DE1531726A1 - Steam turbine system for ship propulsion - Google Patents

Description

Escher W y s s G.m.b.H., Havensburg (Württemberg)

Steam turbine system for ship propulsion.

The invention relates to a high pressure, reheat type of the working steam working steam turbine plant with reverse turbine for ship propulsion.

In stationary steam power plants, it is known to use high-pressure steam with reheating, because this achieves a significant reduction in fuel consumption compared to systems that work without reheating. In this way, a thermal efficiency of AO to 42 # could be achieved in steam turbine systems with outputs of the order of magnitude of 100 to 500 MW per block.

As long as only relatively small outputs were required in ship systems, mostly only steam pressures of up to about 60 atm were used, at which reheating is not worthwhile. However, it has been shown that reheating of the steam is particularly beneficial

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It is economical if the steam is brought to a temperature of 500 to 56O ⁰ C through the flue gases from the boiler and a live steam pressure of at least 125 to 180 atm is applied. In order not to obtain too small flow cross-sections in the high-pressure part of the turbine, it must be assumed here that the output of the system is at least 25,000 to 30,000 WPS.

It is known in steam turbine systems for ship propulsion, which their power to propellers with fixed blades submit to provide a special reverse turbine for the backward movement of the ship. The application of high temperature with live steam and the reheating of the steam to a high temperature is made more difficult by the requirement that rapid temperature changes at the turbines, especially when reversing from forward to reverse travel and vice versa, must be avoided.

The invention seeks, in a steam turbine installation of the type described at the outset, to meet this requirement relatively simple means to be sufficient. It consists in the fact that the reverse turbine as a whole is connected to the reheater is downstream and parallel to the high pressure part of the forward turbine upstream of the reheater with one a controllable shut-off valve and a cooling device provided bypass line through which the

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Live steam without work output to the air in the supply line can be routed to the reheater.

With this measure, it is possible to regulate the flow of steam through the reheater even in the event of a reversing process to maintain unchanged and also to maintain the temperature of the steam flowing to the reheater. Overheating of the tubes of the reheater is avoided, without any special, high temperature range working flue gas flaps with bypass ducts in the Boilers would have to be provided in order to divert the hot flue gases from the reheater when reversing.

In the drawing, an embodiment of a steam turbine system according to the invention is shown schematically.

The forward turbine consists of three consecutively from the Working steam flowed through parts, namely a high pressure part 1, a medium pressure part 2 and a double-flow low pressure part 3 · The live steam is generated in a boiler 4 and superheated in a superheater 5, whereupon it is replaced by a Line 7 provided with a control valve 6 enters the high-pressure turbine part 1. From the exit side of the high-pressure turbine part 1 leads a provided with a check valve 8 line 9 to a heated by flue gases Reheater 10, in which the steam is back to about

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Fresh steam temperature is heated to finally through a line 12 provided with a regulating valve 11 to be fed to the Kitteldruckurbinenturbinenteil 2. Got from there the steam via a line 13 into the low-pressure turbine part 3 and finally via lines 14 into one Capacitor 15

The condensate precipitated in the condenser 15 is conveyed via a line 16 with a pump 17 and condensate preheaters 18, 19, 20 conveyed into a feed water tank 21, and a pump 23 driven by an auxiliary turbine 22 conveys the feed water via a line 24 with feed water preheaters 25 and 26 into the boiler 4

The turbine parts 1, 2, 3 transmit their power via a spur gear 27 on a ship's propeller 28 the faster rotating high pressure turbine part 1 and the gear 27, a planetary gear 29 is also switched on.

^{A reverse turbine consisting of two parts 2 1} and 3 ¹ through which the working steam flows one after the other is provided for reversing, the turbine part 2 'being assembled on the outlet side with part 2 of the forward turbine and turbine part 3' with part 3 of the forward turbine. The reverse turbine 2 ', 3' is entirely connected downstream of the reheater 10 and receives the working steam via a branching off from the line 12, with a control

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valve 3o and an injection cooler 31 provided line 32. A line 33 establishes the connection between the outlet side of the · turbine part 2 ¹ and the inlet side of the turbine part 3 '. The exhaust steam flows through one of the lines 14 into the condenser 15.A bypass line 36, which runs parallel to the high-pressure part 1 of the forward turbine upstream of the reheater Io and is provided with a controllable shut-off valve 34 and an injection cooler 35, branches off from the line 7 upstream of the control valve 6 and opens after the check valve 3 into the line 9 leading to the reheater Io. A line 39, which branches off from the line 12 after the reheater Io and is provided with a controllable shut-off valve 37 and an injection cooler 33, also allows steam from the line 12 directly into the condenser 15 to be discharged.

