Water purification by means of membranes in the city of Pampas -Tayacaja
PDF (Español (España))

Keywords

Membranes
water purification
water treatment Membranas
purificación del agua
tratamiento del agua

How to Cite

Gutierrez Collao, J. E., Galindo Rojas, J. S., Lopez Yupanqui, G. M., Orellana Reyes, D. E., Mendoza Mallqui , S. D., Chavez de la Torre, M., Rodas Rivero, N. M., Perez Híjar, J. B., & Ortiz Cuicapuza, M. A. (2023). Water purification by means of membranes in the city of Pampas -Tayacaja. Tayacaja, 6(1), 14–22. https://doi.org/10.46908/tayacaja.v6i1.203

Abstract

At present, environmental requirements and the growth of environmental management systems, have generated a change of consciousness at an industrial level, leading this to satisfy the expectations of customers both in the quality of products or services, as well as in the ways environmentally friendly production facilities, the above added to environmental regulations, have generated a change in the production culture in which the enormous losses of raw materials that are discarded into the sewers must be recovered and reincorporated into the production process, resulting in in economic and environmental benefits.

In the city of Pampas Tayacaja there is a very latent problem which is the lack of water treatment, which is why most of the population often uses contaminated water in their food thus causing some diseases. For this reason, in this present work an investigation will be proposed on the use of membranes that is certainly suitable today for water treatment.

In general, the efficiency of a membrane depends of the composition of the liquid fluid to be treated, other related factors with its maintenance are hydraulic pressure and fouling what is as a result of research, the cleaning of the membranes is key for the issue of treatment costs and efficiency. In conclusion, the technology of the membranes improves water quality and its efficiency influences the maintenance costs.

https://doi.org/10.46908/tayacaja.v6i1.203
PDF (Español (España))

References

ABES Paraná, Informativo da Associação Brasileira de Engenharia Sanitária e Ambiental, Seção Paraná, n. 28 (setiembre de 2000).

APHA American Public Health Association, Standard Methods for the Examination for Water and Wastewater), 14ª ed., Washington, USA (1995).

Madaeni, S.S., A. G. Fane, G. S. Grohmann, 1995, Virus removal from water and wastewater using membranes, Journal of Membrane Science v. 102, 65-75 (1995).

Nóbrega, A.C, C. Borges, y A. Habert, Processo de Separação com Membranas, Rio de Janeiro: COPPE, 172 p., Apostila (Processos de Separação com Membranas) – Escola Piloto em Engenharia Química, UFRJ, Rio de Janeiro (1997).

Milles, A. A., S. S. Misra Estimation of the bactericide power of the bloods Journal Hygien n. 38 pp. 732-749 (1938).

Petrus, J.C.C., Preparação, Modificação e Caracterização de Membranas Assimétricas para clarificação de suco de frutas, Campinas,Unicamp, 139 p.Tese Doutorado -FEAUniversidade Estadual de Campinas (1997).

Ribeiro, R.M. Preparo e utilização de membranas poliméricas assimétricas para produção de águas potáveis Maringá: UEM, 136 p. Tese de Doutorado PEQ – Universidade Estadual de Maringa (2005).

Schneider, R.P. y M. T. Tsutiya, Membranas filtrantes para o tratamento de água,e Esgoto e Água de reúso, ABES, Associação Brasileira de Engenharia Sanitária e Ambiental, Capítulo Nacional da AIDIS, São Paulo, 234 (2001)

Huamaní Ramos, J. L., & Pacheco Meza, H. (2019). SISTEMA ELECTRÓNICO PARA LA CARACTERIZACIÓN EN TIEMPO REAL DEL POTENCIAL DE HIDRÓGENO DEL RÍO OPAMAYO EN EL VALLE DE PAMPAS-TAYACAJA.

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

Copyright (c) 2023 Jairo Edson Gutiérrez Collao, Jhon Smith Galindo Rojas, Gloria María López Yupanqui, Diana Estrella Orellana Reyes, Merly Chávez de la Torre, Nick Maykol Rodas Rivero, Jack Brando Pérez Híjar, Marco Antonio Ortiz Cuicapuza

Downloads

Download data is not yet available.