PL62847Y1 - Set of heat exchangers for receiving steam leaving a thermal-electric power station turbine in heat generating and condensing operation mode - Google Patents

Description

- 0044 & t & ty fijeagtft A set of heat exchangers for receiving heat from a thermal turbine The subject of the utility model is a set of exchangers for receiving heat from a thermal turbine, allowing for the operation with full boiler efficiency in periods of reduced heat consumption by a heating network. heating. This assembly is shown in the attached drawing, Fig. I. The set of exchangers for receiving heat from a thermal turbine usually includes two exchangers, where the first heat exchanger 1 has a steam inlet from behind the last stage of the steam turbine, and the second heat exchanger 2 has an inlet 5 of steam after the penultimate stage of the steam turbine, both heat exchangers 1,2 are connected in series and connected to a water circuit, for example from the district heating network. In a number of cases, upstream of the first heat exchanger 1, at the cold water inlet 10, a preliminary water cooling circuit is connected in the form of an additional cooler 8 in series with shut-off valves 12 as shown in the attached drawing, Fig. I. Systems with parallel connection of an additional cooler 8 relative to heat exchangers 1,2 are also possible. The water to be heated is fed to the inlet 10.1 of the first heat exchanger 1 and, after heating, is taken from the outlet 11.2 of the second heat exchanger 2. The total is calculated for the conditions the highest heat consumption and then the operation of both heat exchangers 1,2 is balanced with the steam output from both mentioned stages of the steam turbine. The situation changes in the period of reduced heat consumption, for example in summer, when the hot water consumption from the described set of heat exchangers is significantly reduced. This reduced consumption of heat does not provide an adequate degree of condensation of the steam from the turbine and forces its efficiency in the field of electricity generation to be limited, which is a disadvantage. The solution according to the utility formula aims to increase the condensation capacity of the steam of the heat exchanger unit mentioned. A heat exchanger unit for receiving heat from a heat turbine consisting of two heat exchangers, where the first heat exchanger has steam inlet from behind the last stage of the steam turbine, and the second heat exchanger has a steam inlet after the penultimate stage. a steam turbine stage, whereby both heat exchangers are connected in series, according to the utility formula, the first heat exchanger has an attached pipeline at the outlet, connected via a circulation pump with the inlet to the additional cooling water radiator and the outlet of this additional cooling water radiator is connected a pipeline with an inlet to this first heat exchanger. On the other hand, the cold water inlet of the first heat exchanger is connected to the inlet of the second heat exchanger. There is a shut-off valve on the pipeline between the two heat exchangers. There are also shut-off valves on the pipeline connecting the cold water inlet of the first heat exchanger to the inlet of the second heat exchanger, and on the pipeline connecting the heated water outlet from the first heat exchanger to the additional cooler, and on the pipeline connecting the heated water outlet from the additional cooler with the cold water inlet to the first The shut-off valve on the pipeline connecting the heated water outlet from the first heat exchanger to the additional cooler is located in front of the circulation pump. The above-mentioned shut-off valves are not essential elements of the system, but they facilitate the switching of the exchanger group into a pattern according to the utility pattern for work in the heat and condensation system, which will be used in summer periods when there is a reduced demand for heat in the district heating network. According to the utility formula, it allows, during periods of reduced heat consumption, for condensation of the turbine through the described change of heat consumption. The first heat exchanger works here as a condenser, which allows to obtain the assumed degree of condensation of the steam from the turbine, and thus to obtain the expected negative pressure on the last stage of the turbine, which ensures the maintenance of electricity production. The subject of the utility model is presented in the attached figure, fig. 1, showing heat exchanger unit4 for receiving heat from the exhaust steam of the thermal turbine. As shown in the attached figure, Fig. 1, the heat exchanger group for receiving heat from the thermal turbine comprises two heat exchangers 1,2. The first heat exchanger 1 has an inlet 4 of the steam coming from the last stage of the steam turbine, and the second heat exchanger 2 has an inlet 5 of the steam coming from the penultimate stage of the steam turbine. Both heat exchangers 1,2 are connected in series by a pipeline 3. The first heat exchanger 1 has at the outlet 11 connected pipeline 6, connected via a circulation pump 7 with inlet to additional cooler 8 for cooling water. The outlet of this additional cooling water cooler 8 is connected via a pipeline 9 with an inlet 10.1 to this first heat exchanger 1, this cold water inlet 10.1 of this first heat exchanger 1 is connected to the cold water inlet 11.1 of the second heat exchanger 2. Fig. 1 shows the cold water supply 10 of the heat exchanger group according to the utility formula At the heated water outlet 11 from the first heat exchanger and before the cold water inlet 11.1 to the second heat exchanger 2, between the two heat exchangers 1,2 on the pipeline 3 there is a shut-off valve 12 Shut-off valves 12 are also provided on the pipeline 13 connecting the cold water inlet 10.1 of the first heat exchanger 1 with the cold water inlet 11.1 of the second heat exchanger 2, and on the pipeline 6 connecting the heated water outlet 11 from the first heat exchanger 1 with an additional cooler 8, and on a pipeline 9 connecting the heated water outlet from the additional cooler 8 with the cold water inlet 10.1 to the first heat exchanger 1. The shut-off valve 12 on the pipeline 6 connecting the heated water outlet 11 from the first 5 heat exchanger 1 is in front of the circulation pump 7. The heat water is taken from the outlet 11.2 of the second heat exchanger 2. The shut-off valves 12 mentioned are not essential parts of the system, but make it easier to switch the group of exchangers 1,2 into a system according to a utility model, which will be used in summer, of reduced heat demand in the district heating network.PWPT "POSTEOR" Sopot Proxy: mgrinz. NO. NO. -288 Góansk.ul Piecewska 27 tel./fex (+48 58) 345-76-32 / M & / t &&, / tt / Jl PL PL

