Optimization Condition of Trace Analysis of NDMA(NNitrosodimethylamine) Using the Design of Experiment (DOE) in Solid-Phase Microextraction with GC/FID |
고체상미량추출법에서 실험계획법을 이용한 NDMA 미량분석의 최적조건 |
이시진 |
경기대학교 |
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Abstract |
Chlorine disinfection of secondary wastewater effluent and drinking water can result in the production of the
potent carcinogen N-Nitrosodimethylamine(NDMA) at the lower concentration ranges. Because of increasing
concern of presence of NDMA in water, effective analytical method to determine NDMA should be developed.
In this study, we have investigated to determine optimal condition for the analysis of NDMA using a statistical
methodology. The existing single-dimentional search is laborious, time consuming, and incapable of reaching
the true optimum due to neglecting of the interaction among variables. to resolve this problem, RSM(Response
Surface Method) has been proposed to determine the individual factors and their interactive influence. RSM
is a statistical technique for designing experiment, building models, evaluating the effects of several factors and
searching optimum conditions for desirable responses and reducing number of experiments. The analysis of
NDMA and by-products using SPME(Solid Phase Micro-extraction) technique with GC-FID. |
Key Words:
SPME, GC/FID, NDMA, DMA, RSM(Response Surface Method) |
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