FIELD: power engineering.
SUBSTANCE: wind-powered thermal power plant comprises support, with cantilever beam of rectangular cross section, with supporting columns, electric generators, heat generators and heat accumulators, contacting with shaft of wind-powered engine via reducer and horizontal shaft. To lower part of beam, electric generators are fixed, being joined to each other by means of horizontal shaft, on which eccentrics are fixed, contacting with mechanisms of mechanical energy conversion into thermal one, arranged in heat generators. Shaft of wind-powered engine is connected via reducer to shaft of heat accumulator, in body of which mechanical energy is converted into thermal one as a result of mechanisms rotation. Electric heaters arranged in lower part of heat generators are electrically connected to power electric panel installed near support, through wires. Electric accumulator installed near heat accumulator is electrically connected to electric generators and via power panel to electric energy consumers.
EFFECT: station is capable of providing a settlement or a small town with thermal and electric energy year round.
3 cl, 4 dwg
| Title | Year | Author | Number |
|---|---|---|---|
| WIND HEAT GENERATOR | 2003 |
|
RU2279568C2 |
| WIND HEAT ELECTRIC GENERATOR | 2008 |
|
RU2371604C1 |
| HEATING WIND-POWERED PLANT | 2009 |
|
RU2414653C1 |
| WIND-DRIVEN HEAT ELECTRIC GENERATOR | 2009 |
|
RU2412405C1 |
| SOLAR AND WIND SYSTEM OF HEATING AND HOT WATER SUPPLY | 2007 |
|
RU2357158C1 |
| HYDRAULIC HEAT GENERATOR | 2011 |
|
RU2490564C2 |
| MAGNETOMECHANICAL BOILER, MAGNETIC FLUID FOR CONTROLLED ENERGY EXCHANGE IN MAGNETOMECHANICAL BOILER AND USE OF MAGNETIC FLUID AS ENERGY EXCHANGE MEDIUM IN THERMAL POWER FACILITIES | 2014 |
|
RU2578240C1 |
| WIND-DRIVEN HEAT GENERATOR | 2012 |
|
RU2484301C1 |
| WIND THERMOELECTRIC GENERATOR | 2002 |
|
RU2226620C2 |
| SOLAR WIND WATER HEATER | 2003 |
|
RU2254523C1 |
