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  • Source: Desalination. Unidade: EP

    Subjects: REÚSO DA ÁGUA, CRISTALIZAÇÃO

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    • ABNT

      ZAGO, Gustavo Pereira e PENHA, Frederico Marques e SECKLER, Marcelo Martins. Product characteristics in simultaneous crystallization of NaCl and CaSO4 from aqueous solution with seeding. Desalination, v. 474, p. 1-16, 2020Tradução . . Disponível em: https://doi.org/10.1016/j.desal.2019.114180. Acesso em: 27 nov. 2022.
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      Zago, G. P., Penha, F. M., & Seckler, M. M. (2020). Product characteristics in simultaneous crystallization of NaCl and CaSO4 from aqueous solution with seeding. Desalination, 474, 1-16. doi:10.1016/j.desal.2019.114180
    • NLM

      Zago GP, Penha FM, Seckler MM. Product characteristics in simultaneous crystallization of NaCl and CaSO4 from aqueous solution with seeding [Internet]. Desalination. 2020 ; 474 1-16.[citado 2022 nov. 27 ] Available from: https://doi.org/10.1016/j.desal.2019.114180
    • Vancouver

      Zago GP, Penha FM, Seckler MM. Product characteristics in simultaneous crystallization of NaCl and CaSO4 from aqueous solution with seeding [Internet]. Desalination. 2020 ; 474 1-16.[citado 2022 nov. 27 ] Available from: https://doi.org/10.1016/j.desal.2019.114180
  • Source: Desalination. Unidade: EP

    Subjects: TROCA IÔNICA, GALVANOPLASTIA, ELETRODIÁLISE

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    • ABNT

      BARROS, Kayo Santana et al. A three-stage chemical cleaning of ion-exchange membranes used in the treatment by electrodialysis of wastewaters generated in brass electroplating industries. Desalination, v. 492, 2020Tradução . . Acesso em: 27 nov. 2022.
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      Barros, K. S., Martí-Calatayud, M. C., Pérez-Herranz, V., & Espinosa, D. C. R. (2020). A three-stage chemical cleaning of ion-exchange membranes used in the treatment by electrodialysis of wastewaters generated in brass electroplating industries. Desalination, 492. doi:10.1016/j.desal.2020.114628
    • NLM

      Barros KS, Martí-Calatayud MC, Pérez-Herranz V, Espinosa DCR. A three-stage chemical cleaning of ion-exchange membranes used in the treatment by electrodialysis of wastewaters generated in brass electroplating industries. Desalination. 2020 ; 492[citado 2022 nov. 27 ]
    • Vancouver

      Barros KS, Martí-Calatayud MC, Pérez-Herranz V, Espinosa DCR. A three-stage chemical cleaning of ion-exchange membranes used in the treatment by electrodialysis of wastewaters generated in brass electroplating industries. Desalination. 2020 ; 492[citado 2022 nov. 27 ]
  • Source: Desalination. Unidade: EP

    Subjects: CRISTALIZAÇÃO, TRATAMENTO DE ÁGUAS RESIDUÁRIAS, REÚSO DA ÁGUA

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    • ABNT

      ZAGO, Gustavo Pereira e PENHA, Frederico Marques e SECKLER, Marcelo Martins. Product characteristics in simultaneous crystallization of NaCl and CaSO4 from aqueous solution under different evaporation rates: seeding with KCl. Desalination, v. 457, p. 85-95, 2019Tradução . . Disponível em: https://doi.org/10.1016/j.desal.2019.01.021. Acesso em: 27 nov. 2022.
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      Zago, G. P., Penha, F. M., & Seckler, M. M. (2019). Product characteristics in simultaneous crystallization of NaCl and CaSO4 from aqueous solution under different evaporation rates: seeding with KCl. Desalination, 457, 85-95. doi:10.1016/j.desal.2019.01.021
    • NLM

      Zago GP, Penha FM, Seckler MM. Product characteristics in simultaneous crystallization of NaCl and CaSO4 from aqueous solution under different evaporation rates: seeding with KCl [Internet]. Desalination. 2019 ; 457 85-95.[citado 2022 nov. 27 ] Available from: https://doi.org/10.1016/j.desal.2019.01.021
    • Vancouver

