Diseño de un sistema para la medición de la irradiancia solar a partir del arreglo de celdas solares en una semiesfera
La irradiancia solar es la magnitud utilizada para describir la densidad de potencia de radiación solar incidente en una superficie, expresada en watts por metro cuadrado. El estudio y la medición de la irradiancia solar son importantes en aplicaciones relacionadas con el uso de energías alternativa...
- Autores:
-
Rodriguez Jimenez, Anderson Ferney
Muñoz Molina, Felipe
- Tipo de recurso:
- http://purl.org/coar/version/c_b1a7d7d4d402bcce
- Fecha de publicación:
- 2016
- Institución:
- Universidad Industrial de Santander
- Repositorio:
- Repositorio UIS
- Idioma:
- spa
- OAI Identifier:
- oai:noesis.uis.edu.co:20.500.14071/35055
- Palabra clave:
- Uso Racional De La Energía (Ure) Y Energías Renovables (Er).
Solar irradiance is the magnitude used to describe the power density of solar radiation incident on a surface
expressed in Watts per square meter. The study and measurement of solar irradiance are important in applications related to the use of alternative energies
such as in the design of Solar Parks. There are diverse technologies and devices and techniques for measuring solar radiance
such as radiometers
the generation of maps of radiation based on photovoltaic elements
GPS applications
or geographic information systems. The principal limitations of these alternatives are the efficiency
high Installation and implementation costs
the need for control systems
high-energy consumption
complex designs
environmental barriers
and affordability
among others. In this work
a prototype has been designed to estimate the spatial distribution of the solar radiance on a specific location. The device consists of a cell array of mono-crystalline solar cells on a dome (semi-sphere)
a data acquisition system
and a communication system. The prototype can determine the values of solar irradiance incident in an array of solar photovoltaic cells arranged on a dome at different inclinations and orientations. Values of incident irradiance in each cell is measured indirectly by measuring the current of each solar cell. Subsequently
the data are transmitted to a computer (user or destination) for display and analysis. The transmission is carried out through two Xbee communication modules (transmitter and receiver) based on the IEEE 802.15.4 network protocol. This document describes the specifications for the design and operation of the device as well as the results of the preliminary tests. Compared to alternatives existing in the state-of-the-art
this device has the following advantages: standalone operation
ease of data transmission
robustness to changing weather conditions
ease of installation
different power supply options.
- Rights
- License
- Attribution-NonCommercial 4.0 International (CC BY-NC 4.0)
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Diseño de un sistema para la medición de la irradiancia solar a partir del arreglo de celdas solares en una semiesfera |
| dc.title.english.none.fl_str_mv |
Rational Use Of Energy (Ure) And Renewable Energy (Er) |
| title |
Diseño de un sistema para la medición de la irradiancia solar a partir del arreglo de celdas solares en una semiesfera |
| spellingShingle |
Diseño de un sistema para la medición de la irradiancia solar a partir del arreglo de celdas solares en una semiesfera Uso Racional De La Energía (Ure) Y Energías Renovables (Er). Solar irradiance is the magnitude used to describe the power density of solar radiation incident on a surface expressed in Watts per square meter. The study and measurement of solar irradiance are important in applications related to the use of alternative energies such as in the design of Solar Parks. There are diverse technologies and devices and techniques for measuring solar radiance such as radiometers the generation of maps of radiation based on photovoltaic elements GPS applications or geographic information systems. The principal limitations of these alternatives are the efficiency high Installation and implementation costs the need for control systems high-energy consumption complex designs environmental barriers and affordability among others. In this work a prototype has been designed to estimate the spatial distribution of the solar radiance on a specific location. The device consists of a cell array of mono-crystalline solar cells on a dome (semi-sphere) a data acquisition system and a communication system. The prototype can determine the values of solar irradiance incident in an array of solar photovoltaic cells arranged on a dome at different inclinations and orientations. Values of incident irradiance in each cell is measured indirectly by measuring the current of each solar cell. Subsequently the data are transmitted to a computer (user or destination) for display and analysis. The transmission is carried out through two Xbee communication modules (transmitter and receiver) based on the IEEE 802.15.4 network protocol. This document describes the specifications for the design and operation of the device as well as the results of the preliminary tests. Compared to alternatives existing in the state-of-the-art this device has the following advantages: standalone operation ease of data transmission robustness to changing weather conditions ease of installation different power supply options. |
