FIELD: electrical engineering.
SUBSTANCE: invention relates to stand-alone power installations for supplying human life sustenance objects with electrical and thermal energy during emergency situations. The installation contains a small-sized gas turbine engine (turbo compressor) with air bleeding for actuating a free turbine and an exhaust heat boiler. Gas from the outlet channel of the turbo compressor, air from the outlet channel of the free turbine, and liquid in form of fine particles from the main pipeline of the heat energy user are simultaneously fed into the exhaust heat boiler. The exhaust heat boiler is of the mixing type and inside it there is evaporation and condensation of liquid, used in the user's network.
EFFECT: installation provides for independent power supply to 100 apartment houses at outdoor air temperature of up to - 40°C, and the new characteristic of the installation is its high mobility - possibility of delivering to an accident site by air.
1 dwg
Title | Year | Author | Number |
---|---|---|---|
POWER PLANT | 2005 |
|
RU2287708C1 |
GAS TURBINE PLANT OUTPUT CONTROL METHOD | 2006 |
|
RU2330977C1 |
METHOD OF TURBINE COOLING | 2009 |
|
RU2423617C2 |
GAS-TURBINE ENGINE WITH TURBOCOOLER AT INLET | 2003 |
|
RU2239080C1 |
STOICHIOMETRIC STEAM AND GAS INSTALLATION | 2017 |
|
RU2666701C1 |
HEAT ENERGY RECOVERY UNIT | 2004 |
|
RU2284416C2 |
GAS-TURBINE PLANT BOOSTING METHOD | 2005 |
|
RU2284418C1 |
HYPERSONIC TURBO EJECTOR ENGINE | 2009 |
|
RU2386829C1 |
METHOD TO AUGMENT AIRCRAFT ENGINE | 2009 |
|
RU2386832C1 |
METHOD OF GAS TURBINE ENGINE COOLING | 2013 |
|
RU2529989C1 |
Authors
Dates
2009-07-20—Published
2008-03-28—Filed