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- Title
Розвиток та перспективи впровадження багатофункціональних сонячних систем.
- Authors
Косой, Б. В.; Бошков, Л. З.; Халак, В. Ф.
- Abstract
The development of multifunctional solar systems, which directly include PV/T systems and systems of heating, cooling and air conditioning, their implementation into domestic production will contribute to the reduction of reliance on non-renewable fuel and energy resources, the creation of new industries and jobs. The state of development of solar cogeneration PV/T systems, the possibility of distribution in the residential sector, and the readiness of owners of communal households to modernize heating and power supply systems are considered. It is noted that the cogeneration of electricity, refrigeration and heat, providing full autonomy of solar systems, are able to solve the main tasks of life support: hot water supply, cooling of environments and air conditioning, as well as air drying for use in various technological production processes. Data on the prospects of joint use of solar air collectors with heating and ventilation systems are provided. The current state of practical application of PV/T-collectors is considered. The reasons that hinder the rapid spread of PV/T systems are noted and the efficiency of collectors of different designs is compared. The structural and functional features of the operation of the cogeneration solar power plant and the evaluation of its efficiency in relation to the economy of nonrenewable sources are presented. An assessment of the market potential of PV/T collectors is presented. It is emphasized that since consumers use the largest amount of energy for heating, the PV/T solar collector is an alternative promising system for applications of low potential energy in residential, industrial and commercial buildings. The concept of creating a new generation of multifunctional solar systems based on the heat-using absorption cycle of the open type has been developed.
- Subjects
HOT-water supply; SOLAR collectors; POWER resources; SOLAR power plants; AIR conditioning; ENERGY consumption; SOLAR heating
- Publication
Refrigeration Engineering & Technology, 2023, Vol 59, Issue 2, p88
- ISSN
0453-8307
- Publication type
Article
- DOI
10.15673/ret.v59i2.2629