SU1038495A1 - Power unit - Google Patents

Abstract

1. POWER UNIT containing a boiler and a turbine, interconnected by fresh steam and hot reheat pipelines, the first of which is connected to a high pressure cylinder, a turbine selection chamber 1 fi ry and a high-speed reduction-cooling unit, and an average pressure cylinder to the second , communicated to the receiver by pipes with a low pressure cylinder and through a desuperheater - with appropriate turbine sampling chambers, and heat consumers, characterized in that, in order to increase reliability and efficiency during the period of mountains of this reserve, it is provided with a surface fuse connected at the inlet to the hot reheat pipeline, and at the outlet in addition to heat consumers. 2. The power unit according to claim 1, characterized in that the receiver tubes and the high-speed reduction-cooling unit are additionally connected to the heat consumer.

Description

The invention relates to a power system and can be used at thermal power plants (TPPs) when converting power units to a hot rotating reserve.

A known power unit containing a boiler and a turbine, interconnected by pipelines of fresh steam and hot reheat, the first of which is connected to a high pressure cylinder, turbine take-off chambers and a high-speed reduction and cooling unit, and the second to a medium-pressure cylinder communicated by receiver pipes with a low-pressure cylinder and through a desuperheater with corresponding turbine extraction chambers, and heat consumers [1]. ¹

A disadvantage of the known power unit is the uneven temperature control of the cooling steam inherent in the injection desuperheaters. For this reason, fluctuations in the temperature of the metal in high and medium pressure cylinders (CVP and DSP) are possible, which reduces the reliability of the work. In the mode of maintaining the power unit in the hot reserve, part of the steam enters the condenser, which leads to heat (fuel) loss. 2

The purpose of the invention is to increase reliability and efficiency during the hot reserve.

This goal is achieved by the fact that the power unit is equipped with surface desuperheaters connected at the inlet to the hot industrial superheater pipe ³⁰ and at the outlet in addition to heat consumers.

At the same time, receiver pipes and a high-speed reduction and cooling unit are additionally connected to heat consumers. ³⁵

The drawing shows a schematic diagram of a power unit.

The power unit contains a boiler 1, the primary superheater 2 of which is equipped with the main pipeline 3 of fresh steam, on which the main steam delay (GPZ) 4 and the shut-off valve 5 are installed, is connected to the central turbine 6 of the steam turbine. A quick reduction and cooling unit (BROU) 7, a pipe ⁴⁵ connected to the flowing part of the CVP 6, and a reducing cooling unit (ROW) 9, the outlet of which is connected to the cold industrial superheating pipeline 10, are connected to the main pipeline 3 of fresh steam in front of GPP 4. CVP 6 communicates with MPC 11 through the reheater 12 the hot reheat pipe 13, on which is mounted a safety valve 14. By hot reheat line 13 before, a safety valve 14 are connected two or more surface desuperheater 15 and 16, one ₅₅ of which communicates with a pair of flowing

VNIIIPI Order 6171/33 Branch of the PPP "Patent", g.

part of the DAC 11 and pipelines 17 additionally with consumers 18 of the heat of the power unit, for example, ejectors, deaerators, end seals, etc., and another ₅ with receiver pipes 19 of the low-pressure cylinder 20 (LPC). Surface desuperheaters 15 and 16 are connected by water to the turbine main condensate path 21. Heat consumers 18 can be connected by additional pipelines 22 to BROW 7 and receiver pipes 19 to the gate valve 23.

The power unit in the hot rotating reserve mode operates as follows.

Two or four ignition fuel oil nozzles burn in the furnace of boiler 1, ensuring its minimum steam production at a sufficiently high temperature of the metal on the heating surfaces. Steam from the boiler 1 through the main pipelines 3 enters through the pipeline 8, depending on the level of its temperature, into the flowing part (to one or another stage) of the turbine HPP 6 and then to the intermediate superheater 12 of the boiler 1, and then through the pipelines 13 of the hot overheating in surface desuperheaters 15 and 16. Chilled steam is supplied after the surface desuperheater 15 to the flow part of the central distribution system 11 and through pipelines 17 to heat consumers 18 (ejectors, end seal and deaerators), and after the surface desuperheater 16 through the receiver e tubes 19 - in the LPC 20. Due to vapor flow in the incoming portion CVP 6, MPC 11 and LPC 20, the turbine rotor rotates at a frequency lower than the first critical value (800+ 1000 rev / min). In the same case, if the generator is connected to the network, then this steam somewhat reduces the consumption of network electricity spent on the rotation of the turbine rotor. If it is necessary to provide a small excess pressure, steam can be supplied to the idle industrial superheating pipeline 10 through the DOC 9. Boiler 1 is fed with feed water from a neighboring load-bearing unit.

Through additional pipelines, 22 pairs of receiver tubes 19 and BROW 7 are supplied to consumers 18 of steam heat.

Thus, the supply of steam through surface desuperheaters in the central cylinder and low pressure cylinder provides the necessary temperature, eliminating the temperature fluctuations of the metal of these cylinders, which increases the reliability of the power unit in the hot rotating reserve. The use of excess steam in heat consumers eliminates the need for steam consumption from neighboring power units (external source), which increases the efficiency of the power unit in reserve.

Circulation 535 Subscription Uzhhorod, vul. Project, 4

Claims (2)

1. ENERGY BLOCK, containing a boiler and a turbine, interconnected by pipelines of fresh steam and hot superheating, the first of which is connected to a high pressure cylinder, turbine extraction chambers and a quick reduction and cooling unit, and to the second, a medium pressure cylinder communicated by receiver pipes with a low-pressure cylinder and through a desuperheater - with appropriate chambers for taking the turbine and heat consumers, characterized in that, in order to increase reliability and efficiency during the hot Zrava, it is equipped with a surface fuse connected at the inlet to the hot industrial superheat pipeline, and at the outlet in addition to heat consumers. 2. Power unit according to π. 1, characterized in that the receiver pipes and high-speed reduction and cooling installation are additionally connected to heat consumers. with oo SO Cn>