Theoretical models for wall solar chimney

Under the fact that previous studies have usually ignored the influences of room configuration, wall solar chimneys under both cooling and heating modes were analyzed theoretically to fill the research gap. Solar chimneys are different from solar photovoltaics which produce electricity directly, while the energy saving of the target building is realized by promoting natural ventilation and saving the electricity originally consumed by heating, cooling, and air conditioning (HVAC) systems. Solar chimney performance depends on the airflow rate and its temperature, where theoretical models were developed in this study to predict the natural ventilation with four typical types, including fresh-air cooling, fresh-air heating through chimney cavity and room, and sealed heating (without any fresh-air supply). It is known that the room configuration shows considerable influence on solar chimney performance, where a coefficient is proposed to address the impact. Different from the cooling mode, airflow rate under heating mode was found not only dependent on cavity height but also the opening height of the room. To heat a typical room, fresh-air heating through the cavity shows the highest airflow rate but with the lowest temperature, which can be applied to regularly occupied buildings under cool weather conditions. Fresh-air heating through the room shows an opposite way, which is suitable for regularly occupied buildings under cold weather conditions. The performance of sealed heating is between these two, which can be used for nonregularly occupied buildings as there is no fresh air supply.