DE1946329A1 - Closed loop gas turbine plant - Google Patents

Description

PATENT LAWYERS ■ _ .. ·, .- ..

DIPL-ING. CURT WALLACH _s ... 1946329 DIPL-ING. GÜNTHER KOCH DR. TINO HAIBACH

8 Munich 2, September 12, 1969

SIGN: I225I - K / vM Rolls-Royce Limited, Derby, Derbyshire, England .. - · - <- ■

Closed circuit gas turbine plant

The invention relates to a gas turbine system with a closed Cycle and especially one in which the work equipment is heated directly or indirectly by a nuclear reactor.

According to the invention, the gas turbine system is equipped with a closed cycle compressor and means which receive the fluid from the compressor and heat it, wherein a turbine receives the working fluid heated by the heating device and is driven thereby , and wherein means are provided to the temperature of the working fluid adjust that enters the compressor and / or flows through the compressor, whereby the power output of the power plant can be adjusted.

According to a preferred embodiment of the invention, there is Heating device from a nuclear reactor. . .

The compressor preferably has one behind the other in the direction of flow a low pressure compressor and a high pressure compressor.

The means for classifying the temperature of the working fluid have preferably a heat exchanger that runs in the direction of flow connected in series with the inlet of the low-pressure compressor is, wherein in this heat exchanger the working medium is in a heat exchange relationship with a further fluid and means

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are provided to adjust the temperature of the other fluid. It can also be a. further he warm house tau ^ ;. v _& ; ^ be provided, which is connected between, the outlet of the .Low.grdr.u ^ kkQmpre ^ jj ^ ₁ -sors and the inlet of the high pressure compressp, rs _; is ^^ -.. W, Br--, Ϊ .- -..- at the working fluid in heat exchange relationship with, and he, s ..,,,, fluid s, TEHT. . ,, ... , .-, ..., - .. ■, -. * ■ "- ■ -»

The means for adjusting the temperature .. of the other flow -, ^ ... means can come from a pump with. variable delivery rate; .......,., v, by which the speed is changed ,, mlt _K , .. = .. ■, ".", ..- which the other fluid by the first-mentioned .warming ^ -w exchangers and, if available, through the. further. -Heat from % sm- ^ _{P (} .: Shear flows. ..;.... ,. ■, -, - - ^ r ^,: -> -.-. "-.-» ■ -.

Instead, and preferably, the means for _r grading _ir ... the temperature of the other fluid consist of another ... one white. -. direct heat exchanger bildet- a closed Kre ^ §lauf -with the _ä ^ first mentioned heat exchanger and, if present; ,, also .., with the further heat exchanger, wherein a pump constant speed, and the other fluid in the closed circuit revolve lets and. the other fluid being in heat exchange relation. _; ;> hung with a third fluid, in the further .Wärmeaus? · \; Exchanger is up and the third fluid part is conveyed by the eleventh pump at a variable speed, which means that the flow rate of this fluid can be influenced. · .:. ,.; -

The other fluid can be water, and likewise the third fluid can be water. · .....- _v ^ -, - *. ν i ^^ ^ ^f - "■ - ,: ■■" .-

An embodiment of the. Invention; described using the drawing. The only Pieur ^ der: Drawing ^^ eigt ■;> _f / -Zt: -l a block diagram of a ^ according to the invention ^: ajisgebliüiäefeen: nenanlage ..- /. ·.;. - "- :. ■ _: · ■ = /.- - -.. .- ;,: .- ■ -:. ^..::: r- bns> £ ■ * VS--. · -.

(TQ t8 3? 4 ^ 12 f 31 - ü - "■ BAD ORIGINAL

The gas turbine system 10 shown in the drawing uses helium as a working medium and orders in the direction of flow one after the other from a pre-cooler 12 in which the helium is in a heat exchange relationship with water. Then follows an axial flow low pressure compressor 14, an intercooler 16, in which the helium in turn is in heat exchange relationship with water stands, and an axial flow high pressure compressor 18. The helium compressed in the compressors 14 and 18 flows over a Recuperator 20, in which it is preheated, as described below, to a nuclear reactor 22, where it is heated. The helium forms the coolant for the reactor 22 and is accordingly heated directly therein. It is clear, however, that the Reactor 22 can also have a separate cooling system in which the coolant is used to heat the helium. That heated helium from reactor 22 then flows to a high pressure axial flow turbine 24 and drives it and this turbine 24 is connected to the compressors via a shaft (not shown) I4, l8 connected.

A control valve assembly 26 in the form of a plurality at the same time actuatable, parallel connected control valves 28 is in a line JO between the outlet of the compressor 18 and the Inlet of the turbine 24 switched, whereby a variable part of the helium compressed in the compressor l4, l8 in the bypass to the Recuperator 20 and the reactor 22 can be switched.

The helium expanded in the turbine * 24 flows through a throttle valve 34 after a useful power axial turbine 32 and drives it at. The power turbine 32 is drivingly with a Load, e.g. coupled to an alternator (not shown). A control valve 36, a throttle or constriction 37 and a heat sink 37a are one behind the other in the flow direction in a channel 38 between the outlet of the turbine 24 and the outlet the turbine 32 arranged, whereby a variable part of the in the turbine 24, helium expanded by shunting the

009834/1212

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. Throttle valve 34 and the turbine 32 can be passed *

The heat sink 37a can be made of a large mass such as 40 tons of graphite blocks (not shown). Another speed-dependent control valve 36a is parallel to the control valve 36, the throttle valve 37 and the heat sink 37a switched. The flow area of the control valve 36a is roughly approximately equivalent the flow area of the turbine 32.

