Papers by Anna Manuela Gomes
Natural light can be used to brighten dark areas within the buildings, with the benefits it repor... more Natural light can be used to brighten dark areas within the buildings, with the benefits it reports to the resident’s or building users quality of life. Thus this method may become increasingly sustainable and energy saving. For this purpose, a study is carried over the use of optical fiber in an addressing system of daylight in buildings.
The solar energy, in the form of light is captured by a parabolic concentrator system, which is guided and directed at a selected area of the building structure with a suitable optical fiber.
The optical fiber usually operates by means of a device which is placed in an external locking element that assists to collect and redirect the incident luminous flux, and by a device located within the environment capable of transporting daylight into the interior building and distributing it through different areas of lacking brightness.
This study is an attempt to make a prototype 5x5x3 meters of a real environment, using mirrors and various fiber optic cables. The first results will be analyzed through different equipments such as a luxometer, goniophotometer and spectrometer to investigate the photometric characteristics of the system in terms of distribution of light intensity and spectral radiation.
The lighting in this prototype must be continuously monitored by photometric sensors where the clarity of the sky plays an important role.
The aim of this paper is to demonstrate the efficient use of natural light in buildings, reducing the use of artificial lighting in buildings areas that continually use artificial energy, such as circulation area, lobbies, elevators, among others.
SELECCIÓN DE UN PROBLEMA DE INVESTIGACIÓN ACOTADO, JUSTIFICACIÓN DE SU IMPORTANCIA Y ADECUACIÓN A... more SELECCIÓN DE UN PROBLEMA DE INVESTIGACIÓN ACOTADO, JUSTIFICACIÓN DE SU IMPORTANCIA Y ADECUACIÓN A LAS LÍNEAS DE INVESTIGACIÓN DEL DEPARTAMENTO, GRUPOS DE INVESTIGACIÓN DE OTRAS UNIVERSIDADES Y CENTROS DE INVESTIGACIÓN QUE LO ABORDEN Y PRINCIPALES PUBLICACIONES EN REVISTAS DE INVESTIGACIÓN POSTERIORES A 2005.
La arquitectura barroca eclesiástica de Madrid guarda un encanto típico no muy explorado. Muchas ... more La arquitectura barroca eclesiástica de Madrid guarda un encanto típico no muy explorado. Muchas fueron las iglesias construidas, durante los siglos XVII y XVIII, en la capital madrileña como defensa ante la creciente amenaza del protestantismo. La Contrarreforma, un periodo de dudas caracterizado por la angustia y dualidad cuyos contrastes se reflejan en la arquitectura de la época.
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Papers by Anna Manuela Gomes
The solar energy, in the form of light is captured by a parabolic concentrator system, which is guided and directed at a selected area of the building structure with a suitable optical fiber.
The optical fiber usually operates by means of a device which is placed in an external locking element that assists to collect and redirect the incident luminous flux, and by a device located within the environment capable of transporting daylight into the interior building and distributing it through different areas of lacking brightness.
This study is an attempt to make a prototype 5x5x3 meters of a real environment, using mirrors and various fiber optic cables. The first results will be analyzed through different equipments such as a luxometer, goniophotometer and spectrometer to investigate the photometric characteristics of the system in terms of distribution of light intensity and spectral radiation.
The lighting in this prototype must be continuously monitored by photometric sensors where the clarity of the sky plays an important role.
The aim of this paper is to demonstrate the efficient use of natural light in buildings, reducing the use of artificial lighting in buildings areas that continually use artificial energy, such as circulation area, lobbies, elevators, among others.
The solar energy, in the form of light is captured by a parabolic concentrator system, which is guided and directed at a selected area of the building structure with a suitable optical fiber.
The optical fiber usually operates by means of a device which is placed in an external locking element that assists to collect and redirect the incident luminous flux, and by a device located within the environment capable of transporting daylight into the interior building and distributing it through different areas of lacking brightness.
This study is an attempt to make a prototype 5x5x3 meters of a real environment, using mirrors and various fiber optic cables. The first results will be analyzed through different equipments such as a luxometer, goniophotometer and spectrometer to investigate the photometric characteristics of the system in terms of distribution of light intensity and spectral radiation.
The lighting in this prototype must be continuously monitored by photometric sensors where the clarity of the sky plays an important role.
The aim of this paper is to demonstrate the efficient use of natural light in buildings, reducing the use of artificial lighting in buildings areas that continually use artificial energy, such as circulation area, lobbies, elevators, among others.