      Zago GP, Penha FM, Seckler MM. Product characteristics in simultaneous crystallization of NaCl and CaSO4 from aqueous solution under different evaporation rates: seeding with KCl [Internet]. Desalination. 2019 ; 457 85-95.[citado 2022 nov. 27 ] Available from: https://doi.org/10.1016/j.desal.2019.01.021
  • Source: Desalination. Unidade: EP

    Subjects: ELETRODIÁLISE, ÍONS, COBRE

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    • ABNT

      SCARAZZATO, Tatiana et al. Water reclamation and chemicals recovery from a novel cyanide-free copper plating bath using electrodialysis membrane process. Desalination, v. 436, n. Ju 2018, p. 114-124, 2018Tradução . . Acesso em: 27 nov. 2022.
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      Scarazzato, T., Pérez-Herranz, V., Espinosa, D. C. R., Tenório, J. A. S., & Panossian, Z. (2018). Water reclamation and chemicals recovery from a novel cyanide-free copper plating bath using electrodialysis membrane process. Desalination, 436( Ju 2018), 114-124. doi:10.1016/j.desal.2018.01.005
    • NLM

      Scarazzato T, Pérez-Herranz V, Espinosa DCR, Tenório JAS, Panossian Z. Water reclamation and chemicals recovery from a novel cyanide-free copper plating bath using electrodialysis membrane process. Desalination. 2018 ; 436( Ju 2018): 114-124.[citado 2022 nov. 27 ]
    • Vancouver

      Scarazzato T, Pérez-Herranz V, Espinosa DCR, Tenório JAS, Panossian Z. Water reclamation and chemicals recovery from a novel cyanide-free copper plating bath using electrodialysis membrane process. Desalination. 2018 ; 436( Ju 2018): 114-124.[citado 2022 nov. 27 ]
  • Source: Desalination. Unidade: EP

    Subjects: ELETRODIÁLISE, DRENAGEM EM MINAS, ÁCIDO SULFÚRICO

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    • ABNT

      MARTÍ-CALATAYUD, Manuel César et al. Sulfuric acid recovery from acid mine drainage by means of electrodialysis. Desalination, v. 343, n. Ju 2014, p. 120-127, 2014Tradução . . Disponível em: http://www.sciencedirect.com/science/article/pii/S0011916413005560. Acesso em: 27 nov. 2022.
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      Martí-Calatayud, M. C., Buzzi, D. C., García-Gabaldón, M., Ortega, E., Bernardes, A. M., Tenório, J. A. S., & Pérez-Herranz, V. (2014). Sulfuric acid recovery from acid mine drainage by means of electrodialysis. Desalination, 343( Ju 2014), 120-127. doi:10.1016/j.desal.2013.11.031
    • NLM

      Martí-Calatayud MC, Buzzi DC, García-Gabaldón M, Ortega E, Bernardes AM, Tenório JAS, Pérez-Herranz V. Sulfuric acid recovery from acid mine drainage by means of electrodialysis [Internet]. Desalination. 2014 ;343( Ju 2014): 120-127.[citado 2022 nov. 27 ] Available from: http://www.sciencedirect.com/science/article/pii/S0011916413005560
    • Vancouver

      Martí-Calatayud MC, Buzzi DC, García-Gabaldón M, Ortega E, Bernardes AM, Tenório JAS, Pérez-Herranz V. Sulfuric acid recovery from acid mine drainage by means of electrodialysis [Internet]. Desalination. 2014 ;343( Ju 2014): 120-127.[citado 2022 nov. 27 ] Available from: http://www.sciencedirect.com/science/article/pii/S0011916413005560
  • Source: Desalination. Unidade: EP

    Subjects: TRATAMENTO DE ÁGUA, ÁGUA POTÁVEL, ULTRAFILTRAÇÃO, NANOPARTÍCULAS, ARGILAS

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    • ABNT

      MIERZWA, José Carlos et al. Effect of clay nanoparticles on the structure and performance of polyethersulfone ultrafiltration membranes. Desalination, v. 314, p. 147-158, 2013Tradução . . Disponível em: https://doi.org/10.1016/j.desal.2013.01.011. Acesso em: 27 nov. 2022.
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      Mierzwa, J. C., Arieta, V. S., Verlage, M., Carvalho, J., & Vecitis, C. D. (2013). Effect of clay nanoparticles on the structure and performance of polyethersulfone ultrafiltration membranes. Desalination, 314, 147-158. doi:10.1016/j.desal.2013.01.011
    • NLM

