SU836374A1 - Central-heating power unit - Google Patents

Description

I

The invention relates to the field of heat and power engineering and can be used on heat and power plants with back pressure and cogeneration turbines, as well as condensation turbines having cogeneration steam.

A power plant is known that contains a deaerator with a truck connected to it, a feedwater ohm on which a booster pump and a feed pump and high pressure heaters are installed in series, and a water exchanger 1 is connected between the deaerator and the booster pump.

The disadvantage of this installation is the impossibility of obtaining additional power, since the cooling of the feed water in a water-cooled heat exchanger even leads to a decrease in power due to an increase in the extraction of steam to the preheaters.

Also known is a heat and power generation plant containing a back pressure and heat turbines, to which regenerative selections are connected to high and low pressure regenerative heaters included in the feed line)) of densate n feed water, and

networked heaters, booster and feed turbine pumps connected in series to the cogeneration turbine, connected in series to the feedwater after deaerators 2.

On such installations there are difficulties. obtaining peak power due to the need to maintain a certain vapor pressure in the heating and production selections to provide the consumer with heat and steam.

The aim of the invention is to increase peak power.

This is achieved by the fact that the installation is equipped with a water heat exchanger connected in parallel with the feed water path to the booster pump of the back pressure turbine and communicated at the inlet to the condensate path of the cogeneration turbine.

The drawing shows the installation diagram.

The heat-generating power plant contains back pressure and heat-generating turbines 1, 2, to regenerative selections 3, 4, 5 of which are connected to regenerative heaters 6, 7 of high and low pressure, included in paths 8, 9 of condensate and feed water. iK selections 5 low pressure regenerative heaters 10 and network heaters 11 are connected. Booster feed and feed pumps 13, 14 are connected to feed water line 9 after deaerators 12. Parallel to feed line 9 to booster pump 13 of back pressure turbine 1, the water heat exchanger 15 is connected to at the inlet of the pipeline 16 with a path 8 of the condensate; on the other hand, and at the exit - a pipeline 17 jc with the deaerator 12 of the cogeneration turbine 2. The pipeline 16 is connected to the path 8 of the condensate between the regenerative subs revatel E 7 and low pressure regenerative preheater E Yu low pressure connected to the same selection 5, which network heaters 11. Installation reguliruyumeji provided with shut-off valves 18, 19, 20, 21. The cogeneration power plant operates as follows.

In the absence of the need to obtain peak power, the valves 18, 19 are closed, and the valves 20, 21 are open and both turbines 1, 2 operate as usual. During the heating period, when the pressure in the extraction 5 is higher than the calculated minimum, the valves 18, 19 are opened and the valves 20, 21 are closed. At the same time, the regenerative heaters 7 of the low pressure are switched off by steam, and the steam of the outlets 4 will produce power. In addition, the condensate entering the water heat exchanger 15 through the pipeline 16 will be supplied with feed water from the J2 deaerator of the backpressure turbine 1 and through the pipeline 17 will enter the heat recovery turbine 2 deaerator 12 with a temperature close to ik of the condensate after regenerative heaters 7 of low pressure when the latter is in normal operation. The feed water of the booster is cooled in the water heat exchanger and feed pump 13, 14 is pumped through regenerative heating. The heat and power plant, containing the anti-pressure and cogeneration turbine, to which regenerative selection of high and low pressure regenerative heaters are connected to the circuit and connected to the regenerative selection of high and low pressure turbines that are connected to the circuit and connected to the regenerative selection of high and low pressure regenerative heaters that are connected to the circuit, which is connected to the region, connected to the circuit, which is connected to the region, connected to the circuit, which is connected to the region, connected to the circuit, which is connected to the region, connected to the region, which is connected to the region, to the region and to the center, to the flow of the heat source. and networked preheaters, booster and feed pumps for turbines connected to the heatsink turbine selections, included In the feedwater path after deaerators, characterized in that, in order to increase peak power, the installation is equipped with a water heat exchanger connected in parallel with the feed water path to the booster pump of the back pressure turbine and communicated at the inlet to the heat recovery turbine condensate path.

Sources of information taken into account during the examination 1. Copyright certificate of the USSR No. 317811. cl. FO K 13/00, 1971.

Claims (2)

. 2. USSR author's certificate №522407, cl. FOI K 17/00, 1974. high pressure tel 6, which will cause a difference in steam consumption from regenerative selections 3 and, consequently, an increase in the frequency of the back pressure turbine 1 with a constant steam supply to the production consumer and the availability of steam boilers steam capacity. Thus, the proposed heat and power plant makes it possible to obtain peak power in a heat or condensation turbine with heat extraction when combined with a backpressure turbine. The proposed plant can also be used in heat and power plants with condensation turbines installed together with heat extraction steam and industrial selection turbines .pairs that are not provided with a load on industrial steam extraction. Claims. / J- 20 n / f6