Formation of system approach using renewable natural resources in high-rise bio-climate building

Abstract

The inclusion of alternative energy in the structure of high-rise bioclimatic buildings significantly improves their energy and environmental performance, which is consistent with the principles of bioclimatic buildings. The integration of alternative energy in high-rise bioclimatic architecture requires special approaches - the synthesis of architectural shaping, advanced scientific and technical means, natural resources.The article discusses the systematization of energy supply tasks for high-rise bioclimatic high-rise buildings when using natural renewable energy resources in them. The feasibility of using the latter requires a systematic analysis, given the significant number of internal and external influences, ensuring the requirements of technical and environmental safety, structural reliability and durability.The study presents the main components of the system model: the target subsystem for the consumption of renewable resources of a high-rise bioclimatic building and the providing subsystem that has several system levels that can be classified as macro, meso - and micro levels.The stages of system modeling are considered: 1) analysis of the source data; 2) selection of funds; 3) impact optimization. At the first stage of system modeling - sources of renewable energy are determined at the macro, meso and micro levels, taking into account the duration, frequency of renewable energy, its types and intensity. The second stage of system modeling - “choice of means” is associated with functional constructive modeling. At the third stage, to optimize the impacts, the level of environmental impact of the alternative energy systems of the high-rise bioclimatic building used is determined.