TY - JOUR
T1 - Software SOLEEC para el diseño de concentradores solares de canal parabólico con generación directa de vapor
AU - Enciso-Contreras, Ernesto
AU - Barbosa-Saldaña, Juan Gabriel
AU - Gutiérrez-Torres, Claudia Del Carmen
AU - Jiménez-Bernal, José Alfredo
AU - Quinto-Diez, Pedro
N1 - Publisher Copyright:
© 2018 Publicaciones Dyna Sl. All Rights Reserved.
PY - 2018/1
Y1 - 2018/1
N2 - In recent years, the implementation of computational tools for analyzing, optimizing and designing thermal devices is an effort where several researches are focused and the application to concentrating solar collectors is not excluded of this tendency and this is the concern of the present work, which describes the application of software SOLEEC for parabolic trough solar collector (PTC) designing with direct steam generation systems (DSG). The software is a developed computational tool using MATLAB and can be used for designing a solar system for any geographic coordinates. For designing DSG systems the absorber tube is divided into three sections: preheating, evaporation and overheating, so the adequate mathematical models for every section are introduced into the software’s codex and some graphical interfaces for designing and assessment are created. Some input data such as solar irradiance, absorber’s tube internal diameter, air temperature and velocity, working pressure, inlet water temperature and output steam temperature are necessary for executing the software. The user can choose different construction materials for the reflective surface, selective surface and coating tube. Finally, the software shows in tables the geometric data for the collector such as: parabola aperture, total length, focal distance, coating tube diameter and thickness, also the thermal evaluation results as heat gain, heat losses, length for every section, mass flux, thermal efficiency and the temperatures for the absorber and coating tubes respectively. A maximum error of 2% was found when the software is validated with other researches results.
AB - In recent years, the implementation of computational tools for analyzing, optimizing and designing thermal devices is an effort where several researches are focused and the application to concentrating solar collectors is not excluded of this tendency and this is the concern of the present work, which describes the application of software SOLEEC for parabolic trough solar collector (PTC) designing with direct steam generation systems (DSG). The software is a developed computational tool using MATLAB and can be used for designing a solar system for any geographic coordinates. For designing DSG systems the absorber tube is divided into three sections: preheating, evaporation and overheating, so the adequate mathematical models for every section are introduced into the software’s codex and some graphical interfaces for designing and assessment are created. Some input data such as solar irradiance, absorber’s tube internal diameter, air temperature and velocity, working pressure, inlet water temperature and output steam temperature are necessary for executing the software. The user can choose different construction materials for the reflective surface, selective surface and coating tube. Finally, the software shows in tables the geometric data for the collector such as: parabola aperture, total length, focal distance, coating tube diameter and thickness, also the thermal evaluation results as heat gain, heat losses, length for every section, mass flux, thermal efficiency and the temperatures for the absorber and coating tubes respectively. A maximum error of 2% was found when the software is validated with other researches results.
KW - Direct steam generation
KW - Parabolic trough solar collector
KW - SOLEEC
KW - Software
UR - http://www.scopus.com/inward/record.url?scp=85042534219&partnerID=8YFLogxK
U2 - 10.6036/8500
DO - 10.6036/8500
M3 - Artículo
SN - 0012-7361
VL - 93
SP - 89
EP - 95
JO - Dyna (Spain)
JF - Dyna (Spain)
IS - 1
ER -