CN210239764U - Arrange high-efficient heating system of secondary reheat unit in - Google Patents

Abstract

The utility model discloses an arrange in high-efficient heating system of secondary reheat unit, including little steam turbine, clutch gear box, motor/generator, draught fan, little steam turbine pivot connection clutch gear box, clutch gear box one side connects little steam turbine, the pivot of motor/generator is connected to clutch gear box opposite side, motor/generator connects the draught fan, little steam turbine and clutch gear box and motor/generator and draught fan coaxial coupling, motor/generator electric connection factory uses the generating line, the steam vent of little steam turbine connects the heat supply steam-distributing cylinder, the utility model discloses can alleviate reheat steam and lack the temperature problem, and be favorable to reheat steam temperature regulation stability; meanwhile, heat is supplied to the outside, the parameters of the heat supply accord with the use requirements of other parts of equipment in a power plant, redundant steam can be directly recycled, high-quality steam is extruded to do work, and the utilization rate of heat energy is improved.

Description

Arrange high-efficient heating system of secondary reheat unit in

Technical Field

The utility model relates to a heating system field of power plant, concretely relates to arrange high-efficient heating system of secondary reheat unit in.

Background

Because the economy of China continues to develop at a high speed, the domestic energy structure depending on coal electricity is difficult to change in a short time, and as the thermal power generation industry of households with large resource consumption, a sustainable development path with mutual coordination of society, economy, resources and environment is adhered to. For the purpose, the national energy agency also issues a plurality of energy-saving and emission-reducing schemes, and the coal-fired power generating set develops towards the direction of high capacity, high parameter and secondary reheating. The method has the advantages that the efficiency of the unit is improved, the coal consumption of power supply is reduced, meanwhile, higher requirements are provided for the flexibility of the unit, and the problems facing the industry are solved by how to improve the load response speed of the unit under wide load, improve the stability of reheat steam temperature control, reduce the influence of heat supply on the unit and the like.

The conventional steam-driven draught fan has low efficiency of a small steam turbine during operation, saves electricity and does not save energy; the conventional heating scheme is that a rotary clapboard, a pressure matcher or steam extraction is used for heating, and temperature and pressure reduction losses exist; the conventional steam-driven draught fan is used for exhausting steam and supplying heat, a set of starting steam source pipeline or an electric draught fan is additionally arranged for standby starting, the rotating speed of the draught fan is controlled by a small engine governor, and the steam extraction amount is in the continuous change process and is not beneficial to controlling the reheating steam temperature of the boiler.

The auxiliary steam header and the deaerator of the secondary reheating unit are heated without matching steam sources, and both need to supply steam by reducing temperature and pressure, so that the heat loss is large.

Disclosure of Invention

In order to solve the above not enough, the utility model provides an arrange high-efficient heating system of secondary reheat unit in, its aim at alleviates reheat steam and is owed the temperature problem, is favorable to reheat steam temperature regulation stability moreover, and the external heat supply of steam extraction improves heating economy nature, and unnecessary kinetic energy can convert the electric energy into simultaneously, reduces the station service power rate.

The utility model provides an arrange high-efficient heating system of secondary reheat unit in which characterized in that: the steam turbine generator comprises a small steam turbine, a clutch gear box, an electric/power generator and an induced draft fan, wherein the clutch gear box is connected with a rotating shaft of the small steam turbine, the small steam turbine is connected with one side of the clutch gear box, the other side of the clutch gear box is connected with the rotating shaft of the electric/power generator, the induced draft fan is connected with the electric/power generator, the small steam turbine and the clutch gear box are coaxially connected with the electric/power generator and the induced draft fan, the electric/power generator is electrically connected with a plant bus, and a steam outlet of the small steam turbine is.

Preferably, the small steam turbine is a back pressure steam turbine, a steam inlet source of the small steam turbine extracts steam from an outlet of a primary reheating primary reheater of a power plant boiler, and a temperature-adjusting steam source is taken from an inlet of the primary reheating primary reheater.

Preferably, the clutch gearbox adopts a fixed-speed ratio gearbox with a built-in clutch.

Preferably, a service bus connected with the motor/generator is connected with a circuit system in a power plant, and a bus switch is arranged on the service bus.

Preferably, the small steam turbine exhaust port is further connected with an auxiliary steam header, a deaerator and a small steam pump machine.

Preferably, the steam discharge parameters of the thermodynamic system are 1.5MPa and 350 ℃, and the parameters are the same as steam source parameters required by actual production of steam extraction and heat supply, an auxiliary steam header and a deaerator in a secondary reheating unit power plant.

Preferably, the motor/generator is connected with the induced draft fan through an insulation coupling, so that shaft current generated between the motor/generator and equipment is avoided, and electric corrosion is avoided on a rotating part.

The invention has the beneficial effects that: the invention can relieve the problem of under-temperature of the reheated steam and is beneficial to the stability of temperature regulation of the reheated steam; meanwhile, heat is supplied to the outside, the parameters of the heat supply accord with the use requirements of other parts of equipment in a power plant, redundant steam can be directly recycled, high-quality steam is extruded to do work, and the utilization rate of heat energy is improved.

