The article describes using small off-line solar power plants transforming solar energy into electric energy on shipboard for domestic needs: heating, lighting, pumping etc. It has been stated that in solving problems of increasing the reliability and efficiency of installing solar panels, as well as reducing the consumed electric power, electric solar power systems with jet-valve electric drives seem very promising. Using gearless electric drives in solar power plants contributes to increased accuracy of precision automatic control systems. In the researches related to jet valve machines there is found a lack in the description of a method for calculating engine parameters for a solar power system depending on the real area and panel size. For studying the characteristics of the drive transients a mathematical model is analyzed and its algorithm is presented, in which the end-to-end calculation method is used. According to this method, the initial parameters of the engine are set first, then the main dimensions and parameters of the magnetic circuit are calculated, and in the end the operating characteristics of the electric drive are determined. The dependences of the motor torque on the angle of rotation, current and inductance are calculated, as well as the flux linkage of the switched reluctance motor. The drive transient simulation has been performed. An increase of the mathematical model performance was achieved by introducing an angle identifier into the tracking system. The problem of using the rotor position sensors, which is not always possible, was solved by applying methods of indirect determining the position of angle of the rotor. It has been stated that the electrotechnical system with switched reluctance motor used in the tracking system (as well as in other types of electric drive) is widely popular due to high reliability of the solar power plant, simplicity of its design and low cost, as well as accurate positioning in the process of solar panel alignment.
Technology Sun Tracking System for Solar Power Plants Base on Recurrent Neural Networks
