Nonvolatile Portable Power Supply. Performance Capabilities and Organization Principles in Continental Areas

Abstract

The analysis solar and wind electrical generation units efficiency in the continental areas with determination of the most potential constructive decisions is carried out. The framed wind rotor developed by the authors providing the continuity of electric power supply during the year, portability and transportability of the wind-electric unit. The necessity of using the positioning control systems of solar electrical units’ photosensitive plates with the increased generation energy efficiency up to 42% is scientifically grounded. The organization of nonvolatile electric power supply complexes by heterogeneous energy sources provides for the increase in the energy supply stability by more than 2 times, at the same time, it helps to reduce the complex size and mass 2 times if compared with the homogeneous ones. The analyzed portable systems’ organization principles enable the authors to make autonomous electric power generating complexes that do not require connection to stand-by energy sources.