This work has the objective of developing a methodology for the evaluation of indoor natural lighting systems, which, with speed and practicality, provides from real conditions of use a reliable result about the quality and performance of the proposed system. The methodology is based on the construction of two real-size test environments, which will be subjected to a natural light system through reflexive tubes made from recycled material, and to a commercial system already certified and consolidated, creating the possibility of comparison. Furthermore, the data acquired in the test environments will be examined in light of the values of solar radiation obtained from a digital meteorological station, such that it is possible to stipulate the lighting capacity of the systems at different times of the year.
Abstract:In the search for alternatives to reduce the consumption of electric energy, the possibility of using natural light for lighting through TDD (tubular daylight devices) or TDGS (tubular daylight guidance systems) appears. These natural luminaires are used in rooms where you want to save electricity and enjoy the benefits of natural light. The present work proposes the construction of a tubular system for the conduction of natural light that replaces aluminum with silver (currently marketed by several companies) by polymer metallized with aluminum, offering a low cost. The polymer acrylonitrile butadiene styrene (ABS), coated with aluminum by physical vapor deposition (ionization), was evaluated for some tests to verify characteristics of the structure and the metallized surface. After the tests, the construction of the reflective tube was performed and validated in a real scale of application. The results proved the technical viability of the proposed tube construction for the realization of direct sunlight for illumination using polymeric material. Although it has produced 35% less than the reference tube, it can be marketed at an estimated cost of 50% less.
This present paper is a study of the possibility of replacing conventional indoor light bulbs, by the daylighting trough domes and reflective tubes, which respectively capture and diffuse the sunlight to the interior environment. Base on collected data trough in a weather station, it is made a daily data collection and realized a projection of the sunlight which will focus on purpose study's system, according to the variations over the analyzed months. Wherefore, it is estimated the amount of replaced light bulbs and, therefore your economy. This kind of technology will allow the illumination will happen in a healthy and comfortable way.
This paper proposes the development of a low cost integrating sphere used for measuring flux characteristics and luminous spectrum lamps. The proposal provides the use of alternative materials as well the replacement of measuring high level equipment for more practical and common hardware accessories, providing a reduction in the cost of development. The objective is to minimize the cost of light sources assays, currently with a high cost, for research purposes, educational issues and the opportunity to use this alternative system for validation of new products, light bulbs and/or tubular daylighting devices for lighting indoors.
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