RU104644U1 - ELECTRIC CAR REVERSE WIND ENGINE - Google Patents

Abstract

 A carousel-type wind turbine for an electric vehicle, comprising a vertical shaft on which the blades made of metal or durable plastic are fixedly mounted, the blades are placed above the roof of the electric vehicle and are equipped with a protective casing made of metal or durable plastic, in front of which there is a rotatable shield made with the possibility of ajar for the pressure of the air flow on part of the blades in the working position, and the lower part of the shaft is connected to the generator.

Description

This model relates to the field of wind energy, in particular to carousel-type wind engines.

The rotary wind turbine constructively consists of a vertical shaft / axis / to which the blades / plates / are securely attached. The material for the blades is metal or durable plastic. The blades can be either rectangular or curved. The shaft is connected to an electric generator. / Fig. 1/. The blades and shaft are mounted and protected from external influences in a metal or durable plastic closed casing. / Fig. 2/. When the wind turbine is operating, this casing partially opens with a rotary flap. The oncoming air stream presses on the blades opened by the shield, causing them to rotate together with the shaft. As a result, the rotating shaft drives an electric generator, which generates the electrical energy necessary to recharge the batteries. The resulting electricity can also be used by all kinds of instruments and devices.

The fundamental difference between this wind turbine and all others is that it is not in a stationary, stationary position. Being mounted in the body of a moving material body, in this case an electric vehicle, the wind turbine moves with it and works under the pressure of the oncoming air stream.

BASIC CALCULATION FORMULAS

Surface work under the influence of wind forces on it

The wind flow acting on a surface with a cross section has kinetic energy defined by the expression:

\ tab where - m body mass;

v is the speed of a moving body in m / s

The second mass of air (m) flowing through the cross section F at a speed v equal to

Substituting ρFv into the kinetic energy expression instead of m, we obtain:

Consequently, wind energy varies in proportion to the cube of its speed.

Work or power T is determined by the product of force P and speed v

The same power can be obtained due to the greater force, at a low speed of movement of the working surface, or, conversely, due to the small force, and therefore the small surface, but with a corresponding increase in the speed of its movement.

Surface F is perpendicular to the direction of the wind.

The air flow due to braking of the surface will receive support, will flow around it and produce a pressure of force P _x . Due to the action of this force, the surface will move in the direction of flow with a certain speed v ₁ .

The work or power will be equal to the product of the force and the speed with which the surface F moves, i.e.:

where P _x is the force, which according to the equation

C _x - coefficient. drag, (0.55)

Claims (1)

A carousel-type wind turbine for an electric vehicle, comprising a vertical shaft on which the blades made of metal or durable plastic are fixedly mounted, the blades are placed above the roof of the electric vehicle and are equipped with a protective casing made of metal or durable plastic, in front of which there is a rotatable shield made with the possibility of ajar for the pressure of the air flow on part of the blades in the working position, and the lower part of the shaft is connected to the generator.