P. Maharaja, M. Mahesh, N. Patchaimurugan, S. Swarnalatha, G. Sekaran
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引用次数: 0
摘要
屠宰场废水由中等至高强度的复杂废水组成,其中含有约45%的可溶性有机物和55%的粗悬浮有机物,具有高COD和BOD水平。传统的废水处理方法不能有效地处理屠宰场废水。因此,一个四级顺序厌氧/好氧固定化生物反应器系统,包括一个两级流态化厌氧固定化反应器(FAIR - I和FAIR - II),一个流态化固定化细胞碳氧化(FICCO)反应器和一个化学自养活性炭氧化(CAACO)反应器,在一个屠宰场进行了试验,处理3立方米/天至17立方米/天的废水。采用纳米多孔活性炭(NPAC)固定反应器中的微生物。NPAC BET的比表面积为291 m2/g,平均孔径为28 Å。利用ESR谱法计算出NPAC中的自旋密度(自由电子)为16 x 1018个自旋/g。总体NH3-N、TKN、COD和BOD去除率分别为64%、71%、82%和85%。多变量分析(PCA和聚类分析)发现,FICCO和CAACO反应器对COD的去除效果优于FAIR反应器。通过紫外-可见光谱和紫外-荧光光谱分析证实了其治疗效果。
Treatment of Slaughterhouse Wastewater by Integrated Anaerobic/Aerobic Bioreactors Loaded with Immobilized Nanoporous Activated Carbon
Slaughterhouse wastewater consists of moderate to high strength complex wastewater comprising about 45% soluble and 55% coarse suspended organics exhibiting high COD and BOD levels. Conventional wastewater treatment methods cannot effectively treat slaughterhouse wastewater. Thus, a four-stage sequential anaerobic/aerobic immobilized bio reactor system comprising a two stage Fluidized Anaerobic immobilized Reactor (FAIR – I and FAIR – II), a Fluidized Immobilized Cell Carbon Oxidation (FICCO) reactor and a Chemo Autotrophic Activated Carbon Oxidation (CAACO) reactor was tested in a slaughterhouse treating wastewater between 3 m3 /day to 17 m3 /day. Nanoporous activated carbon (NPAC) was used for the immobilization of microorganisms in all of the reactors. The NPAC BET surface area was found to be 291 m2/g with the average pore diameter of 28 Å. Spin density (free electrons) in the NPAC, was calculated to be 16 x 1018 spins/g using ESR spectroscopy. The overall NH3-N, TKN, COD and BOD removal efficiency was 64%, 71%, 82% and 85% respectively. Multivariate analysis (PCA and cluster analysis) found that the COD removal by the FICCO and CAACO reactors is more efficient than the FAIR reactors. The treatment was confirmed through UV-visible and UV-fluorescence spectroscopic analysis.
期刊介绍:
The Journal of the American Leather Chemists Association publishes manuscripts on all aspects of leather science, engineering, technology, and economics, and will consider related subjects that address concerns of the industry. Examples: hide/skin quality or utilization, leather production methods/equipment, tanning materials/leather chemicals, new and improved leathers, collagen studies, leather by-products, impacts of changes in leather products industries, process efficiency, sustainability, regulatory, safety, environmental, tannery waste management and industry economics.
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