GEOSPATIAL DISTRIBUTION OF CITY INFRASTRUCTURE FOR THE PRACTICAL APPLICATION OF HEAT PUMPS

Abstract

Use of water resources and wastewater treatment on a global scale. For various areas of use, appropriate water quality and purification is required. But in connection with the ecological situation in various countries of the world and the economic situation, which is developing in 2023 and beyond, it is worth noting that it leads to a global emergency. Instability of wastewater treatment parameters in various regional and global basins. The obsolescence of water purification processes and mechanisms prompts humanity to search for new methods of purification and disposal of accumulated pollution. The financial sector is experiencing a significant downturn and is pushing global stock exchanges into economic depression and the possible collapse of currency charters in the system of central banks. The change in the reserve currency and the value of currencies in the world financial sphere is already setting a new trend in the distribution and redistribution of economic markets. The further development of technology and science in general requires the search for new funding sectors, platforms for the use of financial niches and a globally accessible calculation and earning sector for scientists. Heat recovery and wastewater treatment is becoming a key issue in the field of water resources. Among the local sources of purification, which are gaining great popularity and special need in our country. Biological processes of water purification are quite dependent on temperature changes. It has been observed that when there is a rapid drop in temperature over a period of several hours, the hydraulic retention of the CB acts as a buffer for the temperature in the tanks, resulting in the stabilization of the biological process. In the research, the search for a project with a quick payback period and low cost with provision of hot water supply appears. Implementation of technologies for utilization of heat from the environment and income for the benefit of communities and condominiums. The further calculation of the project should have a tendency, regarding the universality and practicality of its implementation, to be economically competitive and to bring improvements to the public sector. One of the first steps in the development of networks is the need for data. Work with data can be carried out in two ways: visualization and arrangement of data based on tabular forms in combination with existing maps, as well as with the development of a spatial display of objects, in combination with attributive data, for other operations and system interaction. Based on the data, it is possible to determine the location of boiler houses, CTP and ITP, as well as the distance of consumers from them. The distance between houses can serve as the main characteristic for dividing consumers into zones, which, in turn, will reflect the situation with high-quality provision of domestic hot water. After analyzing the data, it was found that some houses contain several connections of DHW networks. HVP networks are a network of interconnected linear objects, with the help of which it is possible to determine the distance of objects, as well as to display the distribution of the load between consumers. Keywords: heat pump, cost-effectiveness of projects, water heating, geospatial search, alternative sources, waste water, urban infrastructure, secondary heat.