Induced flow for ventilation and cooling by a solar chimney

An experimental and numerical model of a solar chimney was proposed in order to predict its performance under varying geometrical features in Iraqi environmental conditions. Steady, two dimensional, turbulent flow was developed by natural convection inside an inclined solar chimney. This flow was investigated numerically at inclination angles 15 degrees to 60 degrees, solar heat flux 150-750 W/m(2) and chimney thickness (50, 100 and 150) mm. The experimental study was conducted using a single solar chimney installed on the roof of a single room with a volume of 12 m(3). The chimney was 2 m long; 2 m wide has three gap thicknesses namely: 50, 100 and 150 mm. The performance of the solar chimney was evaluated by measuring the temperature of its glass cover, the absorbing wall and the temperature and velocity of induced air. The results of numerical model showed that; the optimum chimney inclination angle was 60 to obtain the maximum rate of ventilation. At this inclination angle, the rate of ventilation was about 20% higher than 45 degrees. Highest rate of ventilation induced with the help of solar energy was found to be 30 air changes per hour in a room of 12 m(3) volumes, at a solar radiation of 750 W/m(2), inclined surface angle of 60, aspect ratio of 133 and chimney length of 2 m. The maximum air velocity was 0.8 m/s for a radiation intensity of 750 W/m(2) at an air gap of 50 mm thickness. No reverse air flow circulation was observed even at the largest gap of 150 mm. The induced air stream by solar chimney can be used for ventilation and cooling in a natural way (passive), without any mechanical assistance. (C) 2015 Elsevier Ltd. All rights reserved.