DE1932721B2 - Steam generator - Google Patents

Description

The invention relates to a steam generator heated with fossil fuels for a steam power plant, which has a flue gas duct connected downstream of the combustion chamber, in which a superheater and flue gas side an economiser is arranged behind it, the economiser being supplied with turbine bleed steam on the feed water side heated food preheaters are connected upstream.

With the introduction of the economiser, from which the flue gases leaving the steam boiler are reduced Temperature could still be taken from heat, there was an increase in the boiler efficiency of Steam power plants.

Of the three main components of a fossil fuel steam power plant, the Turbine a considerable overload capacity Operate loss of efficiency with overload. Only the steam generator is due to the usual constructive Considerations beyond the nominal load specified by the manufacturer can only be overloaded to a limited extent.

From DE-PS 5 91 417 a water tube boiler is with two arranged one behind the other in the flue gas flow, separated from one another by a bundle of water pipes

ίο Combustion chamber known to the besides that Ordinary fuel is still an auxiliary fuel with a higher combustion temperature than that of ordinary fuel Fuel is burned. The arrangement of the parts and the supply of the flue gases can be as follows take place that the combustion gases of the auxiliary fuel when they penetrate into the chamber approximately have the same temperature as the combustion gases of normal fuel flowing in there. A This is an indication of the overloadability of the boiler in connection with a steam power plant Print not removable.

Similar facilities, but without a connection with steam power plants for different fuels with different combustion chambers result from GB-PS 10 27 888 and FR-PS 11 94 730.

The object of the present invention is to provide a steam generator of the type mentioned at the beginning Further develop the genus in such a way that a temporary increase in the output of the steam generator occurs

■ i "in the simplest and most effective way possible.

To solve this problem, the invention proposes that a device for controlled Introduction of hot combustion gases into the space between the superheater and economiser at peak loads

" is provided.

These solution features result in an additional one Heat supply to the economiser, which in terms of increased electrical power output, the Steam supply to several feed water preheaters can be switched off so that the steam flow without Shutdown of the feedwater degasser is increased by the turbine. The non-switched off gas water deaerator is essential as it removes the oxygen from the feed water. The invention thus enables steam generation to be increased to cover peak electrical energy requirements of a power plant by accepting a certain loss of efficiency, but with little Additional effort, the well-known overload capacity of the turbine and condenser and the heat supply is increased to the economiser.

Advantageous refinements result from the subclaims.

The invention is explained in more detail below with reference to the drawing. It shows

Fig. I a schematic representation of a steam power plant, and

FIGS. 2 and 3 show a representation corresponding to FIG. 1 of a different embodiment a steam generator.

The steam generator comprises a combustion chamber 6 and a flue gas duct 7 (both of which can be further subdivided can), clad with closely spaced water- and / or steam-cooled pipes 8, burners 9, Tube bundle 10a for superheating the steam, tube bundle lOö for post-superheating and economiser tubes 12th

In the arrangement of FIG. 1, additional

Fuel in a refractory lined, lying next to the flue gas 7 and connected to it Auxiliary combustion chamber 13 burned and the hot combustion products above the Eco.iomizer 12 submitted. The additional fuel is fed through a burner 14 while the combustion air from a fan 15 from the ambient air or via a connecting cable from the main wind system is delivered. If the device for increasing the output power of the steam generator out of order ι ο is, the throttle valve 17 is closed.

The additional combustion can alternatively or additionally take place in the room directly above the economiser in the Flue gas draft room take place, the fuel being fed through the burner 16 as it is the Allowing residual oxygen to leave the combustion chamber if there is a high excess of air in the combustion chamber is being worked, or by introducing additional combustion air and / or oxygen by means of a additional ventilators. ;> o

According to FIG. 2, the additional combustion takes place in the adjacent auxiliary combustion chamber 18, whereby fuel and combustion air similar to FIG. 1 through a burner 19 are supplied, with the exception that a partial recirculation.! 5 tion of the flue gases mixed with the additional combustion gases in the flue gas flue is effected, the fan 20 via a connecting duct

21 is connected to the flue gas duct below the economizer 12 and the heat transfer to the pipes the economizer is improved by the increased flow of the flue gas masses. The throttle bodies

22 and 23 are used to control the recirculating flue gas flow and to separate the adjacent auxiliary combustion chamber from the flue gas flue when the ..n device for increasing the output power of the steam generator is not working.

According to Fig. 3, the hot combustion gases reach which are generated by burning additional fuel, via the fire-proof lined flue gas duct 24, which is in communication with the combustion chamber via several openings, bypassing the superheat and reheat tube bundle to openings upstream of the economizer and are connected to the cooler combustion '' i gases are mixed, reducing the temperature and the mass flow of the flue gases passing through the economiser tubes flow past, and thus the heat supply to the economiser is increased. The flue gas flow through the Flue gas duct 24 is through the in the area above w of the economizer compared to the combustion chamber allows existing negative pressure. The mentioned flue gas flow is supported if necessary by the action of a jet pump, whereby the medium is higher Pressure in the jet pump from cooler combustion 'u gases, which are taken through a connecting channel 25 from the area below the economizer or from ambient air, the pressure being increased by a fan 26. The medium with Your lower pressure in the jet pump form the w> mentioned excess combustion gases flowing from the furnace through a connecting duct 25a. Throttle valves 27, 28 and 29 control the flow of flue gas through the corresponding channels. They stay closed and thereby separate the combustion chamber from the flue gas t5 when the device for increasing the Steam generation is not in operation.

