RADIAL REACTION WIND TURBINE ENGINE / POWERPLANT / KUMARS RR VT ENGINE

Abstract

A compact self contained Engine using wind power to generate electricity. Each engine is able to operate 2 generators simultaneously. It is possible to install multiple units of the engine for large scale commercial use.

Claims

1) An engine employed to harness Wind Power and converting it to Electrical Power.

2) The engine of claim 1 employs variations of pressures (FIG. 3) to operate.

3) The engine of claim 2 use fixtures such as aerofoil/s (1), cylinder/s (4), turbine blade/s (3) and endplates (5) to achieve desired pressures.

4) The components of claim 3 have to be placed strategically to fulfill the requirement of claim 2.

5) The engine of claim 4 can be mounted on a base (9) and installed anywhere.

6) The engine of claim 5 is coupled to 2 generators by gear (8) trains at the turbine shaft (6) ends.

7) The engine of claim 6 can be operated as multiple units at a single location or various Locations and the outputs localized or centralized.

8) The engine of claims 6 and 7 can be installed Horizontally, Vertically or any desired position.

Description

DESCRIPTION OF COMPONENTS AND WORKING PRESSURE DRAWINGS

[0020] To have a perspective view of the Kumars RR VT Engine and it's workings, accompanying drawings will elaborate with precise details.

[0021] FIG. 1illustrates the Frontal View of Engine

[0022] FIG. 2illustrates a Cross Section [A-A] of the Engine

[0023] FIG. 3illustrates the working pressures generated within the Engine.

[0024] Based on the drawings, FIGS. 1, 2 and 3, it is self explanatory.

[0025] With reference to FIG. 3, it should be noted that air always tends to travel from high pressure to low pressure areas. This movement results in an increased air momentum through the engine.