Dynamic Characteristics for the Separation of Inulin Solution in Membrane Filtrsition System of Tangential Flow

접선류 막분리 시스템에 의한 이눌린 수용액의 분리 동특성

Dynamic characteristics of separation in membrane filtration system of tangential flow was investigated to find the functional relationship among the filtrate flux, transmembrane pressure, inulin concentration and recirculation rate. In case that NMWL is 1000, tracts-membrane pressure $0.4kgf/\;{\textrm{cm}^2}$ to $3.2kgf/\;{\textrm{cm}^2}$, inulin concentration lwt% to 5wt%, and recirculation rate 4ml / sec, mathematical model for the function among filtrate flux, transmembrane pressure, and inulin concentration was deduced and expressed as follows.Jv = (0.0022p + 0.0003) ln \frac{3p\;+\;2.1}{C_b}$ The values calculated by the above equation and those measured were compared to find to be nicely in accord with each other. Especially the agreement was enhanced in the region of higher concentration of inulin.

이눌린, 물 및 알콜로 구성된 용액에서 물과 알콜의 투과플럭스와 막투과 압력, 이눌린 농도, 재순환속도 사이의 함수관계를 millipore사의 랩카\ulcornerV시스템을 사용하여 구명하여 보았다. 본 연구의 결과에 의하면 NMWL이 1000이고 이눌린 농도가 1wt%내지 5wt%, 막투과 압력이 $0.4kgf/\;{\textrm{cm}^2}$내지 $3.2kgf/\;{\textrm{cm}^2}$, 재순환 속도가 4ml/sec인 경우에는 투과플럭스와 막투과 압력 및 이눌린농도 사이의 함수관계가 다음식으로 표현되는 겔분모델로 잘 해석됨을 알 수 있었다. Jv=(0.0022P + 0.0003) lu \frac{3p\;+\;2.1}{C_b}$