      Mierzwa JC, Arieta VS, Verlage M, Carvalho J, Vecitis CD. Effect of clay nanoparticles on the structure and performance of polyethersulfone ultrafiltration membranes [Internet]. Desalination. 2013 ; 314 147-158.[citado 2022 nov. 27 ] Available from: https://doi.org/10.1016/j.desal.2013.01.011
    • Vancouver

      Mierzwa JC, Arieta VS, Verlage M, Carvalho J, Vecitis CD. Effect of clay nanoparticles on the structure and performance of polyethersulfone ultrafiltration membranes [Internet]. Desalination. 2013 ; 314 147-158.[citado 2022 nov. 27 ] Available from: https://doi.org/10.1016/j.desal.2013.01.011
  • Source: Desalination. Unidade: EP

    Subjects: ÁGUA POTÁVEL, ULTRAFILTRAÇÃO

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    • ABNT

      MIERZWA, José Carlos et al. Enhancing spiral-wound ultrafiltration performance for direct drinking water treatment through operational procedures improvement: a feasible option for the Sao Paulo metropolitan region. Desalination, v. 307, p. 68-75, 2012Tradução . . Disponível em: https://doi.org/10.1016/j.desal.2012.09.006. Acesso em: 27 nov. 2022.
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      Mierzwa, J. C., Silva, M. C. C. da, Veras, L. R. V., Subtil, E. L., Rodrigues, R., Li, T., & Landenberger, K. R. (2012). Enhancing spiral-wound ultrafiltration performance for direct drinking water treatment through operational procedures improvement: a feasible option for the Sao Paulo metropolitan region. Desalination, 307, 68-75. doi:10.1016/j.desal.2012.09.006
    • NLM

      Mierzwa JC, Silva MCC da, Veras LRV, Subtil EL, Rodrigues R, Li T, Landenberger KR. Enhancing spiral-wound ultrafiltration performance for direct drinking water treatment through operational procedures improvement: a feasible option for the Sao Paulo metropolitan region [Internet]. Desalination. 2012 ; 307 68-75.[citado 2022 nov. 27 ] Available from: https://doi.org/10.1016/j.desal.2012.09.006
    • Vancouver

      Mierzwa JC, Silva MCC da, Veras LRV, Subtil EL, Rodrigues R, Li T, Landenberger KR. Enhancing spiral-wound ultrafiltration performance for direct drinking water treatment through operational procedures improvement: a feasible option for the Sao Paulo metropolitan region [Internet]. Desalination. 2012 ; 307 68-75.[citado 2022 nov. 27 ] Available from: https://doi.org/10.1016/j.desal.2012.09.006
  • Source: Desalination. Unidades: EESC, FZEA

    Subjects: TRATAMENTO DE ÁGUAS RESIDUÁRIAS, ÁGUAS RESIDUÁRIAS, REATORES ANAERÓBIOS

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    • ABNT

      GOMES, Douglas R. da Silva et al. Effect of enzymatic pretreatment and increasing the organic loading rate of lipid-rich wastewater treated in a hybrid UASB reactor. Desalination, v. 279, n. 1-3, p. 96-103, 2011Tradução . . Disponível em: http://dx.doi.org/doi:10.1016/j.desal.2011.05.067. Acesso em: 27 nov. 2022.
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      Gomes, D. R. da S., Papa, L. G., Cichello, G. C. V., Belançon, D., Pozzi, E., Balieiro, J. C. de C., et al. (2011). Effect of enzymatic pretreatment and increasing the organic loading rate of lipid-rich wastewater treated in a hybrid UASB reactor. Desalination, 279( 1-3), 96-103. doi:10.1016/j.desal.2011.05.067
    • NLM

      Gomes DR da S, Papa LG, Cichello GCV, Belançon D, Pozzi E, Balieiro JC de C, Monterrey-Quintero ES, Tommaso G. Effect of enzymatic pretreatment and increasing the organic loading rate of lipid-rich wastewater treated in a hybrid UASB reactor [Internet]. Desalination. 2011 ; 279( 1-3): 96-103.[citado 2022 nov. 27 ] Available from: http://dx.doi.org/doi:10.1016/j.desal.2011.05.067
    • Vancouver

