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Título
Modelado, optimización y análisis tecno-económico de un proceso para producir aire enriquecido en oxígeno por desorción de agua. Aplicación y diseño para un hospital en África subsahariana
Otros títulos
Modelling, optimisation and techno-economic analysis of a process to produce oxygen-enriched air by water desorption. Application and design for a hospital in sub-Saharan Africa
Director o Tutor
Año del Documento
2017
Titulación
Grado en Ingeniería Química
Resumo
Oxygen, along with oxygen enriched air, is used in multiple applications, namely chemical
industry and healthcare industry. Currently there are three main ways to get oxygen: cryogenic
distillation, water electrolysis and membrane separation, being the first the most widely used
on industrial scale. It allows the production of highly concentrated oxygen but it has one main
downside, which is the high energy spending. The other processes present a lower costefficiency.
A new process to produce enriched air was analysed. It is based on the ability of water to absorb
and desorb oxygen at different thermodynamic equilibria, varying temperature and pressure.
Firstly, based on empirical tests carried out in laboratory it was attempted to create a
mathematical model. The first attempt was modelled with neural networks, but the small
available empirical set of information did not allow to get a trustworthy model. The second
attempt, adjusted by square errors minimising, outperforms the simulations done with
computational software based on theoretical equations.
Secondly, the process was simulated by computer solving the Rachford-Rice equation with an
Excel worksheet and with the computer software SimSci PRO/II.
Thirdly, the process model was applied to three different scenarios: chemical industry, ship
propulsion and healthcare industry. In the chemical and the oil industry oxidation processes are
common practice, ships use large quantities of air to oxidise the fuel in the combustion process
that propels them and oxygen is important in healthcare in almost every lung related issue.
Regarding the two first scenarios, the outcomes resulted in flows of water so massive that
rendered the whole process unfeasible. The application to healthcare was focused on contexts
where there is no possibility to obtain bottled oxygen or electricity supply is unreliable, i.e. sub-
Saharan Africa. The process was designed to the Sounon-Sero hospital in Nikki (Benin), as a proxy
for any hospital in a similar context.
In fact, based on the information provided by that hospital, after traumatisms and malaria, it is
lung-related infections that account for the highest number of patients attended at Sounon-
Sero. A special emphasis has been put in designing a simple and reliable system with a demand
sizing based on supply side, given the maximum capabilities of the equipment that can be found
in Nikki. This opens new research opportunities regarding a more precise demand sizing or
budget, which is to be done within an on-field venture.
Materias (normalizadas)
Ingeniería química
Oxígeno - Indústria
Departamento
Departamento de Ingeniería Química y Tecnología del Medio Ambiente
Idioma
eng
Derechos
openAccess
Aparece en las colecciones
- Trabajos Fin de Grado UVa [29647]
Arquivos deste item
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