Claims (2)

1. Protective reservations. 1. A set of exchangers for receiving heat from a thermal turbine, including two heat exchangers, where the first heat exchanger has a steam inlet from behind the last stage of the steam turbine, and the second heat exchanger has a steam inlet from behind the penultimate stage of the steam turbine, both heat exchangers are connected in series, characterized in that the first heat exchanger (1) comprises a connected pipe (6) at the outlet, connected via a circulation pump (7) to the inlet of an additional cooling water radiator (8) and the outlet of this additional cooling water radiator (8) is connected by a pipeline ( 9) with an inlet to said first heat exchanger (1), the cold water inlet (10.1) of said first heat exchanger (1 / being connected to an inlet (11.1) of the second heat exchanger (2). 2. A group of exchangers according to claim A cut-off valve (12) is located on the pipeline (11) between the two heat exchangers (1,2), and the shut-off valves (12) are located on the pipeline (13) connecting the cold water inlet (10.1) of the first the heat exchanger (1) with the inlet (11.1) of the second heat exchanger / 2 / and on the pipeline (6) connecting the heated water outlet (11) from the first heat exchanger (1) to the additional cooler (8) and on the pipeline (9) connecting the outlet water heated from the additional cooler (8) with cold water inlet (10.1) to the first heat exchanger (1). A set of heat exchangers according to claims A method according to claim 2, characterized in that the shut-off valve (12) on the pipeline (6) connecting the outlet (11) of the heated water from the first heat exchanger (1) to the additional cooler (8) is located upstream of the circulation pump (7). PWPT "POSTEOR" Sopot Pel Proxy: hcek Czabajski [K PATENTOWY 08 TraseTbiuropatentowe Jacek Czabajski 80-288 Gdartsk.ul.Plecewska 27 tel./hx(-H48 58) 345-76-32 / MA / lCPsij / i Fig.lyf4L / 9LG4S / 4 Pos. 1 PL PL