The mode of operation of a steam generator making use of the invention can be seen as follows describe:

When the steam generator is operating at nominal or lower power, the throttle valves are 27, 28, 29 of the auxiliary combustion chambers 13, 18 of the flue gas duct 24 and the connecting ducts 25, 25a closed for the circulation of the additional combustion gases. There is no additional combustion instead and the device for moving the additional combustion gases is out of order. The efficiency the steam generator is due to the presence of the device for increased steam generation not affected.

The throttle valves 27, 28, 29 are opened to increase the steam generation as desired. the additional flue gas flows and the additional combustion takes place to the extent that they are used to Increase in steam generation is needed. The amount of additional combustion air, the additional Combustion and the recirculation of the gases are regulated by the position of the throttle valves, wherein the device for controlling the output power assists the movement of the smoke gases. Of the The draft for the combustion chamber is adapted to the new flow conditions of the flue gas flow and the flushing water flow adjusted according to the increased output of the steam generator.

The efficiency of the steam generator is somewhat reduced, as the combustion gases leave the steam generator leave at a higher temperature.

An application of the invention is shown in FIG. A steam power plant consists of a high pressure turbine 30, a low pressure turbine 31, the absorbs the reheated steam, a generator 32 coupled to the turbine, a condenser 34, feed water preheater 35, valves 37 for controlling the steam extraction to the preheaters, a degassing preheater 36 and a measuring and control device 38.

Part of the steam is increased output power due to the increased heat input to the economiser of the steam generator diverted through a valve 33, bypasses the high pressure turbine part 30 and the post-superheater 10i> and mixes on the Paths to the low-pressure turbine 31 with approximately the same pressure and temperature as the reheated one Steam.

The increase in the heat supply to the economiser should still be in connection with a short-term Shutdown of the steam supply for the maximum pressure feedwater preheater be considered to thereby reduce the steam flow of the turbine and hence the electrical To increase the output power of the turbo generator. The feed water entering the economiser has then a lower temperature so that, since the steam generator requires additional heat, the shutdown of the steam supply for the feedwater preheater is only of limited duration. the Invention provides an additional supply of heat to the economiser, made possible by switching off the steam supply to several feedwater preheaters an increased electrical power output, so that without Shutdown of the feed water degasser, the steam flow through the turbine is increased. The one not switched off Feed water degasser is essential, as it removes the oxygen from the feed water.

The embodiment of the invention shown in FIG can be operated in the following ways:

Upon receipt of a signal from the monitoring device 38, which indicates an increased demand for electricity, the device for supplying the additional turbine power is triggered. Signals emanating from the monitoring device 38 close the valves 37 for the feedwater preheater 35, thereby increasing the steam flow through the turbine, open the throttle valves 17, actuate the fan 15 and ignite the additional fuel from the burner 14 (and / or 16), thereby increasing the Heat supply to the economiser. After the steam supply to the preheaters 35 has been switched off, the economiser receives feed water at a lower temperature. When the monitoring device 38 or other devices or computers have detected the increase in output of the steam generator, the valve 33 is opened and the low-pressure turbine 31 is supplied with additional steam.

For this purpose 2 sheets of drawings

Claims (7)

Patent claims: 1. Fossil fuel-heated steam generator for a steam power plant, one of the Combustion chamber has downstream flue gas, in which a top heater and flue gas side an economiser is arranged behind it, the economiser being supplied with turbine bleed steam on the feed water side heated feed water preheaters are connected upstream, characterized in that a device for the controlled introduction of hot combustion gases in the space between the superheater (10a, J and economiser (12) at peak load is provided 2. Steam generator according to claim 1, characterized in that the device consists of at least an additional burner (16) for burning fossil fuels. 3. Steam generator according to claim 1 or 2, characterized in that the device has a outside of the flue gas duct (7) arranged auxiliary combustion chamber (13, 18) into which at least a burner (14; 19) is directed and via a shut-off device (17; 22) with the space between Superheater (1Oa ^ and economiser (12) connected. 4. Steam generator according to claim 3, characterized in that the auxiliary combustion chamber (18) Via a shut-off device (23) with the flue gas flue (7) on the flue gas side downstream of the economizer (12) is connected and that in the connecting channel (21) a fan (20) conveying into the auxiliary chamber (18) is arranged. 5. Steam generator according to claim 1 or 2, characterized in that the device consists of there is a flue gas duct (24) which is connected to the combustion chamber (6) via volume control elements (27, 28) on the one hand and connected to the space between the superheater (10a,) and economiser (12) on the other hand is. 6. Steam generator according to claim 5, characterized in that the flue gas duct (24) by means of a fan (26) conveying in this via a shut-off element (29) with the flue gas duct (7) the flue gas side is connected downstream of the economizer (12). 7. Steam generator according to claim 6, characterized in that the introduction of the from the Blower (26) exiting smoke gases as a jet pump for from the combustion chamber (6) to be removed Flue gases is formed.