TRNSYS Modeling of flat plate and vacuum tube solar collector systems for residential use under equatorial middle altitude climate condition

Doménica Larriva-Arévalo; Marco A. Torres-Jara; Edgar A. Barragan-Escandón; Esteban Zalamea-León; John Calle-Sigüencia

doi:10.24084/repqj20.240

TRNSYS Modeling of flat plate and vacuum tube solar collector systems for residential use under equatorial middle altitude climate condition

Doménica Larriva-Arévalo, Marco A. Torres-Jara, Edgar A. Barragan-Escandón, Esteban Zalamea-León, John Calle-Sigüencia

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

Resumen

In this work, residential solar systems were simulated to predict feeding domestic hot water, using TRNSYS (TraNsient SYstem Simulation software), under the operating conditions in Cuenca, Ecuador. The type of research is quantitative and with a correlational approach. Using data from an experimental test, a technical sheet was prepared that sought to identify the main variables to be applied in the model. The diffuse and direct radiation data were obtained by applying the isotropic diffuse model. When simulating in the software, the results show that the system presents an efficiency of 56.54% when heating water in a range of 30° to 45 °C. For the validation of the model, the chi-squared statistical test was applied, with which it was determined that the simulated data follow the same distribution as the real data.

Idioma original	Inglés
Páginas (desde-hasta)	121-125
Número de páginas	5
Publicación	Renewable Energy and Power Quality Journal
Volumen	20
DOI	https://doi.org/10.24084/repqj20.240
Estado	Publicada - sep. 2022

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© 2022, European Association for the Development of Renewable Energy, Environment and Power Quality (EA4EPQ). All rights reserved.

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@article{995e7483626b4d02af48675b03a2afa0,

title = "TRNSYS Modeling of flat plate and vacuum tube solar collector systems for residential use under equatorial middle altitude climate condition",

abstract = "In this work, residential solar systems were simulated to predict feeding domestic hot water, using TRNSYS (TraNsient SYstem Simulation software), under the operating conditions in Cuenca, Ecuador. The type of research is quantitative and with a correlational approach. Using data from an experimental test, a technical sheet was prepared that sought to identify the main variables to be applied in the model. The diffuse and direct radiation data were obtained by applying the isotropic diffuse model. When simulating in the software, the results show that the system presents an efficiency of 56.54% when heating water in a range of 30° to 45 °C. For the validation of the model, the chi-squared statistical test was applied, with which it was determined that the simulated data follow the same distribution as the real data.",

keywords = "Flat plate collector, system simulation, TRNSYS, vacuum tube collector",

author = "Dom{\'e}nica Larriva-Ar{\'e}valo and Torres-Jara, {Marco A.} and Barragan-Escand{\'o}n, {Edgar A.} and Esteban Zalamea-Le{\'o}n and John Calle-Sig{\"u}encia",

year = "2022",

month = sep,

doi = "10.24084/repqj20.240",

language = "English",

volume = "20",

pages = "121--125",

journal = "Renewable Energy and Power Quality Journal",

issn = "2172-038X",

publisher = "European Association for the Development of Renewable Energies, Environment and Power Quality",

}

TRNSYS Modeling of flat plate and vacuum tube solar collector systems for residential use under equatorial middle altitude climate condition. / Larriva-Arévalo, Doménica; Torres-Jara, Marco A.; Barragan-Escandón, Edgar A. et al.
En: Renewable Energy and Power Quality Journal, Vol. 20, 09.2022, p. 121-125.

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

TY - JOUR

T1 - TRNSYS Modeling of flat plate and vacuum tube solar collector systems for residential use under equatorial middle altitude climate condition

AU - Larriva-Arévalo, Doménica

AU - Torres-Jara, Marco A.

AU - Barragan-Escandón, Edgar A.

AU - Zalamea-León, Esteban

AU - Calle-Sigüencia, John

PY - 2022/9

Y1 - 2022/9

N2 - In this work, residential solar systems were simulated to predict feeding domestic hot water, using TRNSYS (TraNsient SYstem Simulation software), under the operating conditions in Cuenca, Ecuador. The type of research is quantitative and with a correlational approach. Using data from an experimental test, a technical sheet was prepared that sought to identify the main variables to be applied in the model. The diffuse and direct radiation data were obtained by applying the isotropic diffuse model. When simulating in the software, the results show that the system presents an efficiency of 56.54% when heating water in a range of 30° to 45 °C. For the validation of the model, the chi-squared statistical test was applied, with which it was determined that the simulated data follow the same distribution as the real data.

AB - In this work, residential solar systems were simulated to predict feeding domestic hot water, using TRNSYS (TraNsient SYstem Simulation software), under the operating conditions in Cuenca, Ecuador. The type of research is quantitative and with a correlational approach. Using data from an experimental test, a technical sheet was prepared that sought to identify the main variables to be applied in the model. The diffuse and direct radiation data were obtained by applying the isotropic diffuse model. When simulating in the software, the results show that the system presents an efficiency of 56.54% when heating water in a range of 30° to 45 °C. For the validation of the model, the chi-squared statistical test was applied, with which it was determined that the simulated data follow the same distribution as the real data.

KW - Flat plate collector

KW - system simulation

KW - TRNSYS

KW - vacuum tube collector

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U2 - 10.24084/repqj20.240

DO - 10.24084/repqj20.240

M3 - Article

AN - SCOPUS:85136214545

SN - 2172-038X

VL - 20

SP - 121

EP - 125

JO - Renewable Energy and Power Quality Journal

JF - Renewable Energy and Power Quality Journal

ER -

TRNSYS Modeling of flat plate and vacuum tube solar collector systems for residential use under equatorial middle altitude climate condition

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