Since 2010, the Odor Prevention Act has identified and regulated four types of fatty acids as substances that cause odors. Four types of fatty acids are contributors to odor pollution and are sensitive to changes in temperature and humidity. However, the current analysis method has several limitations, including dependency on the timing of sampling before and after the procedure, as well as dependency on the specific analysis method employed. The aim of this study is to assess the efficacy of the ion chromatography analysis method by utilizing ultrapure distilled water as a means to improve the current approach. Initially, the analysis system underwent a quality assessment. The results indicated a linearity (R2) of 0.99, a limit of 10 nmol/mol or lower, supporting the conclusion that it is suitable. Furthermore, the investigation focused on the substance’s tendency to change over time in ultrapure water and under alkali absorption (0.01N NaOH). At a concentration of 0.95 ng (low-concentration standard sample), the confirmed peak area values ranged from 0.0004 μg/min to 0.0010 μg/min, resulting in an injection variation of approximately ± 0.001. At 23.7 ng (high-concentration standard sample), the peak area value fluctuated between 0.008 μg/min and 0.013 μg/ min, with an average of ± 0.002. Therefore, storing the material at temperatures below 4°C for up to 3 days (72 hours) after manufacturing seemed to facilitate the optimal conditions for maintaining its stability without significant changes taking place. Finally, blank samples from the laboratory, equipment, and site were analyzed. Out of the four substances analyzed, only n-butyl acid was detected in all three background samples. It was confirmed that it represented 4% of the peak area in the 4.94 ng standard sample.

In this research, the applicability of modified fouling index (MFI) on ultrapure water (UPW) production system was assessed to predict performance of reverse osmosis (RO) process. The practical study on MFI-UF was first performed at a pilot-scale UPW plant (Hwaseong-si, Gyeonggi-do, Korea), monitoring water quality parameters (i.e., conductivity, turbidity and TOC) as well as MFI-UF of pretreatment stage for 10 months. While water quality parameters were maintained in a stable manner, the MFI-UF was fluctuated implying the different propensity of RO influent. The increment of fouling potential was intimately related with RO performance, the aggravation of permeate quality. The sensitivity of MFI-UF was also verified by evaluating the fouling potential of reclaimed water in UPW production system.

본 연구에서는 역삼투(RO)와 축전식 탈염(CDI)을 이용하여 수돗물로부터 초순 수의 제조 가능성을 살펴보았다. 수돗물의 pH를 조정하여 RO 모듈에 통과시킨 후 RO 처리수를 곧바로 CDI 단위 셀에 공급하여 처리수의 비저항을 측정하였 다. 수돗물의 pH를 4.5-10.0 범위로 조절한 후 RO 모듈에 공급한 결과 pH 8.9 에서 94.6%의 염 제거율을 나타냈다. 또한 pH가 7.2, 8.5, 9.0인 유입수를 RO-MCDI 시스템에서 탈염한 결과 처리수는 각각 0.73, 3.2, 10.0 MΩ⋅cm의 비저항을 나타냈다. 도출된 운전조건을 바탕으로 RO-MCDI 시스템의 장기운전 에 따른 안정성을 검토하였다. 흡착과 탈착과정을 30회 반복하는 동안 안정적으로 10 MΩ⋅cm의 초순수를 제조할 수 있었다.

Ultrapure water (UPW) is water containing nothing but water molecule (H2O). The use of UPW is increasing in many industries such as the thermal and nuclear power plants, petrochemical plants, and semiconductor manufacturers. In order to produce UPW, several unit processes such as ion exchange, reverse osmosis (RO), ultraviolet (UV) oxidation should be efficiently arranged. In particular, RO process should remove not only ions but also low molecular weight (LMW) organic matters in UPW production system. But, the LMW organic matter removal data of RO membranes provided by manufacturers does not seem to be reasonable because they tested the removal in high concentration conditions like 1,000 ppm of isopropyl alcohol (IPA, MW=60.1). In this study, bench-scale experiments were carried out using 4-inches RO modules. IPA was used as a model LMW organic matter with low concentration conditions less than 1 ppm as total organic carbon (TOC). As a result, the IPA removal data by manufacturers turned out to be trustable because the effect of feed concentration on the IPA removal was negligble while the IPA removal efficiency became higher at higher permeate flux.

국내의 초순수 제조장치는 90% 이상이 이온교환수지를 사용하는 이온교환법과 UF, R/O System과 같은 Membrane을 사용하는 Membrane System을 병행하여 적용하고 있다. 국내 초순수처리 Plant에서는 통상 전처리 System과 1차 순수제조 System및 초순수 System이 상호 연결되어 Plant가 구성 운영되고 있다. 전처리 System에는 응집침전, 여과 흡착, 살균 등이 적용되고 있으며 여과 System에 Membrane을 적용할 수 있으나 국내에서는 특별한 경우를 제외하고 대부분 전처리 여과 System에 Media Filter를 사용한다. 전처리 System도 순수처리 장치의 전처리로는 없어서는 안되는 System이지만 여기에는 전처리 System을 제외하고 국내에서 적용하고 있는 초순수처리 System의 공정현황과 각 System별 특징을 설명하였다. 초순수 System에는 요구 수질에 따라 다소 차이가 있지만 반도체 공업에서 사용되는 초순수 System이 이중 최고의 Grade로 반도체공업에서 적용되고 있는 System을 기준하였다. 특히 Membrane을 적용한 초순수제조 System이 증가하고 있어 R/O, ED, EDR, CDI(EDI)와 같은 Membrane System의 특성과 원리를 검토하였다.