The study of a solar thermal driven air-conditioning system with possibility of integration latent heat storage in the cooling system is presented. A simulation model for system dynamical simulations was
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In this study, we analyzed the first year operation of the solar field, solar collector efficiency, and several influencing factors, i.e., ambient air temperature, heat carrier flow, and the
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Solarvance provides high-efficiency, cold-climate solar systems tailored for Latvia''s environment—built for low-light performance, humidity resistance, and year-round reliability.
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This paper focuses on best practice project in Latvia – fully renewable district heating system assisted by solar collector system with thermal storage tank and woodchip boilers.
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Research at the Solar Energy Research Institute has focused on high-temperature, diurnal storage because of the frequency of use and the potential for conservation of premium fossil
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Latvia environment is very potential for solar usage, but there are many reasons why consumers have skepticism and a perception that the environment in this region is not suitable for solar energy usage.
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Considering the planning process for urban photovoltaic systems in Latvia, the purpose of this article is to provide an example using a simulation model for existing multi-apartment buildings
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The SDHW system is a low flow system based on 15 BA22 solar collector panels from Batec A/S with a total collector area of 32.9 m2 and on a 2000 l hot water tank in which thermal stratification is built up
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The aim of paper is to investigate the Latvian environmental propriety for solar interceptor systems. To achieve objectives in the modeling program is designed for family home project; a house will be
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Solar generation capacity is growing steadily, with a high number of microgenerator permits issued. Smart meter penetration is at 98%, but grid tariff increases in 2023 led to government intervention for
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