LAUSR

Buildings consume large amounts of energy, and lighting consumes a substantial amount of this energy. Therefore, an alternative technology that depends more on natural lighting is needed in order to reduce the building energy consumption. In this paper, based on the excellent properties of light guiding and elasto-optic effect of optical fibre, a novel transparent concrete with plastic optical fibres (POFs) arranged into the concrete was developed and evaluated. The light transmitting performance of plastic optical fibre transparent concrete product (PTCP) was tested by optical power method. The ZEMAX software was used to simulate the transparent test, and the prediction model was established to predict the light transmittance of PTCP. The evaluation of the energy-saving effect due to the use of this building material was studied using the Autodesk Ecotect software. The results showed that PTCP possesses excellent light transmittance property, which was proportional to the content of the optical fibres. The model established by ZEMAX can effectively predict the transmittance of PTCP. The average daylighting factor of the room built with PTCP was increased by nearly 30%, the lighting uniformity was upgraded by nearly 40% and nearly 20% reduction in energy consumption was realised.