DE1526210C3 - Device for controlling the burners of a steam generator - Google Patents

Description

and III denotes. The burners 42 of each burner group with the associated igniters 44 are arranged in the corners of the combustion chamber spaces 22 and 24 (FIG. 2) so that tangential firing takes place. The corners of space 22 are labeled A, B, C and D and those of space 24 are labeled E, F, G and H. The operation of each group I, II and III of burners is regulated separately so that they can be fired individually or cumulatively depending on the load on the power plant.

All of the burners 42 are fed from the main fuel line 46 (FIG. 3). Except for the hand-operated one Shut-off valve 48, the line 46 via the boiler alarm controller 52 through the power-driven Valve must be closed immediately if dangerous conditions occur in the combustion chamber. A control valve 54, which is controlled by the combustion controller 20, is used to regulate the fuel supply will. This in turn is dependent on a flow sensor 56 and the steam pressure regulator 18. Around ensure a minimum fuel pressure necessary for atomization in the burners 42, a shunt regulator 58 to the main regulator 54 is also provided. This minimum pressure is in the exemplary embodiment around 7 atm. The pressure sensor 60 controls the boiler alarm controller 52 so that the fuel supply is switched off when a predetermined minimum pressure of about 63 atm is reached or undershot will. At a pressure of about 56 atm, the pressure sensor 62 causes the closure of the Contact 66, and the sensor 64 closes the contact 68 when in the line 46 a pressure of about 34atm prevails. Each individual burner 42 (Fig. 4) has a control circuit. The actuator for the pilot burner 44, which in a manner not shown the fuel supply is connected depends on the closing of contact 92. The main burner 42 can be supplied from the main supply line 46 by hand via the valve 72 and by an actuator be separated via the valve 74. When contact 88 closes, valve 74 is opened, and when contact 90 is closed, it is closed. A limit switch 76 is closed, when valve 74 is fully open. It then responds to the relay 80, its contacts 82, 84 and 86 here be opened. The valve 74 remains open until the actuator closes it. With additional Heat demand is, for example, a second burner group in via the control circuit 94 (FIG. 6) Put into operation. The control circuit is ready for operation by actuating contact 98 on the control panel did. At a pressure of about 56 atm, the pressure sensor 62 (FIG. 3) also makes contact 66 actuated. In series with the contacts 66 and 98 there is a series parallel connection of several contacts, whose switching status indicates whether the assigned burner group (I or II or III) is in operation or not. These contacts and a relay 102 are shown in the feedback circuit 100 of FIG. 11, one of which is assigned to each burner group. The relay 102 has four normally closed contacts .104, 106, 108 and 110, which are opened when the associated burner group is in operation. Five working contacts 112, 114, 116, 118 and 120 are closed when the burner group is in operation. These contacts of the various burner groups are in the control circuits 94 and 96 of FIG and 7. The addition of the Roman numerals I, II, III assigns the contacts to the Brenner groups marked. The upper part of the control circuits 94 and 96 (FIGS. 6 and 7) is a counting circuit, the in the case of circuit 94 there is current when any burner group is operating and the other two are out of operation and in circle 96 (Fig. 7) when any two burner groups are in operation and one is out of order. With the counting circuit of the control circuit 94 (Fig. 6) is a relay 122 with normally open contacts 124, 126, 128 and 130 connected in series. Contact 130 switches a delay relay 132 with a delay time of two seconds, after which the normally closed contacts 134, 136 and 138 opens.

Also in the control circuit 96 (FIG. 7) is through the contact 148 actuates the relay 150 with the same delay of two seconds and its normally closed contacts 152, 154 and 156 open. Relays 122 and 132 in circuit 94 (FIG. 6) and relays 140 and 150 in control circuit 96 (FIG. 7) therefore act as a pulse generator for a pulse of two seconds Duration of the connection in the other burner groups depending on their operating status and Cause operability.

The pulses are passed on to the control circuits (Figs. 8, 9 and 10) to all burners at the same time. To select the burner group to be switched on, the control circuit according to FIG. 8 for each Burner group a sub-circle. The one on the left in FIG. 8 shown sub-circle 158 is z. B. the burner group I assigned. It contains three lines 168, 170 and 172 connected in parallel in series with the Line 174 are switched. In the latter is the normally closed contact 110-1, which corresponds to the previous one Description of Figure 11 indicates that the burner group is not operating. The normally closed contact 176-1 is confirmed by the relay 180 (Fig. 10) and indicates in the rest position that the burner position is not is automatically locked. The normally closed contact 178-1 can be opened by the operating personnel, if the burner group is to be taken out of operation, e.g. for maintenance work. With everybody the contact lying in the line 174, the sub-circuit 158 can therefore be blocked and locked.