| title_short |
Diseño de un sistema para la medición de la irradiancia solar a partir del arreglo de celdas solares en una semiesfera |
| title_full |
Diseño de un sistema para la medición de la irradiancia solar a partir del arreglo de celdas solares en una semiesfera |
| title_fullStr |
Diseño de un sistema para la medición de la irradiancia solar a partir del arreglo de celdas solares en una semiesfera |
| title_full_unstemmed |
Diseño de un sistema para la medición de la irradiancia solar a partir del arreglo de celdas solares en una semiesfera |
| title_sort |
Diseño de un sistema para la medición de la irradiancia solar a partir del arreglo de celdas solares en una semiesfera |
| dc.creator.fl_str_mv |
Rodriguez Jimenez, Anderson Ferney Muñoz Molina, Felipe |
| dc.contributor.advisor.none.fl_str_mv |
Pertuz Arroyo, Said David Mantilla Villalobos, María Alejandra |
| dc.contributor.author.none.fl_str_mv |
Rodriguez Jimenez, Anderson Ferney Muñoz Molina, Felipe |
| dc.subject.none.fl_str_mv |
Uso Racional De La Energía (Ure) Y Energías Renovables (Er). |
| topic |
Uso Racional De La Energía (Ure) Y Energías Renovables (Er). Solar irradiance is the magnitude used to describe the power density of solar radiation incident on a surface expressed in Watts per square meter. The study and measurement of solar irradiance are important in applications related to the use of alternative energies such as in the design of Solar Parks. There are diverse technologies and devices and techniques for measuring solar radiance such as radiometers the generation of maps of radiation based on photovoltaic elements GPS applications or geographic information systems. The principal limitations of these alternatives are the efficiency high Installation and implementation costs the need for control systems high-energy consumption complex designs environmental barriers and affordability among others. In this work a prototype has been designed to estimate the spatial distribution of the solar radiance on a specific location. The device consists of a cell array of mono-crystalline solar cells on a dome (semi-sphere) a data acquisition system and a communication system. The prototype can determine the values of solar irradiance incident in an array of solar photovoltaic cells arranged on a dome at different inclinations and orientations. Values of incident irradiance in each cell is measured indirectly by measuring the current of each solar cell. Subsequently the data are transmitted to a computer (user or destination) for display and analysis. The transmission is carried out through two Xbee communication modules (transmitter and receiver) based on the IEEE 802.15.4 network protocol. This document describes the specifications for the design and operation of the device as well as the results of the preliminary tests. Compared to alternatives existing in the state-of-the-art this device has the following advantages: standalone operation ease of data transmission robustness to changing weather conditions ease of installation different power supply options. |
| dc.subject.keyword.none.fl_str_mv |
Solar irradiance is the magnitude used to describe the power density of solar radiation incident on a surface expressed in Watts per square meter. The study and measurement of solar irradiance are important in applications related to the use of alternative energies such as in the design of Solar Parks. There are diverse technologies and devices and techniques for measuring solar radiance such as radiometers the generation of maps of radiation based on photovoltaic elements GPS applications or geographic information systems. The principal limitations of these alternatives are the efficiency high Installation and implementation costs the need for control systems high-energy consumption complex designs environmental barriers and affordability among others. In this work a prototype has been designed to estimate the spatial distribution of the solar radiance on a specific location. The device consists of a cell array of mono-crystalline solar cells on a dome (semi-sphere) a data acquisition system and a communication system. The prototype can determine the values of solar irradiance incident in an array of solar photovoltaic cells arranged on a dome at different inclinations and orientations. Values of incident irradiance in each cell is measured indirectly by measuring the current of each solar cell. Subsequently the data are transmitted to a computer (user or destination) for display and analysis. The transmission is carried out through two Xbee communication modules (transmitter and receiver) based on the IEEE 802.15.4 network protocol. This document describes the specifications for the design and operation of the device as well as the results of the preliminary tests. Compared to alternatives existing in the state-of-the-art this device has the following advantages: standalone operation ease of data transmission robustness to changing weather conditions ease of installation different power supply options. |
| description |
