A comparative study of the effects of ventilation-purification strategies on air quality and energy consumption in Beiji
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A comparative study of the effects of ventilation-purification strategies on air quality and energy consumption in Beijing, China
1. School of Civil and Resource Engineering, University of Science and Technology Beijing, Beijing 100083, China 2. Department of Building Science, School of Architecture, Tsinghua University, Beijing 100084, China 3. Beijing Key Laboratory of Indoor Air Quality Evaluation and Control, Tsinghua University, Beijing 100084, China
Abstract
Keywords
In countries suffering from heavy ambient air pollution, ventilation is a problem, as ventilation intakes outdoor air pollutants, such as particulate matter with an aerodynamic diameter less than 2.5 μm (PM2.5), while removing indoor air pollutants. Thus, it is important to identify appropriate ventilation-purification strategies to build healthy indoor environments with low energy consumption. This study reports the comparison of two sets of strategies, i.e., mechanical ventilation with filters and natural ventilation with indoor air cleaners, in respect to energy consumption and the PM2.5 and carbon dioxide (CO2) exposure of occupants in a typical apartment in Beijing, China. A dynamic mass balance model was employed to calculate the PM2.5 and CO2 exposure concentrations, while the energy consumption of heating and cooling was simulated with the Designer’s Simulation Toolkit. It was found that natural ventilation with air cleaners provided lower PM2.5 exposure compared with that of mechanical ventilation with filters; however, mechanical ventilation achieved a lower CO2 exposure concentration. The annual cooling, heating, and fan energy consumption of natural ventilation strategies are lower than those of mechanical ventilation strategies. With respect to natural ventilation, an infiltration rate of 0.3–0.4 h−1 was the preferred setting, which led to low PM2.5 and CO2 exposure with lower energy consumption. The basic requirements for controlling indoor PM2.5 could be met if the threshold is set at 25 μg/m3. The results provide guidelines on how to combine multiple ventilation purification strategies to improve indoor air quality with lower energy usage.
ventilation,
Introduction
Indoor air is a dominant route of exposure for humans spanning their entire lifespan (Sundell 2004). Indoor air quality (IAQ) has a significant influence on human health, productivity, and psychology (Boxer 1990; Berglund et al. 1992; Fisk and Rosenfeld 1997; Fisk 2000). IAQ can be worsened by pollutants emitted by the activities of building occupants, building materials, furniture, and even the presence of humans (Maula et al. 2017). Appropriate ventilation is an effective way to improve IAQ (Sundell et al. 2011). Ventilation can introduce fresh outdoor air and dilute air pollutants generated indoors, such as volatile organic compounds, formaldehyde, and carbon dioxide (CO2). E-mail: [email protected]
air purification, pollutant exposure, energy consumption, indoor air quality
Article History Received: 09 June 2020 Revised: 06 July 2020 Accepted: 19 July
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