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Effects of pH and concentration on the capability of E. coli and S. epidermidis with bentonite clay as biosorbent for the removal of Copper, Nickel and Lead from polluted water

机译：pH和浓度对膨润土粘土大肠杆菌和S.表皮的能力的影响。污染水除去铜，镍和铅的生物吸附剂

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This paper discusses the effects of pH and concentration on the capability of E. coli ATCC29522 and S. epidermidis RP62A biofilm with bentonite in removing divalent copper, nickel and lead from wastewater. Batch adsorption study at laboratory scale was utilized to evaluate the potential use of bacterial biomass (E. coli ATCC29522 and S. epidermidis RP62A) aided with geosynthetic clay (bentonite) for the removal of Cu~(2+), Ni~(2+) and Pb~(2+). Results revealed that removal of Cu~(2+), Ni~(2+) and Pb~(2+) by both types of organisms supported with bentonite were high in the first 4 hours of the experiment. This illustrates that the binding site on that particular time was abundant. Hence, the removal rate was evident at high concentration depicting the line adsorption equilibrium. It also revealed that S. epidermidis RP62A supported with bentonite had the highest affinity to Copper and Lead with Qm = 277.7 mg/g and 5.0075 mg/g, respectively. While E. coli ATCC 29522 had the highest affinity to Nickel (Qm= 58.82 mg/g). Hence, the sorption of Cu~(2+), Ni~(2+) and Pb~(2+) onto E. coli ATCC29522 and S. epidermidis RP62A biofilm supported with bentonite clay occurred through monolayer chemisorption on the homogeneous surface of E. coli ATCC29522 and S. epidermidis RP62A biofilm with bentonite clay. Batch kinetics studies revealed that the sorption of Cu~(2+), Ni~(2+) and Pb~(2+) onto E. coli ATCC29522 and S. epidermidis RP62A biofilm supported with bentonite clay was well described by a pseudo-second-order equation model of type 1 (R2 = 0.9999), which implies that chemisorption is the rate limiting step.

机译：本文讨论的pH值和浓度对大肠杆菌ATCC29522和表皮葡萄球菌与膨润土RP62A生物膜的能力在从废水中除去二价铜，镍和铅的影响。在实验室规模分批吸附研究来评价用于去除铜的〜（2+），镍〜（潜在用途的细菌生物质的（大肠杆菌ATCC29522和表皮葡萄球菌RP62A）用合成粘土辅助（膨润土）2+ ）和Pb〜（2+）。结果表明通过这两种类型的膨润土支持生物体使得移除铜〜（2+），镍〜（2+）和Pb〜（2+）的分别在最初4小时试验的高。这说明，在那个特定的时间的结合位点是丰富。因此，除去率在高浓度描绘线吸附平衡是显而易见的。它也表明，用膨润土支持表皮葡萄球菌RP62A不得不铜最高的亲和力，并用Qm的铅= 277.7 mg / g和，5.0075毫克/克分别。虽然大肠杆菌ATCC 29522具有最高的亲和力，以镍（QM = 58.82毫克/克）。因此，铜〜（2+），镍〜（2+）和Pb〜（2+）的到大肠杆菌ATCC29522和表皮葡萄球菌生物膜RP62A与膨润土支持的吸着通过单层化学吸附发生E的均匀的表面上大肠杆菌ATCC29522和表皮葡萄球菌与膨润土RP62A生物膜。批次动力学研究表明，铜〜（2+），镍〜（2+）和Pb〜（2+）的到大肠杆菌ATCC29522和表皮葡萄球菌生物膜RP62A与膨润土支持的吸着深受一个伪描述类型1（R2 = 0.9999）的第二阶方程模型，这意味着化学吸附是限速步骤。

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《International Conference on Applied Photonics and Electronics》|2017年|401p|共5页
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Delia B. Senoro; Josel B. Godezano; Meng-Wei Wan; Lemmuel L. Tayo; Zaliman Sauli; Hasnizah Aris;
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1. Effects of pH and concentration on the capability of E. coli and S. epidermidis with bentonite clay as biosorbent for the removal of Copper, Nickel and Lead from polluted water [J] . Delia B. Senoro, Josel B. Godezano, Meng-Wei Wan, EPJ Web of Conferences . 2017,第2期