Drawings

Fig. 1 is a structural layout diagram of the present invention.

Wherein: 1. the system comprises a small steam turbine 101, a steam inlet source 102, a temperature-adjusting steam source 2, a clutch gear box 3, a motor/generator 4, an induced draft fan 5, an insulating coupling 6, a station bus 601, a bus switch 7, a heat supply steam distributing cylinder 8, an auxiliary steam header 9, a deaerator 10 and a small steam pump.

Detailed Description

As shown in fig. 1, the utility model provides a arrange high-efficient heating system of secondary reheat unit in, its aim at alleviates reheat steam and is owed the temperature problem, is favorable to reheat steam temperature regulation stability moreover, and the external heat supply of steam extraction improves heating economy nature, and unnecessary kinetic energy can convert the electric energy into simultaneously, reduces the station service power rate.

The utility model provides an arrange high-efficient heating system of secondary reheat unit in which characterized in that: comprises a small steam turbine 1, a clutch gear box 2, a motor/generator 3 and an induced draft fan 4. The small steam turbine 1 adopts a back pressure steam turbine, a steam inlet source 101 of the small steam turbine extracts steam from an outlet of a primary reheating primary reheater of a power plant boiler, and a temperature-adjusting steam source 102 is taken from an inlet of the primary reheating primary reheater (namely primary cooling and reheating shown in the figure). 1 pivot connection clutch gear case 2 of small steam turbine, clutch gear case 2 connects small steam turbine 1 in one side, and the pivot of motor/generator 3 is connected to clutch gear case 2 opposite side, draught fan 4 is connected to motor/generator 3, be connected through insulating coupling 5 between motor/generator 3 and the draught fan 4, avoid producing the axle current between motor/generator 3 and equipment, produce the galvanic corrosion to rotating parts. The small steam turbine 1 and the clutch gear box 2 are coaxially connected with the motor/generator 3 and the draught fan 4, and the small steam turbine 1 and the clutch gear box 2, the motor/generator 3 and the draught fan 4 can realize the coaxial rotation of the equipment. The electric motor/generator 2 is electrically connected with a station bus 6, the station bus 6 connected with the electric motor/generator 3 is connected with a circuit system in a power plant, and a bus switch is arranged on the station bus 6. And the steam outlet of the small steam turbine 1 is connected with a heat supply steam distributing cylinder 7. The small steam turbine 1 is also connected with an auxiliary steam header 8, a deaerator 9 and a small steam pump 10 at a steam outlet. The steam discharge parameters of the thermal system are 1.5MPa and 350 ℃, and the parameters are the same as steam source parameters required by heating of the steam extraction heat supply, the auxiliary steam header 8 and the deaerator 9 in actual production in the secondary reheating unit power plant.

The working principle is as follows: the steam inlet source 101 is from the outlet of the primary reheating primary reheater, a temperature-adjusting steam source 102 is additionally arranged to prevent the steam inlet temperature from being too high, the steam outlet parameter is 1.5MPa of pressure and 350 ℃, and the temperature of the steam inlet source is matched with the steam source parameters of other heat users of the power plant, such as a heat supply steam distributing cylinder 7, a deaerator 9, and an auxiliary steam header 8. When the system is started, the motor/generator 3 runs in a motor mode, a bus switch 601 on the service bus 6 is closed, the service bus 6 provides power for the motor/generator 3, and the motor/generator 3 drives the induced draft fan 4 to run. At the moment, the small turbine 1 extracts steam from the outlet of the primary reheating primary reheater, the rotating speed is low, the operating condition is not met, the clutch in the clutch gear box 2 is in a disengaged state, the small turbine 1 does not participate in coaxial rotation, and the motor is in a driving state in the state. After the equipment runs for a period of time, the steam extraction parameters of the system meet the running conditions, the small steam turbine 1 rotates at a speed close to the synchronous speed, the clutch in the clutch gear box 2 is engaged, and the small steam turbine 1, the motor/generator 3 and the induced draft fan 4 run in parallel. And the main regulating valve of the small steam turbine 1 is continuously opened until the main regulating valve is fully opened, the rotating speed of the small steam turbine 1 rises until the rotating speed exceeds the synchronous rotating speed, and the state is a mixed driving state of the small steam turbine 1 and the electric motor/generator 3. And the rotating speed of the small steam turbine 1 continues to rise until the rotating speed exceeds the driving rotating speed of the motor/generator 3, at the moment, the motor/generator 3 is converted into a generator mode to operate, and in the coaxial system under the state, if the output power of the small steam turbine 1 just drives the induced draft fan 4 to work, the state is the driving state of the small steam turbine 1 at the moment. If the output power of the small steam turbine 1 is larger than the working energy consumption required by the draught fan 4, one part of the output power of the small steam turbine 1 is responsible for driving the draught fan 4, the surplus power of the small steam turbine 1 realizes the power generation function through the motor/generator 3, and the motor/generator 3 transmits the electric quantity to the circuit system in the plant through the plant bus 6 for consumption. If the power is reduced due to insufficient steam extraction of the small steam turbine 1, the rotating speed is reduced so that the work of the induced draft fan 4 cannot be met. The rotating speed of the generator/motor 3 is reduced to be lower than the synchronous rotating speed, and then the generator/motor 3 is converted into a motor to run and drives the induced draft fan to run together with the small steam turbine 1 again. And the rotating speed of the small turbine 1 is continuously reduced until the rotating speed is lower than the driving rotating speed of the motor/generator 3, then the clutch in the clutch gear box 2 is disconnected, the small turbine 1 is separated from the system, and at the moment, the induced draft fan 4 is driven to operate by the motor/generator 3 in a motor mode. In the whole operation process, the valve of the small steam turbine 1 adjusts the steam flow according to the heat load (the heat supply amount, the auxiliary steam consumption and the deaerator consumption), the movable blade of the induced draft fan 4 is controlled along with the negative pressure of the hearth, and the unbalanced power of the whole coaxial system is balanced by adjusting the motor/generator 3 into a motor mode or a generator mode through different rotating speeds. The small steam turbine 1 supplies heat to the outside through a heat supply branch cylinder 7 through a steam outlet heat supply output end. Because the steam discharge parameters adopted by the whole thermodynamic system meet the use requirements of other heat users of the power plant operation system, redundant steam can be directly conveyed to the five-pumping pipeline for the heating of the deaerator 9 and the flushing of the small steam pump machine 10, the energy is saved, the efficiency is high, and the heat utilization rate is high.

