Abstract
Measurements were taken on an indoor heat storage capacity where the heat exchange between the solar collector and the hot water container took place through an external heat exchanger. The heat storage facility was tested as a part of a smaller solar heating system. A heat storage capacity was built up which, with the help of natural circulation, led the heated liquid from the heat exchanger up into the hot water container so that a satisfactory arrangement of temperature layers was achieved. The heat storage facility was tested in connection with a 4 square meter solar collector and during a 7-week period the system yielded 110 kWh which was lower than that where an enclosed container system was used. It was also found that a heat storage facility with and external heat exchanger was more expensive to run. (AB).
Citation Formats
Fagerlund Carlsson, P, and Furbo, S.
Low-flow solar heating system with a hot water container and an external heat exchanger; Low flow solvarmeanlaeg med en varmtvandsbeholder og en ekstern varmeveksler.
Denmark: N. p.,
1991.
Web.
Fagerlund Carlsson, P, & Furbo, S.
Low-flow solar heating system with a hot water container and an external heat exchanger; Low flow solvarmeanlaeg med en varmtvandsbeholder og en ekstern varmeveksler.
Denmark.
Fagerlund Carlsson, P, and Furbo, S.
1991.
"Low-flow solar heating system with a hot water container and an external heat exchanger; Low flow solvarmeanlaeg med en varmtvandsbeholder og en ekstern varmeveksler."
Denmark.
@misc{etde_10140542,
title = {Low-flow solar heating system with a hot water container and an external heat exchanger; Low flow solvarmeanlaeg med en varmtvandsbeholder og en ekstern varmeveksler}
author = {Fagerlund Carlsson, P, and Furbo, S}
abstractNote = {Measurements were taken on an indoor heat storage capacity where the heat exchange between the solar collector and the hot water container took place through an external heat exchanger. The heat storage facility was tested as a part of a smaller solar heating system. A heat storage capacity was built up which, with the help of natural circulation, led the heated liquid from the heat exchanger up into the hot water container so that a satisfactory arrangement of temperature layers was achieved. The heat storage facility was tested in connection with a 4 square meter solar collector and during a 7-week period the system yielded 110 kWh which was lower than that where an enclosed container system was used. It was also found that a heat storage facility with and external heat exchanger was more expensive to run. (AB).}
place = {Denmark}
year = {1991}
month = {Dec}
}
title = {Low-flow solar heating system with a hot water container and an external heat exchanger; Low flow solvarmeanlaeg med en varmtvandsbeholder og en ekstern varmeveksler}
author = {Fagerlund Carlsson, P, and Furbo, S}
abstractNote = {Measurements were taken on an indoor heat storage capacity where the heat exchange between the solar collector and the hot water container took place through an external heat exchanger. The heat storage facility was tested as a part of a smaller solar heating system. A heat storage capacity was built up which, with the help of natural circulation, led the heated liquid from the heat exchanger up into the hot water container so that a satisfactory arrangement of temperature layers was achieved. The heat storage facility was tested in connection with a 4 square meter solar collector and during a 7-week period the system yielded 110 kWh which was lower than that where an enclosed container system was used. It was also found that a heat storage facility with and external heat exchanger was more expensive to run. (AB).}
place = {Denmark}
year = {1991}
month = {Dec}
}