La irradiancia solar es la magnitud utilizada para describir la densidad de potencia de radiación solar incidente en una superficie, expresada en watts por metro cuadrado. El estudio y la medición de la irradiancia solar son importantes en aplicaciones relacionadas con el uso de energías alternativas. Existen diversas técnicas y dispositivos de medición de la radiación solar, como los piranómetros, la generación de mapas de radiación basados en elementos fotovoltaicos, mediante aplicaciones GPS, o sistemas de información geográfica. Las principales limitaciones de estas alternativas son la eficiencia, altos costos de instalación e implementación, la necesidad de sistemas de control, alto consumo de energía, complejos diseños, limitantes ambientales y asequibilidad, entre otros. En este trabajo, se ha diseñado un prototipo de medición para obtener los datos de irradiancia solar de un lugar determinado. El equipo está formado por un arreglo de celdas solares monocristalinas sobre una semiesfera, un sistema de adquisición de datos y un sistema de transmisión. El prototipo permite determinar los valores de irradiancia solar incidente en un arreglo de celdas solares fotovoltaicas distribuidas en una semiesfera en diferentes inclinaciones y orientaciones. Los valores de la irradiancia incidente en cada celda se miden a través de la corriente de cada celda solar. Estas medidas son transmitidas a una computadora (usuario o destino) mediante dos módulos de comunicación Xbee (transmisor y receptor) basados en el protocolo de red IEEE 802.15.4, para su visualización y análisis. Este documento describe las especificaciones del diseño y funcionamiento del dispositivo, las pruebas preliminares realizadas y los resultados obtenidos. Dentro de las características de este dispositivo cabe resaltar que, a diferencia de las alternativas existentes en el estado del arte, este dispositivo tiene la ventaja de ser autónomo, permitir fácilmente la transmisión de los datos, fácil instalación, cuenta con diferentes sistemas de alimentación. |
| publishDate |
2016 |
| dc.date.available.none.fl_str_mv |
2016 2024-03-03T22:44:20Z |
| dc.date.created.none.fl_str_mv |
2016 |
| dc.date.issued.none.fl_str_mv |
2016 |
| dc.date.accessioned.none.fl_str_mv |
2024-03-03T22:44:20Z |
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Tesis/Trabajo de grado - Monografía - Pregrado |
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http://purl.org/coar/resource_type/c_7a1f |
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http://purl.org/coar/version/c_b1a7d7d4d402bcce |
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http://purl.org/coar/version/c_b1a7d7d4d402bcce |
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https://noesis.uis.edu.co/handle/20.500.14071/35055 |
| dc.identifier.instname.none.fl_str_mv |
Universidad Industrial de Santander |
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Universidad Industrial de Santander |
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https://noesis.uis.edu.co |
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https://noesis.uis.edu.co/handle/20.500.14071/35055 https://noesis.uis.edu.co |
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Universidad Industrial de Santander |
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spa |
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spa |
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Attribution-NonCommercial 4.0 International (CC BY-NC 4.0) |
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http://creativecommons.org/licenses/by-nc/4.0 |
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Atribución-NoComercial-SinDerivadas 4.0 Internacional (CC BY-NC-ND 4.0) |
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Attribution-NonCommercial 4.0 International (CC BY-NC 4.0) http://creativecommons.org/licenses/by/4.0/ http://creativecommons.org/licenses/by-nc/4.0 Atribución-NoComercial-SinDerivadas 4.0 Internacional (CC BY-NC-ND 4.0) http://purl.org/coar/access_right/c_abf2 |
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application/pdf |
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Universidad Industrial de Santander |
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Facultad de Ingenierías Fisicomecánicas |
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Ingeniería Electrónica |
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Escuela de Ingenierías Eléctrica, Electrónica y Telecomunicaciones |
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Universidad Industrial de Santander |
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Universidad Industrial de Santander |