The preliminary model selection of the small steam turbine is shown as follows, and the small steam turbine efficiency is greatly improved compared with the conventional steam driven fan due to the fact that the small steam turbine regulating valve is fully opened under each load. Through the efficient heat supply scheme of the 'steam-electricity double-drive' induced draft fan, a main regulating gate of the induced draft fan turbine is always in a fully open state, the efficiency is kept above 82%, the station service power is saved, the heat supply efficiency is improved, and the cascade utilization of the energy is realized.

Table 12 x50% back pressure small steam turbine model selecting table for induced draft fan

1.3 Heat supply Condition analysis

1) Each unit is provided with a conventional heat source and a standby heat source, and the requirement of supplying heat to the outside for 312t/h steam can be met.

2) The two units normally operate and supply steam to the outside for 312 t/h;

3) when the heat load borne by the unit is between the minimum heat load and the small machine steam discharge, the small machine steam discharge supplies heat, and the rest steam discharge is reheated to the reheating system;

4) when the heat load borne by the unit is greater than the steam discharge amount of the small machine, the secondary cooling section supplies heat;

5) when one or more small machines are overhauled, the other induced draft fans operate in a steam-electricity double-drive mode, steam is discharged to supply heat, and insufficient heat supply is supplemented by a secondary cooling section so as to meet the heat supply requirement of 312 t/h;

6) when one large machine is overhauled, the other machine set exhausts steam and supplies heat to 156t/h + secondary cooling section steam supplement to 156t/h so as to meet the heat supply requirement of 312 t/h;

the two units are mutually standby.

Claims (6)

1. The utility model provides an arrange high-efficient heating system of secondary reheat unit in which characterized in that: including little steam turbine, clutch gear box, motor/generator, draught fan, clutch gear box is connected in the little steam turbine pivot, little steam turbine is connected to clutch gear box one side, and motor/generator's pivot is connected to clutch gear box opposite side, motor/generator connects the draught fan, little steam turbine and clutch gear box and motor/generator and draught fan coaxial coupling, motor/generator electric connection mill uses the generating line, the heat supply steam distributing cylinder is connected to the steam extraction mouth of little steam turbine, the little machine of auxiliary steam header, oxygen-eliminating device, vapour pump is still connected to the steam extraction mouth of little steam turbine.

2. The efficient heating system of claim 1, which is arranged on a double reheating unit, and is characterized in that: the small steam turbine adopts a back pressure steam turbine, a steam inlet source of the small steam turbine extracts steam from an outlet of a primary reheating primary reheater of a power plant boiler, and a temperature-adjusting steam source is taken from an inlet of the primary reheating primary reheater.

3. The efficient heating system of claim 1, which is arranged on a double reheating unit, and is characterized in that: the clutch gear box adopts a fixed speed ratio gear box with a built-in clutch.

4. The efficient heating system of claim 1, which is arranged on a double reheating unit, and is characterized in that: and a factory bus connected with the motor/generator is connected with a circuit system in a power plant, and a bus switch is arranged on the factory bus.

5. The efficient heating system of claim 1, which is arranged on a double reheating unit, and is characterized in that: the steam discharge parameters of the high-efficiency heating system are 1.5MPa and 350 ℃, and the parameters are the same as steam source parameters required by heating of an actually produced steam extraction heating system, an auxiliary steam header and a deaerator in a secondary reheating unit power plant.

6. The efficient heating system of claim 1, which is arranged on a double reheating unit, and is characterized in that: the motor/generator is connected with the induced draft fan through the insulating coupling, so that shaft current is prevented from being generated between the motor/generator and equipment, and electric corrosion is prevented from being generated on a rotating part.

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