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dc.contributor.authorSantos Sánchez, María Jesús 
dc.contributor.authorVega-Lozano, Eduardo
dc.contributor.authorMerchán Corral, Rosa Pilar 
dc.contributor.authorGarcía Ferrero, Judit
dc.contributor.authorMedina Domínguez, Alejandro 
dc.contributor.authorCalvo Hernández, Antonio
dc.identifier.citationSantos, M.J., Vega, E., Merchán, R.P., García, J., Medina, A., Calvo, A. Micro Gas Turbine and Solar Parabolic Dish for distributed generation. ICREPQ (International Conference on Renewable Energies and Power Quality), Salamanca, 2018es_ES
dc.description.abstract[EN]A thermodynamic model for a Brayton-like microturbine in combination with a solar parabolic dish is analyzed in order to evaluate its efficiency under any ambient condition. The thermodynamic cycle is a recuperative Brayton cycle with internal irreversibilities in the recuperator, compressor and turbine and external losses associated to the heat transfers in the solar receiver, the combustion chamber, and the environment. All the irreversibilities have been taken into account in the model with home-software elaborated using Mathematicaâ. The model validation is done by comparison with results provided by Semprini et al. [1]. An analysis of hybrid and sunless performance is carried out for four different microturbine power outlets (30, 23, 15 and 7 kWe) and for four days of the year (corresponding to each season). The greenhouse emissions are also calculated for both off-design performance and for the four power output levels.es_ES
dc.rightsAttribution-NonCommercial-NoDerivs 4.0 International
dc.subjectThermal energy engineeringes_ES
dc.subjectSolar Parabolic Dishes_ES
dc.subjectDistributed generationes_ES
dc.subjectBrayton cyclees_ES
dc.subjectMicro gas turbinees_ES
dc.subjectThermodynamic modeles_ES
dc.titleMicro Gas Turbine and Solar Parabolic Dish for distributed generationes_ES

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Attribution-NonCommercial-NoDerivs 4.0 International
Except where otherwise noted, this item's license is described as Attribution-NonCommercial-NoDerivs 4.0 International