机译：pH和浓度对膨润土作为生物吸附剂去除污水中铜，镍和铅的大肠杆菌和表皮葡萄球菌能力的影响
2. Reply to the comment on 'Acid Green 25 removal from wastewater by organo-bentonite from Pacitan' by R. Koswojo, R. P. Utomo, Y.-H. Ju, A. Ayucitra, F. E. Soetaredjo, J. Sunarso, S. Ismadji [Applied Clay Science 48 (2010) 81-86] [J] . Rhesa Pramudhita Utomo, Raymond Koswojo, Yi-Hsu Ju, Applied clay science . 2010,第1期

机译：R. Koswojo，R.P。Utomo，Y.-H对“从Pacitan中的有机膨润土中的酸性有机膨润土去除废水中的酸性绿25”的评论作出答复。 Ju，A. Ayucitra，F. E. Soetaredjo，J. Sunarso，S. Ismadji [应用粘土科学48（2010）81-86]
3. Comment on 'Acid Green 25 removal from wastewater by organo-bentonite from Pacitan' by R. Koswojo, R. P. Utomo, Y.-H. Ju, A. Ayucitra, F. E. Soetaredjo, J. Sunarso, S. Ismadji [Applied Clay Science 48 (2010) 81-86] [J] . Yuh-Shan Ho Applied clay science . 2010,第1期

机译：R. Koswojo，R.P。Utomo，Y.-H对“通过Pacitan中的有机膨润土从废水中去除酸性酸性25的评论”。 Ju，A. Ayucitra，F. E. Soetaredjo，J. Sunarso，S. Ismadji [应用粘土科学48（2010）81-86]
4. Effects of pH and concentration on the capability of E. coli and S. epidermidis with bentonite clay as biosorbent for the removal of Copper, Nickel and Lead from polluted water [C] . Delia B. Senoro, Josel B. Godezano, Meng-Wei Wan, International Conference on Applied Photonics and Electronics . 2017

机译：pH和浓度对膨润土粘土大肠杆菌和S.表皮的能力的影响。污染水除去铜，镍和铅的生物吸附剂
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7. Summaries of Recent North American Pre-Cambrian LiteratureThe Structure of the Piedmont Plateau as Shown in Maryland. Edward B. MathewsGenesis of the Amphibole Schists and Serpentines of Manhattan Island, New York. A. A. JulienGranites of North Carolina. T. L. WatsonThe Geological Structure of the Southwestern New England Region. William H. HobbsLineaments of the Atlantic Border Region.A Treatise on Metamorphism. Charles R. Van HiseThe Menominee Iron-Bearing District of Michigan. W. S. BayleyThe Menominee Special Folio. Charles R. Van Hise , W. S. BayleyThe Baraboo Iron-Bearing District of Wisconsin. S. WeidmanEconomic Resources of Moose River Basin. James M. BellThe Abitibi Region. George F. KayThe Classification of the Archean. A. P. ColemanThe Contact of the Archean and Post-Archean in the Region of the Great Lakes. A. B. WillmottThe Northern Nickel Range. A. P. ColemanReport on an Exploration of the East Coast of Hudson Bay. A. P. LowThe Newly Discovered Rock at Sioux Falls, South Dakota. J. E. ToddQuarrying Industry of Missouri. E. R. Buckley , H. A. BuehlerEconomic Resources of the Northern Black Hills. J. D. IrvingPreliminary Report on the Geology of the Arbuckle and Wichita Mountains in Indian Territory and Oklahoma. Joseph A. TaffAn Occurrence of Greenstone Schists in the San Juan Mountains, Colorado. Ernest HoweThe Copper Deposits of the Encampment District, Wyoming. Arthur C. SpencerA Geological Reconnaissance Across the Bitterroot Range and Clearwater Mountains in Montana and Idaho. Waldemar LindgrenThe Geology and Ore Deposits of the Bisbee Quadrangle. F. L. RansomeGeology of the Globe Copper District, Arizona.Description of the Globe Quadrangle.Description of the Bisbee Quadrangle.A Geological Reconnaissance Across the Bitterroot Range and Clear-water Mountains in Montana and Idaho. Waldemar Lindgren [O] . C. K. Leith 1905

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Effects of pH and concentration on the capability of E. coli and S. epidermidis with bentonite clay as biosorbent for the removal of Copper, Nickel and Lead from polluted water

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