If the contacts are closed, however, when one of the parallel lines 168, 170 or 172 the relay 160-1 and the latch relay 162-1 energized. The normally open contact 164-1 of the former leaves a timer 210 (FIG. 9) starts up, and when it expires, all burners 42 of a burner group in succession can be put into operation. The blocking relay 162-1 prepares the burner counting circuit (Fig. 10) in each burner position by closing the normally open contact 166-1 on the operation. To hang on Part of FIG. 8 it should be noted that the contacts 182-Π and 182-III are closed when Contacts 178-11 or 178-III are opened in the corresponding burner groups. The administration 168 contains contact 184, which is used manually to switch from the operating mode "manual" to "automatic" can be operated. In this case, the individual burner groups are switched on Contacts 186-1, 186-11 and 186-III used. The second parallel line 170 (Fig. 8 left) contains the pulse-generating contacts 124 and 134, which are from the relays 122 and 132 in the control circuit 94 of the F i g. 6 can be actuated. The normally open contacts 118-11 and 118-III indicate when they are closed that the

assigned burner groups are in operation. Pie normally open contacts 187-11 and 187-III show through Closure on that the assigned burner group by the burner counting circuit (F i g. 10) z. B. because of automatically taken out of operation due to an error. The third parallel line of the left Part of FIG. 8 includes a series connection of the pulse generating contacts 142 and 152 shown in FIG relays 140 and 150 in pulser circuit 96 of FIG. 7 can be controlled.

As mentioned above, closing any of the parallel lines also creates a circuit for the blocking relay 162-1 prepared. However, this only responds when contact 188-1 is closed is. This closure occurs when the burner group is switched off normally due to a reduction the requested output, in the event of a boiler alarm or a negative result of the test of the respective burner group by the burner counting circuit (Fig. 10). You can also do it manually respectively. The contact 166-1 is then opened, the preparation in the burner counting circuit (Fig. 10) takes back and cannot be put into operation.

The sub-circuit 190 (FIG. 8 center) is assigned to burner group II and consists of two parallel ones Lines 192 and 194 as well as a line 196 in series with them. The function of this circuit corresponds in detail to the function of the sub-circuit 158, which was described above, with the Exception that the corresponding parts are marked with II and that as pulse-generating contacts the contacts 126 and 136 as well as the contacts 144 and 154 in the parallel branch are used. Sub-circuit 198 is assigned to burner group III and contains three parallel lines 200, 202 and 204 and a series connection of contacts in line 206. All other parts correspond in arrangement and function those of sub-circuit 158 of burner group I. The pulse generation however, contacts 128 and 138 are in line 202 and contacts are in line 204 146 and 156 generated by the pulse generator circuits 94 and 96 of FIGS. 6 and 7 can be controlled.

The timer 210 (FIG. 9) is a cam switch driven by its synchronous motor. It is returned to the zero position by briefly actuating the contact 164, and the opening of the same contact 164 starts the timing, which can last up to two minutes. During the rotation, the contact 92 is initially closed, which actuates the igniter 44 (FIG. 4). After five seconds, the four contacts 88 are closed one after the other, each for about twenty seconds, each of which is assigned to one of the four pairs of torches AG, CE, BF and DH . As a result, the fuel valve 74 (FIG. 4) is opened in each case; then the contact 212 closed, which puts the burner counting circuit of the respective burner group into operation. Shortly thereafter, each of the three timers closes contact 214 in the feedback circuit (Fig. 11), so that relay 202 is energized until contact 216 is closed, thereby indicating that relay 180 has not been actuated and thus none There is an error in the burner group.

