품학적 특성을 검토하였다. 주근과 측근 건조분말에는 각각 조단백질 12.76%, 9.84%와 조지방 7.43%, 3.42%로 높게 함유하고 있어 에너지공급원과 식물성 고단백질 원료로서의 우수한 영양학적 가치를 가지고 있음을 확인하였다. 유리당으로는 sucrose, stachyose, raf