RU2004833C1 - Heat-power unit - Google Patents

Abstract

Usage: in the field of power engineering, mainly for generating electricity based on the combined use of thermal secondary energy resources (VER) of a steam power plant and VER of overpressure of natural gas in the distribution of its consumers. Summary of the invention gas heaters are installed in front of a gas flow turbine, connected via condensate to the heating medium - the feed path, the steam pipe of the selected steam, the steam pipe of the reduced sharp steam and the exhaust gas path of the steam boiler power plant. Along with the integrated use of VER, the gas pipelines are thermally protected over a wide temperature range. 1.il.

Description

The invention relates to the field of power engineering and can be used to generate energy based on the combined use of thermal secondary energy resources (VER) and VER overpressure throttled in natural gas gas supply systems.

A technical solution is known, described in USSR author's certificate No. 7055131, comprising a boiler coupled in pairs with a turbine, a gas flow turbine connected between high and low pressure pipelines, heat exchangers installed in front of the gas flow turbine.

However, the placement of a steam-power circuit boiler in the exhaust gas path of the gas turbine unit rigidly connects all elements of the unit to a natural gas compressor unit, the placement of an expander near which is not always advisable due to the possible significant distance of natural gas consumers from the compressor station. Natural gas chillers limit the use of the well-known solution for transporting gas through pipelines laid in permafrost.

The closest in technical essence to the proposed one is the thermal power plant described in USSR author's certificate N 1231237, containing, like the proposed one, a boiler connected in pairs with a turbine, to the condenser of which there are connected pipelines for supplying and discharging cooling water, a gas-flow turbine connected between high and low gas lines and gas heaters communicated through the heating medium with the condensate-feed path of the steam power plant.

However, in this installation, only overpressure VER is used for energy production, since gas heaters are installed after the expander, on the shaft of which an electric generator is installed.

The technical problem solved by the proposed installation is the integrated use of both thermal and VER overpressure to generate energy.

The problem is solved in that in a heat and power plant containing a boiler in communication with a turbine, to the condenser of which are pipelines for supplying and discharging cooling water, a gas flow turbine (expander) connected between high and low pressure pipelines and gas heaters,

connected to the heating medium with the condensate-feed path of the steam-powered installation, gas heaters are installed in front of the gas flow turbine, and the installation is equipped with additional gas heaters communicated through the heating medium with steam pipelines of the selected steam of the turbine and reduced sharp steam and the exhaust gas path of the boiler, and turbo expander installed parallel to gas pipelines equipped with shut-off and control valves, one of which is connected to a high-pressure gas pipeline to gas heaters, and the other after them.

5 The drawing shows a schematic diagram of a heat power plant. The installation comprises a boiler 1, coupled in pairs with a turbine 2, to the condenser 3 of which pipelines 4 and 5 are connected

0 supply and discharge of cooling water, a gas flow turbine (expander) 6 connected between high-pressure and low-pressure gas pipelines 8, a gas heater 9, connected through a heating medium with condensate 5 by a feed path 10 of a steam power plant, a gas heater 11, communicated through a heating medium with steam pipelines of selected steam 12 and reduced hot steam 13, gas heater 14,

0 installed along the heating medium in the flue gas duct 15. Turbo expander 6 is installed parallel to the gas pipelines, one of which 16 is connected to the high pressure gas pipeline 7 to the heaters 9, 11, 14

5 gas, and the other 17 - after them.

The condensate-feed path 10 of the installation also includes condensate 18 and feed 19 pumps and a deaerator 20. High pressure gas pipeline 7

0 is equipped with a heat exchanger-cooler 21 of the water circuit 22 of the oil cooler. A throttle-humidifier 23 is installed on the steam line 13.

The installation works as follows.

High-pressure natural gas from gas pipeline 7 passes sequentially through natural gas heat exchangers-heaters 21, 9, 11, 14, expands into

0 to the turboexpander 6 and through the gas line 8 is directed to the consumer. In doing so, the thermal VER of the steam power circuit and the VER of overpressure are utilized. In order to control the temperature of the natural gas 5 sent to the consumer, gas is redistributed between gas pipelines 16 and 17 and turbo expander 6.

The proposed heat power plant provides deep utilization

low potential waste heat of the steam power plant and the residual pressure energy of natural gas of high pressure, while at the same time providing the underground gas pipelines with temperature protection against swelling and delamination of the pipe metal under conditions of both frozen and thawed soil.

(56) USSR Copyright Certificate No. 1231237, cl. F01 K 23/00, 1986.

Claims (1)

The claims 200483392016071/06 A HEAT-POWER INSTALLATION, comprising a boiler coupled in pairs with a turbine, to the condenser of which are connected pipelines for supplying and discharging cooling water, a gas-flow turbine (expander) connected between gas pipelines of high and low pressure, and gas heaters communicated through a heating medium with a condensate-feed steam power plant path, characterized in that the gas heaters n h installed in front of the gas flow turbine, and the installation is equipped with additional gas heaters communicated through the heating medium with steam pipelines of the selected steam of the turbine and reduced sharp steam and the exhaust gas path of the boiler, and the gas flow turbine is installed parallel to gas pipelines equipped with shut-off and control valves, one of which is connected to the high pressure gas line to the gas heaters, and the other after them. 1 X G7