RU125259U1 - MANEUTERED STEAM GAS INSTALLATION WITH REDUCTION COOLING UNIT ON THE BYPASS OF MAIN STEAM VALVE - Google Patents

Abstract

The utility model relates to the field of power engineering and can be used in power units of thermal power plants (TPP) with maneuverable combined-cycle plants (CCGT). The maneuverable CCGT contains a gas turbine unit (GTU) 1, a heat recovery boiler (CG) 2, a steam turbine unit (PTU) with a steam turbine (PT) 3, a main steam line (GP) 4 with a main steam valve (GPP) 5, a stop valve (SC ) 6, regulating valve (RK) 7, as well as drainage pipes 8 and 9, respectively, to GPP 5 and to IC 6. On the bypass steam pipeline 10, connecting the section GP 4 to GPP 5 with the PTZ capacitor 12, is installed BROU 11, and on the bypass pipeline the steam line 13 GPP 5 - shut-off valve 14. Differences: the bypass steam line 13 additionally contains DOC 15, the second apornuyu valve 16 after it and the drain line 17 between the latter. 1 p. F-ly, 1 ill.

Description

The technical field to which the utility model

The utility model relates to the field of power engineering and can be used in power units of thermal power plants (TPP) with maneuverable combined-cycle plants (CCGT).

The level of technology

Known maneuverable PGU containing a gas turbine unit (GTU), a waste heat boiler (KU), a steam turbine unit (PTU) with a steam turbine (PT) and a main steam pipe (GP) with a main steam valve (GPP) connecting the steam generator with a steam valve ( SC), a control valve (RK) and drainage pipelines in front of the gas processing plant and the insurance company, as well as a bypass steam pipe with a fast-acting reduction and cooling unit (BROU) connecting the GP section to the GPP with a condenser PT, and a bypass steam pipeline with a RK and / or shut-off valve (Experienced Technician Definition o-economic indicators of units PGU-39 of the Sochi Thermal Power Plant. / Radin Yu.A., etc. // Electric Stations, No. 6, 2006 - prototype). The disadvantage of this prototype is that when starting a vocational school from cold and cold conditions, a given thermal load KU is limited and is determined by the temperature state of the PT, which does not allow to increase the load of the GTU with its output at the nominal level before the start of the PT.

Disclosure of utility model

Achievable technical result of the utility model is to improve the maneuvering characteristics of the power units of vocational schools when they start from different thermal states with an earlier output of GTU to the nominal load.

This technical result is ensured by the fact that the maneuverable CCGT containing GTU, KU, PTU with PT and connecting KU with PT GP with GPP, SK, RK and drainage pipelines before GPP and SK, and also bypass steam with BROU connecting section GP to GPP according to the utility model, the GPP bypass steam pipeline additionally contains a reduction-cooling unit (DOC), a second shut-off valve behind it and a drainage pipe between the indicated DOC and the second shut-off valve whoa.

Brief description of the drawing

The drawing shows a schematic diagram of the maneuverable combined-cycle plant according to the utility model.

Detailed installation description

The maneuverable vocational school contains a gas turbine unit 1 communicated with exhaust gases from KU 2 connected to a vocational school with VET 3 through GP 4 with GPP 5 SK 6 and RK 7 installed on it, drainage pipelines 8, 9, respectively, before GPP 5 and SK 6. Bypass steam pipe 10 with BROU 11 connects GP 4 to GPP 5 with condenser 12 PT 3. Bypass steam pipe 13 GPP 5, in addition to the gate valve 14, also contains DOC 15 and a second gate valve 16 behind it, between which an additional drain pipe 17 is installed. Condenser 12 communicated with KU 2 condensate-nutrient tract (CPT ) 18. in which the condensate pump 19 is installed in series, the heat exchange equipment 20, the feed pump 21 and the corresponding valves and fittings (not shown).

Description of the installation

After starting the gas turbine unit 1 and the beginning of vaporization in KU 2, the GP 4 is heated up with steam discharge through the drainage pipe 8 and through BROU 11 via the bypass steam line 10 to the condenser 12 ПТ 3. At the same time, GPP 5, bypass steam pipe 13 GPP 5 with stop valves 14, 16 and DOC 15, SC 6 and RK 7 are closed. From condenser 12, condensate formed in it according to KPT 18 through condensate pumps 19, heat exchanging equipment 20 and feed pumps 21 is supplied to KU 2. With an increase in the load of GTU 1 to the nominal steam parameters for KU 2 to GP 4 (with an allowable heating rate of the boiler and steam lines ) also go to the nominal. When reaching or exceeding jog parameters for PT 3 in GP 4, the bypass steam pipe 13 opens with GP4 5 with shut-off valve 14, DOC 15 and drainage pipeline 17, and shut-off valve 16, SC 6 and drainage pipeline 9 before SC 6 open only after obtaining jog parameters for DOC 15. After warming up the end section of GP 4 and CK 6, opening RK 7 produces a U-turn and takes initial load PT 3 (with an allowable speed of its warming up). After taking the initial load PT 3 with the closure of the drainage through the drain pipe 8 before the gas treatment plant 5 and the drain pipe 9 before the SC 6 gradually increase the temperature and steam flow through the ROW 15 with access to the specified load PT 3 with maximum steam parameters (close to nominal) at the input . Then, open the GPP 5, close the bypass steam pipe 13 with the DOC 15 and shut-off valves 14, 16, after which the further loading of the PT 3 continues in the normal manner with the gradual full closure of the BROU 11.

Thus, the scheme of maneuverable vocational schools according to the utility model allows, under all conditions, to produce a relatively fast start of the gas turbine unit (restrictions for KU 2 and GP 4 only), providing an output of 2/3 of the rated power of the PGU power unit with further slower connection of the PT.

Claims (1)

A maneuverable combined-cycle plant comprising a gas turbine unit, a waste-heat boiler, a steam-turbine unit with a steam turbine and a connecting waste-heat boiler with a steam turbine main steam pipe with a main steam valve, a stop valve, a control valve and drainage pipes in front of the main steam valve and a stop valve, as well as a control valve and drainage pipes in front of the main steam valve and a stop valve, and bypass steam line with high-speed cooling and reduction unit connecting the section of the main steam line to the main steam valve with a steam condenser turbines, and the main steam gate bypass valve with a control valve and / or gate valve, characterized in that the main steam valve bypass steam pipeline further comprises a reduction and cooling unit, a second gate valve and a drainage pipe between the said reduction and cooling unit and the second stop valve gate valve.

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