      Gomes DR da S, Papa LG, Cichello GCV, Belançon D, Pozzi E, Balieiro JC de C, Monterrey-Quintero ES, Tommaso G. Effect of enzymatic pretreatment and increasing the organic loading rate of lipid-rich wastewater treated in a hybrid UASB reactor [Internet]. Desalination. 2011 ; 279( 1-3): 96-103.[citado 2022 nov. 27 ] Available from: http://dx.doi.org/doi:10.1016/j.desal.2011.05.067
  • Source: Desalination. Unidade: EESC

    Subjects: PRENSAGEM, SACAROSE

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    • ABNT

      DEL COLLE, Roberta e FORTULAN, Carlos Alberto e FONTES, Sérgio Rodrigues. Manufacture of ceramic membranes for application in demulsification process for cross-flow microfiltration. Desalination, v. 245, n. 1-3, p. 527-532, 2009Tradução . . Disponível em: http://dx.doi.org/10.1016/j.desal.2009.02.016. Acesso em: 27 nov. 2022.
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      Del Colle, R., Fortulan, C. A., & Fontes, S. R. (2009). Manufacture of ceramic membranes for application in demulsification process for cross-flow microfiltration. Desalination, 245( 1-3), 527-532. doi:10.1016/j.desal.2009.02.016
    • NLM

      Del Colle R, Fortulan CA, Fontes SR. Manufacture of ceramic membranes for application in demulsification process for cross-flow microfiltration [Internet]. Desalination. 2009 ; 245( 1-3): 527-532.[citado 2022 nov. 27 ] Available from: http://dx.doi.org/10.1016/j.desal.2009.02.016
    • Vancouver

      Del Colle R, Fortulan CA, Fontes SR. Manufacture of ceramic membranes for application in demulsification process for cross-flow microfiltration [Internet]. Desalination. 2009 ; 245( 1-3): 527-532.[citado 2022 nov. 27 ] Available from: http://dx.doi.org/10.1016/j.desal.2009.02.016
  • Source: Desalination. Unidade: EESC

    Subject: TRATAMENTO DE ÁGUAS RESIDUÁRIAS

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      SARTI, Arnaldo et al. Post-treatment of effluents from the sulfate reduction process by anaerobic sequencing batch biofilm reactors. Desalination, v. 237, n. 1-3, p. 243-253, 2009Tradução . . Disponível em: http://dx.doi.org/10.1016/j.desal.2007.12.034. Acesso em: 27 nov. 2022.
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      Sarti, A., Côrtes, R. S., Hirasawa, J. S., Pires, E. C., & Foresti, E. (2009). Post-treatment of effluents from the sulfate reduction process by anaerobic sequencing batch biofilm reactors. Desalination, 237( 1-3), 243-253. doi:10.1016/j.desal.2007.12.034
    • NLM

      Sarti A, Côrtes RS, Hirasawa JS, Pires EC, Foresti E. Post-treatment of effluents from the sulfate reduction process by anaerobic sequencing batch biofilm reactors [Internet]. Desalination. 2009 ; 237( 1-3): 243-253.[citado 2022 nov. 27 ] Available from: http://dx.doi.org/10.1016/j.desal.2007.12.034
    • Vancouver

      Sarti A, Côrtes RS, Hirasawa JS, Pires EC, Foresti E. Post-treatment of effluents from the sulfate reduction process by anaerobic sequencing batch biofilm reactors [Internet]. Desalination. 2009 ; 237( 1-3): 243-253.[citado 2022 nov. 27 ] Available from: http://dx.doi.org/10.1016/j.desal.2007.12.034
  • Source: Desalination. Unidade: EESC

    Subjects: REATORES ANAERÓBIOS, ETANOL, CARVÃO MINERAL, EFLUENTES

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      SARTI, Arnaldo et al. The treatment of sulfate-rich wastewater using an anaerobic sequencing batch biofilm pilot-scale reactor. Desalination, v. No 2009, n. 1, p. 241-246, 2009Tradução . . Disponível em: http://www.sciencedirect.com/science?_ob=MImg&_imagekey=B6TFX-4XC3X3Y-6-9&_cdi=5238&_user=5674931&_orig=browse&_coverDate=11%2F30%2F2009&_sk=997509998&view=c&wchp=dGLbVlb-zSkzk&md5=a953e6c7554ecff9c045bc1894d97e22&ie=/sdarticle.pdf. Acesso em: 27 nov. 2022.
    • APA

