Abstract
With respect to residential electric power utilization and supply systems utilizing photovoltaic power generation, the installation inducible economic conditions were searched using a linear programming technique, and influences by charge systems were evaluated and discussed. A photovoltaic system model consists of a photovoltaic panel, a control panel incorporated inverter, and a storage battery set. For the amount of power generated by the photovoltaic system, mean values for total insolation in Tokyo each for winter, summer, and intermediate seasons were used, assuming the photovoltaic system efficiency at 10% and the battery charge/discharge efficiency at 70%. Residential power load patterns were hypothesized from 200 to 1000 kWh/month depending on the demand scale. As a result of the analysis, it was made clear that the condition the photovoltaic system is accepted by residential housing is such that the price for the photovoltaic system including the inverter becoming 1/5 of the present price, and the price for the battery including the charge/discharge control device becoming 1/3 make the cost break-even. In the case of time-band based charge system, it is shown that the case where the ratio of daytime charge to nighttime charge is three makes the coordination of the battery and the photovoltaic
More>>
Citation Formats
Imamura, E, and Asano, H.
Optimal planning of residential photovoltaic systems under various rate structure; Jikantaibetsu ryokinseika ni okeru jutakuyo taiyoko hatsuden system no saiteki keikaku.
Japan: N. p.,
1993.
Web.
Imamura, E, & Asano, H.
Optimal planning of residential photovoltaic systems under various rate structure; Jikantaibetsu ryokinseika ni okeru jutakuyo taiyoko hatsuden system no saiteki keikaku.
Japan.
Imamura, E, and Asano, H.
1993.
"Optimal planning of residential photovoltaic systems under various rate structure; Jikantaibetsu ryokinseika ni okeru jutakuyo taiyoko hatsuden system no saiteki keikaku."
Japan.
@misc{etde_10140764,
title = {Optimal planning of residential photovoltaic systems under various rate structure; Jikantaibetsu ryokinseika ni okeru jutakuyo taiyoko hatsuden system no saiteki keikaku}
author = {Imamura, E, and Asano, H}
abstractNote = {With respect to residential electric power utilization and supply systems utilizing photovoltaic power generation, the installation inducible economic conditions were searched using a linear programming technique, and influences by charge systems were evaluated and discussed. A photovoltaic system model consists of a photovoltaic panel, a control panel incorporated inverter, and a storage battery set. For the amount of power generated by the photovoltaic system, mean values for total insolation in Tokyo each for winter, summer, and intermediate seasons were used, assuming the photovoltaic system efficiency at 10% and the battery charge/discharge efficiency at 70%. Residential power load patterns were hypothesized from 200 to 1000 kWh/month depending on the demand scale. As a result of the analysis, it was made clear that the condition the photovoltaic system is accepted by residential housing is such that the price for the photovoltaic system including the inverter becoming 1/5 of the present price, and the price for the battery including the charge/discharge control device becoming 1/3 make the cost break-even. In the case of time-band based charge system, it is shown that the case where the ratio of daytime charge to nighttime charge is three makes the coordination of the battery and the photovoltaic system optimal. 7 refs., 16 figs.}
place = {Japan}
year = {1993}
month = {May}
}
title = {Optimal planning of residential photovoltaic systems under various rate structure; Jikantaibetsu ryokinseika ni okeru jutakuyo taiyoko hatsuden system no saiteki keikaku}
author = {Imamura, E, and Asano, H}
abstractNote = {With respect to residential electric power utilization and supply systems utilizing photovoltaic power generation, the installation inducible economic conditions were searched using a linear programming technique, and influences by charge systems were evaluated and discussed. A photovoltaic system model consists of a photovoltaic panel, a control panel incorporated inverter, and a storage battery set. For the amount of power generated by the photovoltaic system, mean values for total insolation in Tokyo each for winter, summer, and intermediate seasons were used, assuming the photovoltaic system efficiency at 10% and the battery charge/discharge efficiency at 70%. Residential power load patterns were hypothesized from 200 to 1000 kWh/month depending on the demand scale. As a result of the analysis, it was made clear that the condition the photovoltaic system is accepted by residential housing is such that the price for the photovoltaic system including the inverter becoming 1/5 of the present price, and the price for the battery including the charge/discharge control device becoming 1/3 make the cost break-even. In the case of time-band based charge system, it is shown that the case where the ratio of daytime charge to nighttime charge is three makes the coordination of the battery and the photovoltaic system optimal. 7 refs., 16 figs.}
place = {Japan}
year = {1993}
month = {May}
}