Outdoor transportation of influenza virus under natural wind field

Abstract

The transportation of influenza virus in a group of buildings under the condition of natural wind field was studied. The curves of natural wind power spectrum and the velocity field with respect to time were simulated by the improved weighted amplitude wave superposition with fast Fourier transform. According to Davenport spectrum, the approximation function of wind velocity field with respect to time was used to simplify the calculation efforts. The average wind field and natural wind field were adopted to simulate the microbial contamination diffusion in a group of buildings. In the case of natural wind, the virus particles are dispersed faster from buildings, and the contamination concentration is low. However, the large downwind area may face the threat of virus contamination.