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Attribution-NonCommercial 4.0 International (CC BY-NC 4.0)http://creativecommons.org/licenses/by/4.0/http://creativecommons.org/licenses/by-nc/4.0Atribución-NoComercial-SinDerivadas 4.0 Internacional (CC BY-NC-ND 4.0)http://purl.org/coar/access_right/c_abf2Pertuz Arroyo, Said DavidMantilla Villalobos, María AlejandraRodriguez Jimenez, Anderson FerneyMuñoz Molina, Felipe2024-03-03T22:44:20Z20162024-03-03T22:44:20Z20162016https://noesis.uis.edu.co/handle/20.500.14071/35055Universidad Industrial de SantanderUniversidad Industrial de Santanderhttps://noesis.uis.edu.coLa irradiancia solar es la magnitud utilizada para describir la densidad de potencia de radiación solar incidente en una superficie, expresada en watts por metro cuadrado. El estudio y la medición de la irradiancia solar son importantes en aplicaciones relacionadas con el uso de energías alternativas. Existen diversas técnicas y dispositivos de medición de la radiación solar, como los piranómetros, la generación de mapas de radiación basados en elementos fotovoltaicos, mediante aplicaciones GPS, o sistemas de información geográfica. Las principales limitaciones de estas alternativas son la eficiencia, altos costos de instalación e implementación, la necesidad de sistemas de control, alto consumo de energía, complejos diseños, limitantes ambientales y asequibilidad, entre otros. En este trabajo, se ha diseñado un prototipo de medición para obtener los datos de irradiancia solar de un lugar determinado. El equipo está formado por un arreglo de celdas solares monocristalinas sobre una semiesfera, un sistema de adquisición de datos y un sistema de transmisión. El prototipo permite determinar los valores de irradiancia solar incidente en un arreglo de celdas solares fotovoltaicas distribuidas en una semiesfera en diferentes inclinaciones y orientaciones. Los valores de la irradiancia incidente en cada celda se miden a través de la corriente de cada celda solar. Estas medidas son transmitidas a una computadora (usuario o destino) mediante dos módulos de comunicación Xbee (transmisor y receptor) basados en el protocolo de red IEEE 802.15.4, para su visualización y análisis. Este documento describe las especificaciones del diseño y funcionamiento del dispositivo, las pruebas preliminares realizadas y los resultados obtenidos. Dentro de las características de este dispositivo cabe resaltar que, a diferencia de las alternativas existentes en el estado del arte, este dispositivo tiene la ventaja de ser autónomo, permitir fácilmente la transmisión de los datos, fácil instalación, cuenta con diferentes sistemas de alimentación.PregradoIngeniero ElectrónicoA prototype for the measurement of solar irradiance on a specific locationapplication/pdfspaUniversidad Industrial de SantanderFacultad de Ingenierías FisicomecánicasIngeniería ElectrónicaEscuela de Ingenierías Eléctrica, Electrónica y TelecomunicacionesUso Racional De La Energía (Ure) Y Energías Renovables (Er).Solar irradiance is the magnitude used to describe the power density of solar radiation incident on a surfaceexpressed in Watts per square meter. The study and measurement of solar irradiance are important in applications related to the use of alternative energiessuch as in the design of Solar Parks. There are diverse technologies and devices and techniques for measuring solar radiancesuch as radiometersthe generation of maps of radiation based on photovoltaic elementsGPS applicationsor geographic information systems. The principal limitations of these alternatives are the efficiencyhigh Installation and implementation coststhe need for control systemshigh-energy consumptioncomplex designsenvironmental barriersand affordabilityamong others. In this worka prototype has been designed to estimate the spatial distribution of the solar radiance on a specific location. The device consists of a cell array of mono-crystalline solar cells on a dome (semi-sphere)a data acquisition systemand a communication system. The prototype can determine the values of solar irradiance incident in an array of solar photovoltaic cells arranged on a dome at different inclinations and orientations. Values of incident irradiance in each cell is measured indirectly by measuring the current of each solar cell. Subsequentlythe data are transmitted to a computer (user or destination) for display and analysis. The transmission is carried out through two Xbee communication modules (transmitter and receiver) based on the IEEE 802.15.4 network protocol. This document describes the specifications for the design and operation of the device as well as the results of the preliminary tests. Compared to alternatives existing in the state-of-the-artthis device has the following advantages: standalone operationease of data transmissionrobustness to changing weather conditionsease of installationdifferent power supply options.Diseño de un sistema para la medición de la irradiancia solar a partir del arreglo de celdas solares en una semiesferaRational Use Of Energy (Ure) And Renewable Energy (Er)Tesis/Trabajo de grado - Monografía - Pregradohttp://purl.org/coar/resource_type/c_7a1fhttp://purl.org/coar/version/c_b1a7d7d4d402bcceORIGINALCarta de autorización.pdfapplication/pdf163711https://noesis.uis.edu.co/bitstreams/d613c3d6-e3b2-470f-82aa-d32502af7252/download5383233cbd474fe8702cd716091ef497MD51Documento.pdfapplication/pdf4223328https://noesis.uis.edu.co/bitstreams/47f8c142-3858-43da-a6e9-15ba1fbcdcc5/downloada88b50a6f2ac15a0cd78473f09d2627aMD52Nota de proyecto.pdfapplication/pdf160744https://noesis.uis.edu.co/bitstreams/102bf296-c891-4140-a022-3cf8bf730740/download92827446efc667506ff7363850c1463dMD5320.500.14071/35055oai:noesis.uis.edu.co:20.500.14071/350552024-03-03 17:44:20.291http://creativecommons.org/licenses/by-nc/4.0http://creativecommons.org/licenses/by/4.0/open.accesshttps://noesis.uis.edu.coDSpace at UISnoesis@uis.edu.co |