Like the timers in FIG. 9, the burner counting circuit in FIG. 10 once for each group present; in the present embodiment thus three times. The normally closed contacts 82, 84 and 86 are assigned to the burners 42 (FIG. 4) denoted by letters and connected in a manner similar to a matrix. They are opened when the fuel control valve 74 is fully open so that over the contact 76 the associated relay 80 is energized. The arrangement of the contacts 82, 84 and 86 is chosen so that the burner counting circuit is not closed

ίο can be, if not at least three out of four Burners 42 in each combustion chamber space 22 and 24 (FIG. 1) are in operation. However, will be less than three fuel valves 74 (Fig. 4) fully open, the relay 180 is actuated and closes the contacts 90, 187 and 208 and opens contacts 176 and 216. As described above, the contacts control 187, 208 and 176 in the control circuit of FIG. 8, the connection of further burner groups, if necessary is. The contact 216 is in the feedback circuit (FIG. 11) and prevents the relay 102 from being energized. The blocking relay 180 can be reset manually via the contact 220, e.g. if the Bug is fixed.

A feedback circuit as shown in FIG. 11 is also provided for each group. Each of these three circles contains a normally closed contact 216 and a normally open contact 214, which are in series with the relay 102, its normally closed contacts 104, 106, 108 and normally open contacts 112, 114 and 116 are in the circuits 94 and 96 the pulse generator (Figs. 6 and 7). The normally closed contact 110, on the other hand, and the normally open contacts 118 and 120 are in the control circuit for the burner groups according to FIG. 8 included. The feedback circuit according to FIG. 11 has the task of reporting back to the mentioned control circuits whether the burner group, to which it is assigned, is in operation or not.

Although the function of the system is essentially evident from the description above, the following should be added.

When operation starts, the pipes 26 of the steam generator (FIGS. 1 and 2) are supplied with evaporable liquid, in particular water. By closing the contact 186 in the control room in one of the lines 168, 192 or 200, the first burner group is put into operation. If this is group I, the contacts 110-1, 176-1 and 178-1 are closed one after the other and this indicates that the start-up conditions described above are met. By closing the contact 186-1, the relay 160-1 is energized, so that the contact 164-1 (Fig. 9) is closed and the timer 210 of the burner group I is brought into the basic position. Even after the reopening of the contact 186-1, the timer 210 carries out the switching processes with the aid of the camshaft and the associated contacts 88, 92, 212 and 214 and ignites a pilot flame in the pilot burners 44 of group I and finally causes the fuel valves 74 to open for each of the burners 42. The burners are put into operation in pairs one after the other, namely first in corners A and G, then in corners C and 2s, then in corners D and F and finally in corners B and H. Es relay 162-1 is then also blocked, so that contact 166-1 in the burner counting circuit (FIG. 10) for burner group I is prepared. As soon as the burner valves 74 the

Burner group fully ^{5 are} opened, the t \ X ^L ordered contact ⁷ 76 closed ^ the relay 8Ö actuated 'and ^; the * contacts 82, 84 and ^: 86 of the Bren'het- 'zäMkreis (F i g'J 10) ^! this Brentiergruppe open. After ninety "seconds, the" relay 180 "is actuated by the burner counter circuit, contacts 187, 208 and 90 are closed and contacts 176 and 216 are opened if fewer than three of four burners in each burner chamber are not in operation In this case, the contact 90 is closed, which closes the valves 74, so that the fuel supply to the respective burners is interrupted, but if at least three burners in each group are in operation, the relay 180 is not actuated , and then the burner group is initiated by the timer contact 214 (Fig. 9) which energizes the relay 102 in the feedback circuit (Fig. 11), and contacts 112, 114, 116, 118 in the Fig. 6 and 7 pulse generator circuits and 120 are closed and contacts 104, 106, 108 and 110 are opened (see FIG. 8).

As the load on the steam generator 12 increases (FIGS. 1, 3 and 5), the control valve 38 for the Turbine steam is opened more and more, so that the pressure in the steam line 36 drops. This rubbish is measured by the sensor 40 and the regulators 18 and 20 increase the fuel supply on the line 46. When the main control valve 54 is open so wide that a pressure of about 56 atm is reached - which corresponds to the operation of eight burners - the pressure switch of the sensor 62 closes contacts 66 in control circuit 94 (FIG. 6). If already before by manually closing the contact 98 was switched to automatic operation, an electrical current path is created via the Contacts 106-III, 106-11 and 112-1. It arises how described in detail above, through the interaction of the relays 122 and 132 a pulse of two seconds duration, which in the control circuit of F i g. 8 is evaluated. This is all Brenner groups assigned; However, it is ensured that the pulse from the inoperative Burner groups in a certain order is accepted. For the burner group III z. Are you this impulse is not acceptable because the relay 102 in the feedback circuit for burner position II is not actuated so that the contact 102-11 is open and thereby indicates that the burner group II is not in operation is. In addition, contacts 208-11 and 182-11 on line 202 are open so that is indicated is that burner group II is not blocked. When contacts 126 and 136 are closed, however a current path via lines 194 and 196 closed for two seconds, so that the relay 160-11 and 162-11 contacts 164-11 and 166-11 shut down. As a result, the timer 210 (FIG. 9) assigned to burner group II and the Burner counting circuit prepared, which is then started by closing contact 212 of the timer will. The relay 180 was not energized and therefore the contact 216 in the feedback circuit remained closed (Fig. 11).

