SU1318702A1 - Heat and power plant - Google Patents

Abstract

The invention allows to increase the efficiency of the installation. Gas from the high-pressure pipeline 5 enters the vortex tube (BT) 7, where, with intensive rotation, the gas is divided into hot and cold streams. The hot gas stream through the low pressure gas pipeline 6 enters the boiler 1 where it is burned. The cold flow through conduit 8 enters the gas preheater 9, from which, after heating, is fed to the BT 7 along the axis to its hot end. The heated gas stream is further separated in BT 7, giving off heat to the hot stream. The gas preheater 9 enters via pipeline 10 from condenser 3 a portion of the condensate, which, after being cooled with a cold gas stream, returns to the condenser. 1 il. 10 i о S6 а с Х Х ± о: а v с N /

Description

The invention relates to a power system, in particular to thermal power plants using gas fuel, and can be used to produce thermal and electrical energy in thermal power plants.

The drawing shows a schematic diagram of the proposed thermal power plant.

The heat and power plant contains a boiler 1, connected, in pairs, with a turbine 2, a condenser.3 with a line 4 of condensate recirculation; gas lines of high 5 and low 6 pressure, connected to the furnace of boiler 1, vortex pipe 7 connected to high pressure gas line 5, and hot end to low pressure gas line 6. A gas preheater 9 is connected to the cold flow pipe 8 connected via a heating medium to the condensate recirculation line 4 to condenser 3. The cold flow pipe 8 behind the gas preheater 9 is connected to the hot end of the vortex tube 7 along its axis, and the gas preheater 9 is connected to pipe 10 lines 4.

The installation works as follows.

The gas from the high-pressure pipeline 5 enters the vortex tube 7, where, with intensive rotation, the energy separation of the gas into hot and cold streams occurs. Hot gas flow over

low pressure pipeline 6 enters boiler 1 where it is burned. The cold flow through conduit 8 enters the gas preheater 9, from which, after heating, is fed into the vortex tube 7 along the axis to its hot end. The heated gas stream is additionally separated in a vortex tube, giving off heat to a hot stream. In the gas preheater 9, a portion of the condensate enters through the conduit 10 from the condenser 3 and, after cooling with a cold stream of gas, is returned (injected) to the condenser.

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Claims (1)

Invention Formula A heat and power installation containing a boiler, connected to a steam turbine, to the condenser of which is connected the recirculation line of condensate, high and low pressure gas supply, a device for reducing the gas pressure between the latter and the gas heater, which is different in order to increase efficiency , a device for reducing gas pressure is made in the form of a vortex 5, the hot end of which is connected to the low pressure gas pipeline, the cold end is connected to the gas preheater, the outlet pipe of which is connected to the hot end of the vortex tube along its axis, and in the heating medium the gas preheater is connected to the condenser recycle line to the condenser.