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* PDF α Ͻñ ٶϴ. |
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2018 / ȣ: V.30,no.1,Mar |
1() |
̿ ħ ȭ
(SMBR-Ozone Oxidation Process) ſ |
2(Ÿ) |
Study on the Removal of Fluorescent Whitening Agent for Paper-mill
Wastewater Reuse using the Submerged Membrane Bioreactor(SMBR)
with Ozone Oxidation Process |
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, ŵ, , 1, 2, ſ3, ̽4, ڹμ4, ̻5* |
(Ÿ) |
Jang-Seung Choi, Dong-Hun Shin, Seung-Han Ryu, Jae-Hun Lee1, Jae-Young Ryu2, Won-Sik Shin3, Seul-Ki Lee4, Min-Soo Park4 and Sang Oh Lee5* |
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ؿ, 1SP(), 2泲б ȯ濡а, 3ϴб ȯа, 4()ڴƼ, 5 |
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DYETEC,1MOORIM SP Co., Kyungnam University, Kyungpook National University, 4R&D, Econity Co., Ltd., |
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51 ~ 61 : 11 |
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Korean |
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Abstract In this study, effluent water was produced through Submerged Membrane
Bio-Reactor(SMBR) process, which is a simple system and decomposes organic matter
contained in wastewater with biological treatment process and performs solid-liquid separation,
Especially, ozone oxidation treatment process is applied to effluent water containing
fluorescent whitening agent, which is a trace pollutant which is not removed by
biological treatment, and influences the quality of reused water. The concentration of
CODCr in the SMBR was 449.3mg/-CODCr, and the concentration of permeate water was
100.3mg/-CODCr. The removal efficiency was about 70.1%. The amount of ozone required
for the removal of the fluorescent whitening agent in the permeated water in SMBR
was 6.67g-O3/min, and the amount of ozone required to remove CODMn relative to the
permeate water was calculated to remove 0.997mg-CODMn for 1mg of O3. |
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Keywords membrane bio-reactor(mbr), ozone oxidation, paper and papermill, fluorescent
whitening agents, water reuse |
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Reference |
http://www.koreascience.or.kr/article/ArticleFullRecord.jsp?cn=OSGGBT_2018_v30n1_51&ordernum= |
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