The next stage of research was the creation of the resulting effects experienced industrial wind-hydro device WHD-2 in the period January - June 2011
1) to produce a pilot industrial plant, capable of reproducing a flexural-torsion flutter; 2) develop a methodology for the study of flexural-torsion flutter of oscillating flow in a fluid array of work items;
A pilot plant to test the flow of fluid (water or air) WHD-2 was collected from independent modules arranged on a common platform. The design module pilot plant was working similar to the design modules of the laboratory setup (Fig. 1, 2).
As a source of air flow was used axial fan air with the following parameters: motor power Ne = 1.5 kW; number of revolutions n = 1420 rev / min; the size of the working section of the cochlea at the output - 220 * 220 square meters. mm.
1) A pilot plant for that can reproduce the flexural-torsion flutter; 2) the methodology of the study of flexural-torsion flutter of oscillating flow in a fluid array of work items; 3) study the scattering of the kinetic energy of air flow fan, designed for aerodynamic testing of the installation WHD-2.