However, if burner group II cannot be switched on because it is blocked due to a fault or due to repairs or if it is already in operation, contacts 110-11, 176-11 3 of 178-11 are open when contacts 126 and 136 generate the momentum. In this case the contacts 120-11, 208-Π or 1 $ 2 "-ΪΓ in the line; 202 are closed, so that group III receives the impulse from the contacts 128 and 13 $ in the line 194 ^{V is} generated, 'can receive .. The group' III is therefore put into operation if all other conditions are met. Relays 160-111 and 162-IÜ respond when the pulse arrives and contacts 110 -III, 176-III and 178-III are closed in line 206. The further start-up

ίο 'of burner group III happens in the same As described above for the other burner groups.

If burner group I is not available when starting up, burner group II is through Close contacts 184 and 186-11 manually, as described above for group I. would. The system then tries to connect burner group III as the second group, and if so, this should not be ready for operation, the burner

ao group I can be switched on when it is ready for operation again. In the latter case, the contact 186-III on line 170 closed. The relay 180 of the burner group III (Fig. 10) is energized and locks this. The relay 102 (Fig. 11) in group II is actuated because it is operational. About the closed contacts 110-1, 176-1 and 178-1 the now operational burner group I by the impulses of the relays 122 and 132 (contacts 124 and 134), the relays 160-1 and 162-1 are actuated and group I is now approached, as described above would.

Burner group III can also be started up first. Then group II and finally group I would follow if either contact 186-11 or contact 182-11 were closed and would have locked Group II. The contact 118-III would be closed because the group III already is in operation. The start-up process would then proceed in the same way as described above. An important advantage is that the system also takes into account errors that occurred during the start-up process occur so that fewer than three out of four burners are operational. If z. B. the burner group II is to be switched on, this process can run until contact 212 of the timer is closed to thereby close the burner counting circuit. If it turns out that the blocking relay 180 is energized because the minimum number of ignited burners is not available, so all burner valves 74 of burner group II are blocked by closing contact 90, and the The pressure in the fuel line would rise again, so that again the contact 66 in the control circuit 94 is closed. The pulse now generated by relays 122 and 132 reaches burner group III, because group II is blocked by actuating relay 180. Burner group III is switched on.

When two burner groups are already in operation

and a third is to be switched on, the control circuit 94 (FIG. 6) transfers to the control circuit 96 (Fig. 7) switched. As shown in FIG. 5, there is now a pressure of about 12 atm in the Fuel line because sixteen burners 42 are in operation. When the pressure in the fuel line 46 reaches about 34 atm, the contact 68 of the pressure sensor 64 is closed, thereby the Relays 140 and 150 of the pulse generator circuit 96 for generating pulses of two seconds duration

309517/7

caused. These pulses are triggered by the closing of contacts 142, 144 and 146 and by the Two seconds later, contacts 152, 154 and 156 open. These impulses will be in the steering committee of FIG. 8 received in the same way, and the last burner group is d. H. the one whose contacts UO is closed in

10

Put into operation. It has been shown above that when the invention is used, the operation of a large Steam generator is automated with relatively few control elements and a simple arrangement. Nevertheless, a safe start-up process for the burners is essential for all that occur during operation Opportunities guaranteed.

