@ARTICLE{Wu_Xiangyong_Study_2021, author={Wu, Xiangyong and Yang, Zhi Yi}, volume={vol. 24}, number={No 2}, journal={Polityka Energetyczna - Energy Policy Journal}, pages={183-206}, howpublished={online}, year={2021}, publisher={Instytut Gospodarki Surowcami Mineralnymi i EnergiÄ… PAN}, abstract={The research considers the aspect of the formation of interior lightning in conditions of extensive expenses on heating. In this regard there is important to study features not only of places and model of lightning, but also generation of heat in order to minimize expenses and find alternative technical solutions for building functioning. The relevance is determined by the fact that the problem of low efficiency of thermal energy used to ensure an appropriate microclimate in buildings is typical for many regions. The purpose of this article is to study features not only of places and model of lighting but also generation of heat to minimize expenses and find alternative technical solutions for building functioning. In the work, the methods of calculation methods and mathematical models such as the exergy model of humans were used. The authors have determined that daylight is only one of the complex solutions of the matter of building energy efficiency. Providing the conditions of heating comfort indoors is not less important in the conditions of increasing requirements to energy conservation. The authors consider the compromise between these two requirements without harming human health the main challenge to the energy conservation specialists. The authors have developed the model, which evaluates not only the achievements of technical parameters, but also orientation toward the model of energy consumption of human. The practical application of the developed methodology allows for forecasting not only building heating based on projected technical indicators but also tailored to individual needs.}, type={Article}, title={Study on daylighting mode of energy-efficient buildings}, URL={http://journals.pan.pl/Content/120159/PDF/10-08-Xiangyong-i-inni.pdf}, keywords={building, energy-efficient, human, structure, lighting, heating}, }