Abstract
The conceptual model and feasibility of the hybrid energy system for residences and public facilities in snowy cold regions were studied. Based on the existing data, the existing and available amounts of natural energy and unused energy in the target area, Sapporo were estimated. Based on the predicted energy demands of 4 kinds of building models, the energy systems for such models were studied. The use of the following energies was considered: photovoltaic power generation and solar heat for all the models, household sewage energy for the multiple-dwelling house model, and wind power generation for the public facility model. The annual energy balance was calculated to evaluate it. The use of additional commercial electricity was necessary, while surplus solar heat energy was found in summer which can push up the self-sufficiency rates of the residence and public facility models to 70% and 44%, respectively. The multiple- dwelling house model which can use a large amount of household sewage energy could utilize 80% of new energy, while the other 3 models utilized only 60-70% of that. 81 figs., 42 tabs.
Citation Formats
None.
Basic survey on the residence using hybrid energy in snowy cold regions; Sekisetsu kanreichi ni okeru hybrid energy katsuyogata jutaku nado ni kansuru kiso chosa.
Japan: N. p.,
1997.
Web.
None.
Basic survey on the residence using hybrid energy in snowy cold regions; Sekisetsu kanreichi ni okeru hybrid energy katsuyogata jutaku nado ni kansuru kiso chosa.
Japan.
None.
1997.
"Basic survey on the residence using hybrid energy in snowy cold regions; Sekisetsu kanreichi ni okeru hybrid energy katsuyogata jutaku nado ni kansuru kiso chosa."
Japan.
@misc{etde_582449,
title = {Basic survey on the residence using hybrid energy in snowy cold regions; Sekisetsu kanreichi ni okeru hybrid energy katsuyogata jutaku nado ni kansuru kiso chosa}
author = {None}
abstractNote = {The conceptual model and feasibility of the hybrid energy system for residences and public facilities in snowy cold regions were studied. Based on the existing data, the existing and available amounts of natural energy and unused energy in the target area, Sapporo were estimated. Based on the predicted energy demands of 4 kinds of building models, the energy systems for such models were studied. The use of the following energies was considered: photovoltaic power generation and solar heat for all the models, household sewage energy for the multiple-dwelling house model, and wind power generation for the public facility model. The annual energy balance was calculated to evaluate it. The use of additional commercial electricity was necessary, while surplus solar heat energy was found in summer which can push up the self-sufficiency rates of the residence and public facility models to 70% and 44%, respectively. The multiple- dwelling house model which can use a large amount of household sewage energy could utilize 80% of new energy, while the other 3 models utilized only 60-70% of that. 81 figs., 42 tabs.}
place = {Japan}
year = {1997}
month = {Mar}
}
title = {Basic survey on the residence using hybrid energy in snowy cold regions; Sekisetsu kanreichi ni okeru hybrid energy katsuyogata jutaku nado ni kansuru kiso chosa}
author = {None}
abstractNote = {The conceptual model and feasibility of the hybrid energy system for residences and public facilities in snowy cold regions were studied. Based on the existing data, the existing and available amounts of natural energy and unused energy in the target area, Sapporo were estimated. Based on the predicted energy demands of 4 kinds of building models, the energy systems for such models were studied. The use of the following energies was considered: photovoltaic power generation and solar heat for all the models, household sewage energy for the multiple-dwelling house model, and wind power generation for the public facility model. The annual energy balance was calculated to evaluate it. The use of additional commercial electricity was necessary, while surplus solar heat energy was found in summer which can push up the self-sufficiency rates of the residence and public facility models to 70% and 44%, respectively. The multiple- dwelling house model which can use a large amount of household sewage energy could utilize 80% of new energy, while the other 3 models utilized only 60-70% of that. 81 figs., 42 tabs.}
place = {Japan}
year = {1997}
month = {Mar}
}