Cabrera-Escobar, J.; Vera, D.; Cantos, L.O.; Jurado, F.; Carrillo Rosero, C.M.; Arroba Arroba, C.H.; Cabrera Anda, S.P.; Cabrera-Escobar, R.
Comparison of the Thermal Behavior of Photovoltaic Panels with and Without Passive Heat Dissipation Systems Under Different Environmental Conditions Associated with Altitude Using the Finite Element Method. Energies 2026, 19, 2817.
https://doi.org/10.3390/en19122817
AMA Style
Cabrera-Escobar J, Vera D, Cantos LO, Jurado F, Carrillo Rosero CM, Arroba Arroba CH, Cabrera Anda SP, Cabrera-Escobar R.
Comparison of the Thermal Behavior of Photovoltaic Panels with and Without Passive Heat Dissipation Systems Under Different Environmental Conditions Associated with Altitude Using the Finite Element Method. Energies. 2026; 19(12):2817.
https://doi.org/10.3390/en19122817
Chicago/Turabian Style
Cabrera-Escobar, José, David Vera, Lenin Orozco Cantos, Francisco Jurado, Carlos Mauricio Carrillo Rosero, César Hernán Arroba Arroba, Santiago Paúl Cabrera Anda, and Raúl Cabrera-Escobar.
2026. "Comparison of the Thermal Behavior of Photovoltaic Panels with and Without Passive Heat Dissipation Systems Under Different Environmental Conditions Associated with Altitude Using the Finite Element Method" Energies 19, no. 12: 2817.
https://doi.org/10.3390/en19122817
APA Style
Cabrera-Escobar, J., Vera, D., Cantos, L. O., Jurado, F., Carrillo Rosero, C. M., Arroba Arroba, C. H., Cabrera Anda, S. P., & Cabrera-Escobar, R.
(2026). Comparison of the Thermal Behavior of Photovoltaic Panels with and Without Passive Heat Dissipation Systems Under Different Environmental Conditions Associated with Altitude Using the Finite Element Method. Energies, 19(12), 2817.
https://doi.org/10.3390/en19122817