      Sarti, A., Silva, A. J. da, Zaiat, M., & Foresti, E. (2009). The treatment of sulfate-rich wastewater using an anaerobic sequencing batch biofilm pilot-scale reactor. Desalination, No 2009( 1), 241-246. doi:10.1016/j.desal.2008.08.017
    • NLM

      Sarti A, Silva AJ da, Zaiat M, Foresti E. The treatment of sulfate-rich wastewater using an anaerobic sequencing batch biofilm pilot-scale reactor [Internet]. Desalination. 2009 ; No 2009( 1): 241-246.[citado 2022 nov. 27 ] Available from: http://www.sciencedirect.com/science?_ob=MImg&_imagekey=B6TFX-4XC3X3Y-6-9&_cdi=5238&_user=5674931&_orig=browse&_coverDate=11%2F30%2F2009&_sk=997509998&view=c&wchp=dGLbVlb-zSkzk&md5=a953e6c7554ecff9c045bc1894d97e22&ie=/sdarticle.pdf
    • Vancouver

      Sarti A, Silva AJ da, Zaiat M, Foresti E. The treatment of sulfate-rich wastewater using an anaerobic sequencing batch biofilm pilot-scale reactor [Internet]. Desalination. 2009 ; No 2009( 1): 241-246.[citado 2022 nov. 27 ] Available from: http://www.sciencedirect.com/science?_ob=MImg&_imagekey=B6TFX-4XC3X3Y-6-9&_cdi=5238&_user=5674931&_orig=browse&_coverDate=11%2F30%2F2009&_sk=997509998&view=c&wchp=dGLbVlb-zSkzk&md5=a953e6c7554ecff9c045bc1894d97e22&ie=/sdarticle.pdf
  • Source: Desalination. Unidade: EP

    Subjects: ENERGIA EÓLICA, ÁGUA DESSALINIZADA

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      FADIGAS, Eliane Aparecida Faria Amaral e DIAS, J. Desalination of water by reverse osmosis using gravitational potencial energy and wind energy. Desalination, v. 237, n. 1-3, 2009Tradução . . Acesso em: 27 nov. 2022.
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      Fadigas, E. A. F. A., & Dias, J. (2009). Desalination of water by reverse osmosis using gravitational potencial energy and wind energy. Desalination, 237( 1-3). doi:10.1016/j.desal.2007.12.029
    • NLM

      Fadigas EAFA, Dias J. Desalination of water by reverse osmosis using gravitational potencial energy and wind energy. Desalination. 2009 ; 237( 1-3):[citado 2022 nov. 27 ]
    • Vancouver

      Fadigas EAFA, Dias J. Desalination of water by reverse osmosis using gravitational potencial energy and wind energy. Desalination. 2009 ; 237( 1-3):[citado 2022 nov. 27 ]
  • Source: Desalination. Unidade: EP

    Subjects: TRATAMENTO DE ÁGUA, ULTRAFILTRAÇÃO, RESERVATÓRIOS

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      MIERZWA, José Carlos et al. Direct drinking water treatment by spiral-wound ultrafiltration membranes. Desalination, v. 230, p. 41-50, 2008Tradução . . Acesso em: 27 nov. 2022.
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      Mierzwa, J. C., Hespanhol, I., Silva, M. C. C., Rodrigues, L. D. B., & Giorgi, C. F. (2008). Direct drinking water treatment by spiral-wound ultrafiltration membranes. Desalination, 230, 41-50. doi:10.1016/j.desal.2007.11.014
    • NLM

      Mierzwa JC, Hespanhol I, Silva MCC, Rodrigues LDB, Giorgi CF. Direct drinking water treatment by spiral-wound ultrafiltration membranes. Desalination. 2008 ;230 41-50.[citado 2022 nov. 27 ]
    • Vancouver

      Mierzwa JC, Hespanhol I, Silva MCC, Rodrigues LDB, Giorgi CF. Direct drinking water treatment by spiral-wound ultrafiltration membranes. Desalination. 2008 ;230 41-50.[citado 2022 nov. 27 ]
  • Source: Desalination. Unidade: EESC

