SU1645568A2 - Device for removing dust from air - Google Patents

Abstract

The invention relates to engine management, specifically to heat engines. The purpose of the invention is to increase efficiency. This goal is achieved due to the fact that an ejector is placed on a heat engine containing a heater, a refrigerator, a hydraulic motor and a hydraulic accumulator, and a steam-powered engine filled with a light boiling fluid. installed in the line between the outlet of the hydraulic motor and the heater and connected to the hydroaccumulator, and the refrigerator contains a fusible heat sink with a melting point below the temperature of working fluid penalties. When heat is supplied to the heater, some of the liquid in it evaporates, the pressure increases and the liquid is squeezed through the cooler into the hydraulic motor, from which the useful power is removed, and then into the accumulator After all the liquid is squeezed into the refrigerator, it begins to condense vapor and pressure in the heater falls due to the energy stored in the hydroaccumulator, and the vacuum in the heater, the latter begins to fill up through the ejector with liquid. At the same time, part of the liquid due to the stored energy in the hydroaccumulator D is fed to the input of the hydraulic motor and its output is generated pressure drop due to an ejector effect, which leads to additional useful power sem. 1 з п ф-лы, 1 silt (Л С

Description

FIELD OF THE INVENTION The invention relates to engine-making, namely to thermal engines.

The purpose of the invention is to increase efficiency

The drawing shows a schematic diagram of a heat engine.

The heat engine contains heater 1, cooler 2 with fusible heat absorber 3 hydraulic motor 4 with inlet 5 and outlet 6, accumulator 7, ejector 8, successively placed in a vapor-liquid path filled with boiling liquid 9 Inlet 5 of the motor 4 is connected through check valves 10 and 11 with a refrigerator 2 and a hydroaccumulator 7, respectively, the latter through the return

the valve 12 is connected to the outlet 6 of the motor 4. The ejector 8 is installed in the line between the outlet 6 of the motor 4 and the heater 1 and is connected to the hydraulic accumulator 7, and the return valve 13 is installed between the ejector 8 and the heater 1, and the fusible heat sink 3 has a melting point below boiling point of working fluid 9.

The engine works as follows

When heat is supplied to the heater, 1 part of the liquid 9 evaporates and the pressure on its surface increases. Fluid 9 is squeezed out by increased pressure through

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the refrigerator 2, the valve 10 into the hydraulic motor 4 and further through the valve 12 into the hydroaccumulator 7. The valves 11 and 13 are closed at the same time. After all the liquid 9 has been squeezed into the refrigerator 2, the condensation of liquid vapors begins therein. The pressure in heater 1 drops, valves 10 and 12 close. Due to the energy stored in the hydroaccumulator 7, and the dilution in the heater 1, the latter is filled through the ejector 8 and the open valve 13 with liquid 9. while part of the liquid due to the stored energy in the hydroaccumulator 7 through the open valve 11 enters the inlet 5 of the hydraulic motor 4 at the outlet 6 of which pressure is created due to the action of the ejector 8. The useful power is taken from the hydraulic motor 4 when the fluid 9 is pushed through it, the cycle repeats.

Claims (2)

Invention Formula 1, Heat engine according to aut. St. № 1490317. about tl and h a yuschi and with the fact that. with to increase efficiency, it is equipped with an additional non-return valve and an ejector, the latter being installed in the line between the hydraulic motor outlet and the heater and connected to the hydraulic accumulator, and the non-return valve is installed between the hydraulic motor output and the hydraulic accumulator in front of the ejector.  2. Engine pop.1, characterized in that the refrigerator is equipped with a fusible heat absorber with a melting point below the boiling point of the working medium. ViSWiS. pfWKViV