Aerobic biological treatment of olive mill wastewater by olive pulp bacteria.

Tziotzios G; Michailakis S; Vayenas D V

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Aerobic biological treatment of olive mill wastewater by olive pulp bacteria.

机译：橄榄果肉细菌的好氧生物处理橄榄磨坊废水。

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The capability of olive fruit bacteria to remove chemical oxygen demand (COD) and phenolic compounds from olive mill wastewater (OMW) using flasks and packed bed reactors was tested. Batch aerobic experiments were performed in flask reactors, with OMW at different dilutions (20%, 50%, and 100%). The maximum phenolic and dissolved COD removal reached up to 82-90% for the dilutions of 20%, 50%, and 100%, in 11, 23, and 30 days, respectively. Experiments were also conducted in a bench and a pilot-scale packed bed reactor, operated in the laboratory and at an olive mill, respectively. At 28 degrees C the maximum phenolic and dissolved COD removal, recorded at the bench-scale reactor, reached about 60% and 70%, respectively, for a time period of only 27 h. At the pilot-scale reactor, where the maximum daily temperature varied between 6 and 20 degrees C, the maximum phenolic and d-COD removal reached about 55% and 70% in 5 and 3 days, respectively. These results indicate an economically feasible method for OMW biodegradation.

机译：测试了橄榄果细菌使用烧瓶和填充床反应器去除橄榄磨厂废水（OMW）中的化学需氧量（COD）和酚类化合物的能力。在烧瓶反应器中进行分批有氧实验，OMW的稀释度不同（20％，50％和100％）。对于20％，50％和100％的稀释液，分别在11、23和30天内，最大的酚类和溶解的COD去除率达到82-90％。还分别在实验室和橄榄磨房中的台式和中规模填充床反应器中进行了实验。在28摄氏度下，台式反应器记录的最大酚类和溶解COD去除率仅27小时，分别达到约60％和70％。在中试规模的反应器中，日最高温度在6至20摄氏度之间变化，在5天和3天内，最大的酚类和d-COD去除率分别达到约55％和70％。这些结果表明OMW生物降解的经济可行的方法。

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《International Biodeterioration & Biodegradation 》 |2007年第4期| 共6页
作者
Tziotzios G; Michailakis S; Vayenas D V;
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原文格式 PDF
正文语种 eng
中图分类微生物学 ;
关键词
aerobic treatment; biodegradation; biological treatment; bioreactors; chemical oxygen demand; olive pulp; phenolic compounds; waste water; waste water treatment;

机译：好氧处理;生物降解;生物处理;生物反应器;化学需氧量;橄榄油浆;酚类化合物;废水;废水处理;

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1. Aerobic biological treatment of olive mill wastewater by olive pulp bacteria. [J] . Tziotzios G, Michailakis S, Vayenas D V International Biodeterioration & Biodegradation . 2007 ,第4期

机译：橄榄果肉细菌的好氧生物处理橄榄磨坊废水。
2. Treatment of olive mill wastewater using a coagulation-flocculation process either as a single step or as post-treatment after aerobic biological treatment [J] . Katerina Pelendridou, Michail K.Michailides, Dimitris P. Zagklis, Journal of Chemical Technology & Biotechnology . 2014 ,第12期

机译：使用混凝-絮凝工艺处理好氧厂废水或将其作为一个步骤或在好氧生物处理后进行后处理
3. Olive mill wastewater treatment using infiltration percolation in column followed by aerobic biological treatment [J] . A. Benamar, F. Z. Mahjoubi, N. Barka, SN Applied Sciences . 2020 ,第4期

机译：柱中渗透渗滤然后好氧生物处理的橄榄磨废水处理
4. BIOLOGICAL AND PHOTO-FENTON TREATMENT OF OLIVE OIL MILL WASTEWATER [C] . F. FERREIRA, L. CARVALHO, R. PEREIRA International Conference on Environmental Science and Technology . 2007

机译：橄榄油厂废水的生物和光芬治疗
5. Advanced oxidation methods for the treatment of the olive oil mill wastewaters. [D] . Arques Sanz, Antonio. 2001

机译：用于处理橄榄油厂废水的高级氧化方法。
6. Fitting Biochars and Activated Carbons from Residues of the Olive Oil Industry as Supports of Fe- Catalysts for the Heterogeneous Fenton-Like Treatment of Simulated Olive Mill Wastewater [O] . Bruno M. Esteves, Sergio Morales-Torres, Francisco J. Maldonado-Hódar, 2020

机译：拟合橄榄油工业残渣中的生物炭和活性炭作为铁催化剂的支持用于类似Fenton的模拟橄榄磨坊废水的多相处理
7. Olive mill wastewater treatment using infiltration percolation in column followed by aerobic biological treatment [O] . A. Benamar, F. Z. Mahjoubi, N. Barka, 2020

机译：橄榄磨废水处理在柱子中使用渗透渗透，然后是有氧生物处理

Aerobic biological treatment of olive mill wastewater by olive pulp bacteria.

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