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	Provedor de dados 58 (18) 69 (17) 52 (13) 111 (3) 5 (2) 64 (2) 70 (2) 117 (1) 42 (1) 60 (1) 65 (1) 98 (1) Mais... Autor Abud-Archila,Miguel (2) Banerjee,Rintu (2) Berge, Jean-pascal (2) Dendooven,Luc (2) Kantachote,Duangporn (2) Tan,Hong (2) Ventura-Canseco,Lucía María Cristina (2) Yang,Jie (2) Zhang,Xiaoyong (2) Zhong,Juan (2) Zhou,Jinyan (2) Zhou,Ligang (2) Abdelwahed,Nayera A.M. (1) Abdolmaleki, Hamid (1) Ahuja, Geetika (1) Alam, Md. Shafiq (1) Ali,Mohd (1) Allery, Marion (1) Almeida,Eveline Lopes (1) Almeida,Paulo F. de (1) Mais... Palavra-chave Response surface methodology (62) Optimization (10) Central composite design (6) Solid state fermentation (4) Bacillus subtilis ZK8 (3) Bacteriocin (3) Bioremediation (2) Cell adsorption (2) Glucosyltransferase (2) Immobilization (2) Jiean- peptide (2) Lovastatin (2) Modeling (2) Plackett-Burman design (2) Production (2) Sardine (2) Wood chips (2) Acinetobacter sp. (1) African yam bean (1) Alkaline lipase (1) Mais... Tipo do documento Info:eu-repo/semantics/article (41) Journal article (19) Text (2) Ano 2019 (1) 2018 (2) 2017 (2) 2016 (7) 2015 (7) 2014 (8) 2013 (6) 2012 (3) 2011 (8) 2010 (8) 2009 (6) 2008 (1) 2006 (1) 2004 (1) 2003 (1) Mais... País Brazil (38) Chile (18) China (3) France (2) Cuba (1) Idioma Inglês (62)		Registro completo Provedor de dados:  69 País:  Chile Título:  Bioaugmentation of latex rubber sheet wastewater treatment with stimulated indigenous purple nonsulfur bacteria by fermented pineapple extract Autores:  Kornochalert,Nastee Kantachote,Duangporn Chaiprapat,Sumate Techkarnjanaruk,Somkiet Data:  2014-07-01 Ano:  2014 Palavras-chave:  Bioremediation Fermented plant extract Response surface methodology Rotten-egg odor Rubber wastewater Resumo:  Background Treating latex rubber sheet wastewater often leads to the generation of a rotten-egg odor from toxic H2S. To increase the treatment efficiency and eliminate H2S, purple nonsulfur bacteria (PNSB), prepared by supplementing non-sterile rubber sheet wastewater (RAW) with fermented pineapple extract (FPE), were used to treat this wastewater under microaerobic light conditions. The following 3 independent variables: chemical oxygen demand (COD), initial pH and FPE dose were investigated using the Box-Behnken design to find optimal conditions for stimulating the growth of indigenous PNSB (PNSBsi). Results The addition of 2.0% FPE into RAW, which had a COD of 2000 mg L- 1 and an initial pH of 7.0, significantly decreased oxidation reduction potential (ORP) value and stimulated PNSBsi to reach a maximum of 7.8 log cfu mL- 1 within 2 d. Consequently, these PNSBsi, used as inoculants, were investigated for their ability to treat the wastewater under microaerobic light conditions. A central composite design was used to determine the optimal conditions for the wastewater treatment. These proved to be 7% PNSBsi, 0.8% FPE and 4 d retention time and this combination resulted in a reduction of 91% for COD, 75% for suspended solids, 61% for total sulfide while H2S was not detected. Results of abiotic control and treatment sets indicated that H2S was produced by heterotrophic bacteria and it was then effectively deactivated by PNSBsi. Conclusions The stimulation of PNSB growth by FPE under light condition was to lower ORP, and PNSBsi proved to be effective for treating the wastewater. Tipo:  Journal article Idioma:  Inglês Identificador:  http://www.scielo.cl/scielo.php?script=sci_arttext&pid=S0717-34582014000400006 Editor:  Pontificia Universidad Católica de Valparaíso Formato:  text/html Fonte:  Electronic Journal of Biotechnology v.17 n.4 2014 Fechar

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