Bibliographic citations
Wiess, A., (2021). Implementación del cambio de sistema de generación de agua purificada desionización a osmosis inversa para la mejora de la productividad de una planta de producción de un laboratorio farmacéutico [Universidad Tecnológica del Perú]. https://hdl.handle.net/20.500.12867/4389
Wiess, A., Implementación del cambio de sistema de generación de agua purificada desionización a osmosis inversa para la mejora de la productividad de una planta de producción de un laboratorio farmacéutico []. PE: Universidad Tecnológica del Perú; 2021. https://hdl.handle.net/20.500.12867/4389
@misc{renati/805168,
title = "Implementación del cambio de sistema de generación de agua purificada desionización a osmosis inversa para la mejora de la productividad de una planta de producción de un laboratorio farmacéutico",
author = "Wiess Olazo, Alejandro Tomas",
publisher = "Universidad Tecnológica del Perú",
year = "2021"
}
Since 2005, the pharmaceutical laboratories of Lima and Province have implemented improvements in their water treatment systems in order to comply with the regulations established by the competent authority of the country imposed by the General Directorate of Medicines, Supplies and Drugs (DIGEMID).Under this regulation, the development of a project to implement the change of the generation system of purified water from deionization to double-step reverse osmosis will be shown to improve the productivity of a production plant of a pharmaceutical laboratory as a new alternative to the traditional use of Deionizers in the water treatment plantsof the Pharmaceutical Industry. The purpose of the research is to improve the productivity of a production plant (galenic products plant) by implementing the change of generation of purified water through the double-pass reverse osmosis process. Deionization, in addition, the system will incorporate an Intelligent HMI-SCADA System with a Control Panel, in which Panel you can view the main equipment of the Purified Water system. On the Touch screen, which will automatically control the entire water treatment system, it will have a working logic that does not allow stagnant water, which is why it has an automatic start of the Autoflush and Recirculation system. The conductivity values of the first, second pass and Purified Water are displayed on the controllers located on the Electrical Control Board.The purpose of the research is to implement the change in the purified water generation system that we currently have to improve the productivity of the production plant (plant of galenic products) of the pharmaceutical laboratory, once the issue has been raised, the analysis, design , construction and concludes with the results. The methodology that will be applied will be the experimental one, collecting data to analyze the errors that have been presented in the process. Upon obtaining the required data, we will draw a conclusion to determine the productivity improvement of the production plant (galenic products plant) of the pharmaceutical laboratory. viThe present work is designed according to the methodology of the quantitative approach, because it is the type that best adapts to the nature and needs of the study, face-to-face research with critical service operators, production operators and managers of production collect data on defects in the manufacturing process and the production of purified water
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