Abstract
This paper presents a study on the use of optical fiber and a solar concentrator for a building daylighting system. Daylighting is essential for improving indoor environments and reducing electric lighting power consumption in office buildings. Traditionally, optical fiber daylighting systems were implemented only on a small scale. More complicated technologies are required for more amounts of daylight over further distance via a smaller light guider. The proposed solar lighting system with optical fiber is composed of an array of linear Fresnel lenses and a stepped thickness waveguide. The linear Fresnel lenses collect light into the stepped thickness waveguide. The stepped-thickness waveguide is an optical component which redirects focused sunlight from the vertical direction to the horizontal direction, and it guides light to the attached optical fiber. Simulation models were developed using commercial optical simulation tools (LightTools™). The optical efficiency and angular tolerance of the system are analyzed. The overall system cost is also estimated. Some considerations on the economic expansion of the system in terms of efficiency and estimated annual average energy saving are discussed. The results show that the presented optical fiber daylighting system is a strong candidate for low-price and highly efficient solution for solar energy application to building energy savings.
Highlights
Lighting is an important part of the total living or working environment
We introduce an alternative approach for large scale sunlight concentration by of a waveguide solar concentrator is quite new,associated and originally came from the design of aa planar replacing as theamultiple secondary optics and their optical fiber coupling modules with concentrator
We proposed a novel optical fiber based daylighting system using linear Fresnel lenses andand a a stepped thickness waveguide
Summary
As a form of green energy, daylighting is essential for improving environments and reducing the electric lighting power consumption in office buildings [4]. Optical fiber daylighting technology is one of the most efficient solutions for the delivery of natural light to a space in a building where daylight is limited. This technology uses large area optical components to collect direct sunlight and transfers the light to interiors through optical fiber which has the ability to bring sunlight much deeper into buildings [1,5,6,7,8]. Efficient daylight buildings are estimated to reduce the energy consumption needed for electric lighting by 50% to 80% [12].
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