    Subjects: TRATAMENTO BIOLÓGICO ANAERÓBIO, RESÍDUOS RESIDENCIAIS, REATORES ANAERÓBIOS

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      SARTI, Arnaldo et al. Anaerobic sequencing batch reactors in pilot-scale for domestic sewage treatment. Desalination, v. 216, n. 1-3, p. 174-182, 2007Tradução . . Disponível em: http://www.sciencedirect.com/science?_ob=MImg&_imagekey=B6TFX-4PT1RWN-D-1&_cdi=5238&_user=5674931&_orig=browse&_coverDate=10%2F05%2F2007&_sk=997839998&view=c&wchp=dGLzVlz-zSkzk&md5=be0c10fb84225840ed459867e276dd39&ie=/sdarticle.p. Acesso em: 27 nov. 2022.
    • APA

      Sarti, A., Fernandes, B. S., Zaiat, M., & Foresti, E. (2007). Anaerobic sequencing batch reactors in pilot-scale for domestic sewage treatment. Desalination, 216( 1-3), 174-182. doi:10.1016/j.desal.2007.01.007
    • NLM

      Sarti A, Fernandes BS, Zaiat M, Foresti E. Anaerobic sequencing batch reactors in pilot-scale for domestic sewage treatment [Internet]. Desalination. 2007 ; 216( 1-3): 174-182.[citado 2022 nov. 27 ] Available from: http://www.sciencedirect.com/science?_ob=MImg&_imagekey=B6TFX-4PT1RWN-D-1&_cdi=5238&_user=5674931&_orig=browse&_coverDate=10%2F05%2F2007&_sk=997839998&view=c&wchp=dGLzVlz-zSkzk&md5=be0c10fb84225840ed459867e276dd39&ie=/sdarticle.p
    • Vancouver

      Sarti A, Fernandes BS, Zaiat M, Foresti E. Anaerobic sequencing batch reactors in pilot-scale for domestic sewage treatment [Internet]. Desalination. 2007 ; 216( 1-3): 174-182.[citado 2022 nov. 27 ] Available from: http://www.sciencedirect.com/science?_ob=MImg&_imagekey=B6TFX-4PT1RWN-D-1&_cdi=5238&_user=5674931&_orig=browse&_coverDate=10%2F05%2F2007&_sk=997839998&view=c&wchp=dGLzVlz-zSkzk&md5=be0c10fb84225840ed459867e276dd39&ie=/sdarticle.p
  • Source: Desalination. Unidade: EESC

    Subjects: ESCHERICHIA COLI, MEMBRANAS FILTRANTES, TRATAMENTO DE ÁGUAS RESIDUÁRIAS

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    • ABNT

      HANEDA, Renata Natsumi et al. Microfiltration with chemistry treating of commercial membranes and microporous tubes for retention of bacteria E. coli on processing of wastewater of dairy products. Desalination, v. 200, n. 1-3, p. 313-315, 2006Tradução . . Disponível em: http://dx.doi.org/10.1016/j.desal.2006.03.325. Acesso em: 27 nov. 2022.
    • APA

      Haneda, R. N., Ikegami, R. A., Fortulan, C. A., Purquerio, B. de M., Longo, E., & Fontes, S. R. (2006). Microfiltration with chemistry treating of commercial membranes and microporous tubes for retention of bacteria E. coli on processing of wastewater of dairy products. Desalination, 200( 1-3), 313-315. doi:10.1016/j.desal.2006.03.325
    • NLM

      Haneda RN, Ikegami RA, Fortulan CA, Purquerio B de M, Longo E, Fontes SR. Microfiltration with chemistry treating of commercial membranes and microporous tubes for retention of bacteria E. coli on processing of wastewater of dairy products [Internet]. Desalination. 2006 ; 200( 1-3): 313-315.[citado 2022 nov. 27 ] Available from: http://dx.doi.org/10.1016/j.desal.2006.03.325
    • Vancouver

      Haneda RN, Ikegami RA, Fortulan CA, Purquerio B de M, Longo E, Fontes SR. Microfiltration with chemistry treating of commercial membranes and microporous tubes for retention of bacteria E. coli on processing of wastewater of dairy products [Internet]. Desalination. 2006 ; 200( 1-3): 313-315.[citado 2022 nov. 27 ] Available from: http://dx.doi.org/10.1016/j.desal.2006.03.325

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