Alo Allik scite author profile

This article describes a method for increasing the solar heat energy share in the heating of a dwelling. Solar irradiation is high in summer, in early autumn, and in spring, but during that same time, the heat demand of dwellings is low. This article describes a solution for storing solar heat energy in summertime as well as the calculations of the heat energy balance of such a storage system. The solar heat energy is stored in a thermally insulated water tank and used in the heating period. The heat is also stored in the ground if necessary, using the ground loop of the heat pump if the water tank’s temperature rises above a certain threshold. The stored heat energy is used directly for heating if the heat carrier temperature inside the tank is sufficient. If the temperature is too low for direct heating, then the heat pump can be used to extract the stored energy. The calculations are based on the solar irradiation measurements and heating demand data of a sample dwelling. The seasonal storing of solar heat energy can increase the solar heat energy usage and decrease the heat pump working time. The long-term storage tank capacity of 15 m3 can increase the direct heating from solar by 41%. The direct heating system efficiency is 51%.

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Smart Meter Data Analytics for Occupancy Detection of Buildings with Renewable Energy Generation

Allik

Muiste

Pihlap

2020

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Techno-economic analysis and energy forecasting study of domestic and commercial photovoltaic system installations in Estonia

Shabbir

Kütt

Raja

et al. 2022

Energy

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Autocorrelations of power output from small scale PV and wind power systems

Allik

Annuk

2016

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Alo Allik

Increasing self electricity consumption by using double water heating tanks for residential net zero-energy buildings

Increasing Solar Energy Usage for Dwelling Heating, Using Solar Collectors and Medium Sized Vacuum Insulated Storage Tank

Smart Meter Data Analytics for Occupancy Detection of Buildings with Renewable Energy Generation

Techno-economic analysis and energy forecasting study of domestic and commercial photovoltaic system installations in Estonia

Autocorrelations of power output from small scale PV and wind power systems

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