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Slurry 반응조를 이용한 퇴적준설물내 질소의 생물학적처리에 관한 연구
정연규,배범한,김용학,전제철,엄성범 연세대학교 산업기술연구소 2002 논문집 Vol.33 No.2
The eutrophication control and prevention can be accomplished through removal of the nutrients known as main contributors. However, for the case of lakes and rivers where significant amounts of the nutrients were already entered, there should be a limit on the eutrophication control. Accordingly, it is indispensable to remove the nutrients present in sediments in view of both obtaining water resources and preserving the environment, and, therefore, this study focuses on nitrogen removal among the nutrients in sediments. For nitrogen removal in sediments, nitrification and denitrification were applied as a biological removal process to a slurry reactor available for bioremediation of contaminated soils. With approx. 508㎎/㎏ of T-N concentration in the treated sediments, about 50 % of initial nitrogen concentration was accordingly removed after total 9-day operation of a 10 %-slurry reactor under oxic and anoxic conditions for 4 hrs and 2 hrs, respectively. This means that 25 % of T-N leachates in physical fractions were removed from the sediments through the nitrification and denitrification, and additional 25 % were removed under the same process after extracted from the sediments by a biological mechanism such as organic biodegradation. As a result, 20 % larger nitrogen amounts added were removed after leached from the sediments, which was probably caused by the fact that biological activity was increased by optimization of operating conditions as well as that mineralization and ammonification of organic matters in sediments were elevated by the enlarged population of microorganism after injection of organic C-sources and trace elements. The denitrification was more activated after the injection of organic C-sources and trace elements. The leaching amount of ammonium also increased steeply. The nitrification rate of the slurry reactor was 189 ng N/min·g in dry weight.