Provided with control valves 4o, 41,42 «lines 43,44» 45 are used to inject condensate into the steam flowing through the coolers 31 bfcw, 35 and 33, respectively. The condensate will between the preheater 26 and the boiler 4 of the feed water line 24 taken through a line 46, from which the lines 43 * 44, 45 branch off.

A line 47 branching into different branches serves to drive auxiliary turbines, not shown

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Steam, which is the pipe leading to the reheater is removed. The one that drives the boiler feed pump 23 Auxiliary turbine 22 is normally acted upon by steam coming through a line provided with a check valve 48 49 is taken from an intermediate stage of the medium-pressure part 2 of the forward turbine. Optionally, this Turbine 22 but also acted upon by steam, which is connected to the line 47 through a line 50, such as that for the Auxiliary turbines determined steam from the line 9 leading to the reheater 10 is taken. The steam flow to the turbine 22 is controlled by valves 51 and 52, which are under the influence of a speed controller 53. The exhaust steam of the auxiliary turbine 22 passes into a Auxiliary capacitor 54, but could also be the main capacitor 15 be forwarded.

For the sake of completeness, the drawing also shows various extraction lines for preheating the condensate or Speieewasser entered, so one of the intermediate stages of the low pressure part 3 of the forward turbine branching off, Withdrawal line 55 leading to preheater 18, one branching off from line 13 and having a check valve 56 The line 57 provided which leads to the preheater 19, a line branching off from the line 49 and leading to the preheater 20 58, one of an intermediate stage of the medium pressure part 2 of the

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Forward turbine branching off with a check valve 59 provided line 60, which is calibrated in two branches 60 and 60 " branches, of which the first leads into the feed water tank and the second leads to the preheater 25, and finally one Line 61 branching off from line 50 and leading to preheater 26.

The controllable shut-off valve 34 of the bypass line 36, as well as the maneuvering valve 6 of the high-pressure turbine part 1 and the maneuvering valves 11 and 30 of the turbine parts 2 and 2 ¹ connected downstream of the reheater are, as indicated by dash-dotted lines, from a common command post 62 with maneuvering lever 63 for Can be operated forwards and backwards. The valve 37 of the bypass line 39 and an organ 64 controlling the boiler combustion as well as the valves 40, 41, 42 controlling the condensate injection into the coolers 31, 35, 38 are also subject to the influence of the command post 62 a speed controller 65 is provided, the adjustment range of which can also be influenced by the command post 62.

The system described can now be operated as follows:

During normal forward travel, the valves 6 and 11 are open, the. Valves 30 and 37, however, closed. At around

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control from forward to reverse, on the other hand, the control valve 6 is closed and at the same time the shut-off valve the bypass line 36 and the condensate injection valve opened in such a way that about the same from the superheater 5 incoming live steam in the line 9 going to the reheater flows as before and moreover through the Condensate injection in the cooler 35 of the steam, which now does not work to the outside, is cooled to approximately the same temperature becomes as before with expansion in the high pressure turbine part 1. In this way it is achieved that the reheater 10 with the same amount of steam at the same temperature as previously applied.

At the same time as the valve 6, however, the valve 11 in the line 12 leading to the medium-pressure part 2 of the forward turbine is also closed, so that the turbine parts 2 and * no longer receive any steam, but the excess steam is opened in the manner known from stationary steam turbine systems of the valve 37 is drained through the line 39 directly into the condenser 15, the opening of the valve 37 being appropriately coordinated with the closing of the valve 11 so that the pressure in the reheater 10 is kept at practically unchanged levels or possibly in a predetermined puncture Time is slowly falling. By injecting condensate into the coolant 38

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Steam flowing through opening deo valve 42 can be prevented that the steam at an impermissibly high temperature flows from the line 39 into the condenser 15.

For the reverse travel, the valve 30 is now opened, which allows steam coming from the reheater 10 to reach part 2 ¹ and the adjoining part 3 ^{1 of} the reverse turbine via the line 32. The valve 37 can then be closed again in association with the opening of the valve 30. By injecting condensate through the valve 40 into the ^{steam flowing to the turbine part 2 1} , the temperature of the steam can be increased to that prevailing in the housing of the reverse turbine part 2 * at the start of the reversal

Temperature can be adjusted.

