Diseño, desarrollo y evaluación del desempeño de un microcolector solar de placa plana portable con integración de materiales transparentes de aislamiento

  • Villegas Moncada, Sebastian (Investigador principal)
  • BOTERO MONTOYA, LUISA MARÍA (Coinvestigador)
  • González Palacio, Mauricio (Coinvestigador)
  • Osorio Ramírez, Julián David, (Coinvestigador)
  • PATIÑO OROZCO, SEBASTIÁN (Coinvestigador)
  • SÁNCHEZ BAENA, CESAR AUGUSTO (Coinvestigador)
  • URRUTIA OSPINA, SEBASTIÁN (Coinvestigador)
  • VÉLEZ TENGONO, CRISTIAN CAMILO (Coinvestigador)

Descripción

In colombia, approximately 70% of electric power is produced from hydraulic energy. the remaining 30% is composed mostly of thermal power plants that use natural gas or coal, which are responsible for ensuring the reliability of the interconnected system and absorbing peak demand. unlike hydraulic generation, the operation of thermal power plants is not affected during periods of drought, however they use fossil fuels emitting gases such as co2 into the environment, these being the main cause of global warming (greenhouse effect) [ one]. in addition to the hydraulic potential and fossil energy resources in the country, there is a huge potential in renewable energy resources, including solar radiation, wind and biomass, which can be used to increase the country's energy capacity and meet the growing energy demand in a clean and friendly way with the environment. in colombia, less than 1% of the country's electricity is generated from renewable resources [2], however there is a strong tendency to the expansion and use of renewable energy resources from wind projects such as the developed jepirachi wind farm by empresas públicas de medellín in la guajira and photovoltaic solar projects such as the photovoltaic solar farm that celsia is developing in yumbo (valle del cauca) and which will generate approximately 16 gwh per year, enough to provide electricity to around 8,000 homes [3. 4]. this amount of energy obtained from fossil resources implies an emission of around 6600 tons of co2 [3].

Objetivo

Diseñar, construir y evaluar el desempeño de un microcolector solar de placa plana con la integración de materiales transparentes de aislamiento.

Resultados esperados

Artículo isi wos o scopus, sometido revista q1, artículo de congreso ó artículo si wos o scopus, sometido revista q2, microcolector solar de placa plana, planos de diseño dispositivo de colección solar de placa plana, capítulo tesis de doctorado, tesis de pregrado, conferencias sobre energías renovables por parte profesor de florida state university e investigador de ingeniería térmica ltda., presentación y prácticas con el dispositivo curso seminario en energías renovables ii, programa ingeniería en energía udem. producto tecnológico: microcolector solar de placa plana con materiales transparentes aislantes integrados. el dispositivo que se va a diseñar y construir parte del concepto tradicional de colector solar de placa plana, sin embargo la integración de materiales transparentes aislantes es una alternativa novedosa para incrementar la eficiencia.
EstadoFinalizado
Fecha de inicio / finalización efectiva1/08/1730/01/19

Huella dactilar

Solar collectors
Insulation
Renewable energy resources
Hydraulics
Farms
Power plants
Electricity
Greenhouse effect
Insulating materials
Drought
Global warming
Energy resources
Technical presentations
Solar radiation
Fossil fuels
Large scale systems
Natural gas
Biomass
Coal
Gases