For this purpose 2 sheets of drawings

Claims (3)

if a certain minimum number of burners of this group is operable. A feedback circuit can also be assigned to each burner group. 1. Device for controlling the burner of one that reports whether the burner group is in operation. Steam generator, its burner or burner 5 The invention thus described avoids because of groups electrically depending on which the control by impulses a large number of with the load changing fuel pressure controlled locks and permanent monitoring circuits, ert are characterized, in particular about the operating state of the burner a pulse generator (94, Fig. 6, 96 Fig. 7) pre-groups after receiving a command. Also is is available, which ensures when changing the fuel that the intended sequence pressure to switch on or off others for the successive switching on of the Burner groups (I or Π or ΠΙ) to the control burner groups and the individual burner circuits (Fig. 8 and 9) all burners is th simultaneously, but inoperable burners or Emits pulses, and that the burner groups are ignored in each control circuit. Burner groups' interlocks (e.g. relay 15). An embodiment of the invention will now be described 180, Fig. 10) are provided, through which the inputs are described in connection with the drawing. It circuit only the nearest predetermined and represents operational burner group (I or II or Fig. 1 schematically shows a boiler system in which the ΙΠ) is ensured. Invention is applied, 2. Device according to claim 1, characterized in that Fig. 2 shows a section along the line 2-2 of the indicates that the control circuits (Fig. 8, Fig. 1, and9) each burner group an interlocking Fig. 3 and 4 the fuel supply systems for the circle (Fig. 10), which ensures that steam generator and for each individual burner, m ") a burner group is only considered ready for operation F i g. 5 a diagram for the oil supply of the force ^^ is reported when a certain minimum number * 5 plants in the company according to the invention, of burners in this group is operational. Fig. 6 shows the control circuit for the connection of a 3. Device according to claim 1 and 2, there- second burner group and characterized in that each burner group F i g. 7 the control circuit for the connection of a pe (I, II, III) a feedback circuit (Fig. 11) to the third burner group, which indicates whether the burner group (I 3 ° F i g. 8 is the control circuit of the pulse generator for or Π or III) is in operation. includes the connection of the burners in groups, F i g. 9 the selection circle for the selection of the burner groups to be switched on, _— F i g. 10 the switching of the timer for the 35 switching of the burners of a burner group, 11 shows a counting circuit for the operable The application relates to a device for burners of a burner group. Control of the burners of a steam generator whose thermal power plant 10 (Figs. 1 and 2) beBrenner or burner groups electrically dependent on a steam generator 12, a turbine 14 ability of the combustion 40 with an electric generator 15, which changes with the load. For regulation fabric pressure can be controlled. the output power of the power plant will be ana-It is known, e.g. B. from the USA.-patent logregier 16, steam pressure regulator 18 and furnace reg-2 390 806 that uses a ler 20 burner or burner groups. The power regulator 16 is of Steam generator electrically depending on the signals of a setpoint controller 17, which the requested To control fuel pressure, which is shown with the load on- 45 power, controlled so that the supply of the changes. The known arrangements, however, require the turbine 14 to be carried out accordingly. Steam pressure regulator extensive locking circuits and complex time 17 and combustion controller 20 change the members of them, to ensure that the operation of the controlled quantities so that the supply of the tur-burner groups according to a predetermined sequence bine changes accordingly. The analog regulators 16, 17, is recorded. 5 ° 18 and 20 are trained in a manner known per se The invention is based on the object at det. Steam generators, which have several groups of burners The steam generator 12 has two combustion chambers to accelerate their control processes, to spaces 22 and 24, to make their outer walls simpler and safer with steamers. The latter in the form of tubes 26 which cool the walls so that only such groups of burners in operation 55 are covered. The intermediate wall 28 is also made of raw material, which are also operational, formed together with the pipes 26 in this is achieved according to the invention, a lower collecting line for the supply of the Flüsd that a pulse generator is present, which ends when there is a change in fluidity . ^{The upper ends of the boiler tubes of the fuel pressure} for switching on and off open into steam collectors 32 and 34. The turbine of further burner groups to the control circuits of all 6o 14 is this steam via a line 36 with burner simultaneously emits pulses, and that in each one control valve 38 and a pressure sensor 40 too. the control circuit of the burner group interlocks. The pressure sensor 40 influences the steam provided by which only the pressure regulator 18 is switched on, and the control valve 38 is controlled by the next predetermined and operational regulator 16 for the outlet line. Burner group is ensured. ⁶ 5 The oil-operated burners fire the appropriately, each burner group contains a combustion chamber space 22 and 24. The burners 42 are locking circuit, which ensures that a burner in groups of eight burners in different, group is only reported as ready for operation, heights arranged in the combustion chamber and marked with I, Π