Should the propeller be used for some time during the maneuver stand still or have no drive at all, they remain

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Valve © 6 »11 and 30 closed, and that generated in boiler 4 Steam flows through lines 36 and 39 with no work output to the capacitor 15. For a longer duration of this state or even with slow travel forwards or backwards for a longer period of time, the firing of the boiler and the power requirement can be reduced be adjusted. Kit gradually decreasing steam generation can then also reduce the pressure in the reheater system be reduced, e.g. by automatic devices, not shown, which are connected to the firing of the

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Boilers are related, but it is useful a certain minimum pressure, e.g. of 1 atm, should not be fallen below in the reheater 10. Possibly the live steam pressure can also be used for longer periods of operation Partial load can be reduced, whereby the power requirement of the Feed pump 23 decreased. Automatic devices can be provided which can be used when reversing or when "slow forward travel, the feed pump 23 driving auxiliary turbine 22, which otherwise its drive steam from a Intermediate stage dee turbine part 2 receives, via the line directly to the line network of the reheater system connect.

In the case of a rapid change of direction from forward to reverse travel, the first moment changes due to the storage capacity of the reheater 10, the pressure in the reheater system practically not. It is therefore necessary that the valves 6 and 11 are closed simultaneously and quickly, for which a compound control of the stationary Systems known per se type can be used.

Since it can happen in heavy seas that the Propeller partially or completely submerged out of the water, the speed controller 65 is expedient in a known manner as To train fast governor, which in the event of excessive intervenes quickly before the quick release device

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the plant is shut down. In the case of the system with reheating, this rapid regulator should act simultaneously on the inlet valves 6 and 11 of the high-pressure turbine part 1 and medium-pressure turbine part 2 as well as the valves 34 and 37 of the bypass lines 36 and 39, with the advantage of the speed regulator having an organ that responds to rotational acceleration should work together.

In addition to the task of supplying the reheater 10 with steam even during reversal processes and thus overheating To avoid the heating pipes in the reheater 10, the bypass line 36 also fulfills the task of the steam inflow to secure the auxiliary machines connected to the line 47 and to the auxiliary turbine 22.

The steam generator 4 can be a natural circulation boiler or a steam boiler with circulating pumps or also a once-through boiler with subcritical or supercritical pressure .

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Claims (7)

- 12 claims 1. Steam turbine plant operating with high pressure and reheating of the working steam with reverse turbine for ship propulsion, characterized in that the reverse turbine (2 ¹ , 3 ') is connected as a whole downstream of the reheater (10) and parallel to the high pressure part (l ) the forward turbine has a bypass line (36) provided with a controllable shut-off valve (34) and a cooling device (35), through which the live steam can be conducted into the supply line (9) to the reheater (10) without output of work to the outside. 2. Steam turbine plant according to claim 1, characterized in that the controllable shut-off valve (34) like the maneuvering valves (6, 11) for the high pressure part (1) of the forward turbine and for those downstream of the reheater (10) Turbine parts (2, 3) can be operated from a common command post (62). 3. Steam turbine plant according to claim 1, characterized in that the bypass line (36) with a device (41) is provided for injecting condensate into the expanded steam flowing through the bypass line (36). 4 · Steam turbine plant according to claim 1, characterized in that 909884/0625 that the steam supply line (32) to the reverse turbine (2 ', 3 ¹ ) is provided with a device (40) for injecting condensate into the steam to be supplied to ^{the reverse turbine (2 1} , 3 ^1). 5. Steam turbine plant according to claim 1, characterized in that at least one auxiliary turbine (22) to the reheater (10) leading steam line (9) can be connected. 6. Steam turbine plant according to claim 1, characterized in that that at least the boiler feed pump (23) driving auxiliary turbine (22) is acted upon with steam, which one the intermediate superheating stage (2) of the Forward turbine is removed. 7. Steam turbine plant according to claim 6, characterized in that that at least the auxiliary turbine (22) driving the boiler feed pump (23) can optionally also be acted upon by steam which is taken from the steam line (9) leading to the reheater (10). BAD OBiG * N ^AL 909884/0625 ^B L e r p a le