INSTALACION PARA LA TRANSFORMACION DE ENERGIA CALORICA EN ENERGIA ELECTRICA

INSTALACION PARA LA TRANSFORMACION DE ENERGIA CALORICA EN ENERGIA ELECTRICA

Installation for the transformation of heat energy into electrical energy. The present patent pertains to the field of energy, in particular, to facilities for the transformation of heat energy into electrical energy and can be used for the combustión of different residues from agriculture. The pres...

Ausführliche Beschreibung

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Bibliographische Detailangaben
Hauptverfasser: SOLYANKIN, PAVEL VLADIMIROVICH, GUSKOV, VLADIMIR VICTOROVICH, BOKOV, SERGEY ANATOLIEVICH, POPOV, EVGENY NIKOLAEVICH, KARPUSHKIN, VADIM VLADIMIROVICH, DEMIN, SERGEY LVOVICH, ORLOV, KIRIL YURIEVICH
Format: Patent
Sprache:spa
Schlagworte:
BLASTING
ENGINE PLANTS IN GENERAL
ENGINE PLANTS NOT OTHERWISE PROVIDED FOR
ENGINES USING SPECIAL WORKING FLUIDS OR CYCLES
HEATING
LIGHTING
MACHINES OR ENGINES IN GENERAL
MECHANICAL ENGINEERING
STEAM ACCUMULATORS
STEAM ENGINE PLANTS
STEAM ENGINES
WEAPONS
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Zusammenfassung:Installation for the transformation of heat energy into electrical energy. The present patent pertains to the field of energy, in particular, to facilities for the transformation of heat energy into electrical energy and can be used for the combustión of different residues from agriculture. The present claimed installation consists of a hopper 1 for the fuel, which is connected through the fuel supply system 2 with the boiler 3. The boiler 3 is connected through the steam supply line 4 with the generating turbine steam 5. The steam output pipe 7 of the steam generating turbine 5 is connected through the hot circuit to the first heat exchanger 8. The first heat exchanger 8 is connected via the pipe 9 through the hot circuit with the second heat exchanger 10 for condensation of the exit steam. The second heat exchanger 10 is connected, by the pipe with the pump 11, to the boiler 3. The cold circuit of the first heat exchanger 8 is provided with the pipes 13 and 14, in particular, in the pipe 14 the pump 12. The first heat exchanger through the pipes 13 and 14 is connected to the drying chamber 15. The drying chamber 15 is connected to the hot circuit of the third exchanger 16, whose hot circuit outlet is connected to the container 17 of condensate collection. The outlets of the condensate collection container 17 are provided with a line with the vacuum pump 18 and a second line with the condensate extraction pump 19. The cold circuits of the second exchanger 10 and third exchanger are connected to the external cold water supply system (in the figures they are not identified). At the entrance, the drying chamber 15 is connected to the hopper 21 for supplying the raw material through a pipe, in which the pump 20 is located. At the outlet, the drying chamber 15 is connected to the system 2. Of fuel supply. As shown in fig. 2, the drying chamber 15 consists of the vacuum chamber 22, inside which the industrial exchanger 23, made in the form of several horizontal heat exchanger panels and the system 25 for transferring the heat, is arranged. The raw material for the panels of the industrial exchanger 23. The system 25 for transferring the raw material can be carried out, for example, in the form of a drag conveyor. Inside the heat exchanger panels, the heat carrier is pumped for heating the raw material subjected to drying. The vacuum chamber 22 is provided at its inlet with a doser 24, and at its outlet with a discharge chute 26, which is located at the end of t