Proceso de ASC - ESTUDIO CONCEPTUAL DE LA GASIFICACION POR PLASMA PARA LA PRODUCCION DE SYNGAS

Gasification is a thermochemical process through which waste materials, such as biomass, are transformed into synthesis gas (SYNGAS) to produce fuel gas that can be used as an energy vector. Energy generation from biomass typically involves combustible agents like wood, coal, and refined petroleum p...

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Autores:
Palacio Espinosa, Claudia Constanza
Aguiar Castrillón, Juan Sebastián
Morales Paternina, Samuel David
Peña Arango, Karol Andrea
Arboleda Londoño, Juan Manuel
Tipo de recurso:
Investigation report
Fecha de publicación:
2023
Institución:
Universidad EAFIT
Repositorio:
Repositorio EAFIT
Idioma:
spa
OAI Identifier:
oai:repository.eafit.edu.co:10784/34182
Acceso en línea:
https://hdl.handle.net/10784/34182
Palabra clave:
Plasma torch
Clean energy
Plasma gasification
Environment
Solid Waste
SYNGAS
Antorcha por plasma
Energías limpias
Gasificación por plasma
Medioambiente
Residuos sólidos
SYNGAS
Rights
License
Copyright (c) 2023 © Universidad EAFIT. Vicerrectoría CTeI
Description
Summary:Gasification is a thermochemical process through which waste materials, such as biomass, are transformed into synthesis gas (SYNGAS) to produce fuel gas that can be used as an energy vector. Energy generation from biomass typically involves combustible agents like wood, coal, and refined petroleum products, which are used for their ability to convert mass into thermal energy, which can then be transformed into mechanical work and even electrical energy. Plasma, or ionized gas, has various properties depending on its nature and can be either cold or hot plasma. Hot plasma can reach extremely high temperatures, even higher than those in combustion processes, enabling the transformation of both organic and inorganic matter by reaching their melting points. Thus, plasma is a valuable tool for gasification processes, converting matter (organic and inorganic) into synthesis gas. Additionally, the implementation of gasification processes seeks to benefit the environment through solid waste treatment, production of low or zero carbon footprint fuels, and sustainable energy. Consequently, knowledge about the use of high-temperature plasmas for solid waste treatment is of great scientific interest to the materials research group, due to its significant environmental and social impact.

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