Abstract
There is growing interest in zero-energy and low-energy buildings, which have a net energy consumption (on an annual basis) of almost zero. Because they can generate both electricity and thermal energy through the use of solar photovoltaic (PV) and solar thermal collectors, and with the help of reduced building thermal demand, low-energy buildings can not only make a significant contribution to energy conservation on an annual basis, but also reduce energy consumption and peak demand. This study focused on electricity consumption during the on-peak period in a low-energy residential solar building and considers the use of a building’s thermal mass and thermal storage to reduce electricity consumption in summer and winter by modulation of temperature setpoints for heat pump and indoor thermostats in summer and additional use of a solar heating loop in winter. Experiments were performed at a low-energy solar demonstration house that has solar collectors, hot water storage, a ground-coupled heat pump, and a thermal storage tank. It was assumed that the on-peak periods were from 2 pm to 5 pm on hot summer days and from 5 pm to 8 pm on cold winter days. To evaluate the potential for utilizing the building’s thermal storage capacity in space cooling and heating, the use of simple control strategies on three test days in summer and two test days in the early spring were compared in terms of net electricity consumption and peak demand, which also considered the electricity generation from solar PV modules on the roof of the house.
Highlights
A number of studies have been conducted on reducing electricity demand on the national power grid during peak periods
The control strategies applied in this study adjust the setpoint temperatures for the heat pump and the indoor space to utilize thermal storage to shift thermal demand during the on-peak period to the time period prior to the on-peak period
The control strategies applied in this study adjust the setpoint temperatures for the heat pump and the indoor space to utilize buffer thermal storage and building thermal mass to shift thermal demand during the on-peak period to the time period prior to the on-peak period in space cooling mode
Summary
A number of studies have been conducted on reducing electricity demand on the national power grid during peak periods. There is a growing interest in zero- or low-energy solar houses that consume nearly zero net energy annually. Zero- and low-energy solar houses exploit renewable energy technologies such as solar photovoltaic (PV) systems to convert solar energy, and building efficiency technologies to achieve the goal of near-zero energy consumption. Solar houses can generate both electricity and thermal energy using solar PV modules and solar thermal collectors. A heat pump system can be installed to meet space cooling demand and part of the space heating demand. With the help of building energy efficiency technologies such as better insulation and high-performance windows, the thermal demand of low-energy houses can be reduced to less than half that of conventional houses
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