Development of the Structure of the Life Cycle of the Heating System of a Construction Facility

Introduction. The heating system is an integral part of the construction site. In the article, the author explores the life cycle of a heating system, a complex system of engineering and technical support for buildings and structures, the elements of which must function stably, efficiently and fully throughout the heating period during the entire service life. The productive operation of the heating system is laid at the stage of its design, installation, adjusted and maintained at the stages of operation and modernization. Therefore, studying the life cycle of a heating system is an important scientific and practical task, and managing the stages of the life cycle becomes important, as it allows for efficiency, adaptability, cost-effectiveness and reliability.

Materials and methods. The authors have developed the structure of the life cycle of a building heating system using methods of analogy, comparative analysis and synthesis based on scientific and practical research results. The study focuses on the water heating system of residential and public buildings. The purpose of the work is to create a model of the life cycle for effective management of its stages and stages.

Results. The study of the heating system helped to identify five stages of its operation (pre-design, design, operation, modernization and disposal) and to create a life cycle structure. In the future, this will make it possible to create an energyefficient, reliable and economical system that meets modern operational requirements, improve the quality of its maintenance, and simplify the management process.

Discussion and conclusion. The life cycle of a heating system includes all stages from design to modernization. Proper management of these stages ensures efficient operation of the system, increasing comfort and reducing costs. An integrated management approach makes it possible to maximize the heating potential. A systematic study of each stage helps to choose the optimal system that meets the criteria of efficiency, safety and cost-effectiveness. The structure of the life cycle allows one to create a single digital model for intelligent management of an object at all stages.

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