The dynamic response of the dust particles on the rotating polycarbonate disk is examined in relation to the cleaning of the photovoltaic protective cover. Forces developed on the dust particles due to the rotational motion of the disk are formulated and predicted in line with the experimental conditions. The comparison of the resulting forces including centrifugal, gravitational, drag, lift, adhesion, and friction forces is carried out for various locations on the disk, different rotational speeds and several dust particle sizes. The dust particles collected from the local environment are analyzed using the analytical tools including scanning electron and atomic force microscopes, energy dispersive spectroscopy, and X-ray diffraction. An experiment is carried out to assess the dust removal from the polycarbonate disk surface. The dust residues after the tests are analyzed and adhesion force between the dust particles and the polycarbonate surface is measured. It is found that centrifugal force remains higher than the adhesion, friction, drag, lift, and gravitational forces in the region away from the rotational center. The dust particle size and rotational speed significantly influence the rate of dust removal from the disk surface. (C) 2016 Elsevier Ltd. All rights reserved.