The outlet of the turbine 32 is connected to the recuperator 20, where the helium that has exited turbine 32 is in heat exchange relationship with the helium that passes through the compressors 14, 18 was compressed and this is preheated and thereby cooled itself, the cooled helium then being fed to the inlet of the precooler 12 is fed.

The control valve 26 responds to the speed of the turbine 24 two variable speed governors 39. Two regulators are provided for safety reasons. The control valve also speaks to the Speed of the turbine 32 and the load on the turbine 32 Means not shown, however, an overtaking control is exercised by the controller 39.

The thermal characteristics of reactor 22 are such that its outlet temperature *, once set to its normal operating value, cannot be easily and quickly changed. During start-up of the plant 10 and at all speeds below normal operating speed, there is therefore a tendency for the helium which reaches the turbine 24 to be too hot and this in turn harbors the risk of the turbine being overspeed. Thus, in practice, the setting of the controller 39 is progressively increased during the start-up of the system 10 by means not shown. Respectively when the set speed is reached,! "Starts, the control valve 26 with the opening so that a variable amount of relatively cool helium let directly from Aue of the compressor 18 to the inlet of the turbine 24 can pass. The temperature

BAD ORlGiNAu

■, 's 1946323

at the inlet of the turbine 24 is thus set to a value ,, which is compatible with the relevant set speed and ■ '■ the speed of the series stabilizes after at any set speed;' to-the normal operating speed is reached. After "once the normal operating speed has been reached; the regulators 39 are set in such a way that they act as a peak speed limiter via the control valves, 26. *" .-.,

The total power output of the turbine system 10 becomes accordingly set by the action of the controller 39 on the control valve device 3β. ■ '■ ·

The throttle valve 34 and the control valve 36 have a common Control your device 40 based on the speed of the turbine. 32 over a speed sensor 42 responds * - During the start-up of the gas turbine system 10, the control valve 36a is fully opened while the throttle valve 34 is also fully opened and the control valve 36 is closed by the control device 40 »© er, The flow path through the control valve 36a is reduced in this,. · Operating condition considerably the back pressure of the turbine, 24 * so 4ass the start-up of the turbine is facilitated, although it is slower Start of the turbine 32 is enabled »If the speed of the Turbine 32 starts to reach a first predetermined value the control valve 36a closes and the turbine starts up 352 accelerates to its normal working speed. At this speed the valve 36a is fully closed «

Thereafter, if the speed of the turbine 32 exceeds , for example, the maximum speed by more than IQJi: if, for example, the load on the turbine is suddenly reduced, the throttle valve 34 is closed instantly and the control valve 36 is opened at the same time instantaneously by the control device (in an eXnem period of time νοίϊΑ töQ milliseconds ^ i so one of the turbines yss. is prevented / indeiri 'the helium of'

24 in the weaving cjiluii to the turbine 32 uiiä 4üre: h ^rf da0 ^& Drbssei> -

37 ^ and n ^ en dejp W ^ & ^ _: <; ,. -:

The throttle point 37 mad the heat sink ^^ a, ^ 0 ^ | φ

the same pressure and temperature drop .

Medium,: as. They generated by the, turbine 32- WUEden ^^ and ;. so ^ we.d,; - guaranteed, that the effect of the shunt it r the .- ^ to the remaining stages of the circle we reduced the control valve 36a of the control device 40 can also be continuously Settings according to small changes *. In the speed; 32 effect. : Duroh ^ suitable ■ e: ■ Jl ^ .bwandlung: .4ep and; the control valve -36 can erEeiöht ^ erd ^ n ^, daii .. # as 36 die: functions of the control valve 3 ^ a addi <^, to-the; Performs punctures and so the control valve 36a ^ egfaiLlxen ·.

Relatively pure water is supplied to the pre-cooler 12 and the intermediate cooler 16 from the outlet of a JP \ x®p & 5 & -, - X λ ■ / - running at a variable speed. The pre-cooler 12 and the intermediate cooler 16 iVierlsasjS ^ n «· de water ¹ returns near the inlet of the pump §0 via the corresponding coolers 52 and ^ , in which it is exchanged for heat, for example with sea water or plus water * stands·. That. See * voider flows through the outer cooler 52 , 5% wuX this flow another? Not shown pump with variable speed

The; power output of the power plant IP ) mm. The temperature of the pre-cooler 12 and the Z ^ isehenMüiler send Kelium can be finely adjusted. % m ä & r f ^ axis speed of the pump 50 and accordingly the Str ^ m ^ gsgeschwindigkieit .des irelatively pure Viasser in wepgntiLiüöheii ^ öjnstÄnt _; go: ilLifceij Ä the speed of the weiierefi pump is changed ap; geiaidir * ($ £ pd ,, which also purifies the temperature ^ of the ^ ela ^ iV. If it is ¹ ^ ed & ch "e> wü ^ fch% ⁵ ^ y ^ ^l iletion # mch the ^

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BATH ORIGINAL

Claims (1)

; "/"'_#.; P. ate η ta η s ρ r ü che: 1 ,) Gas turbine system rait closed circuit with a compressor and means to which the working medium compressed by the compressor is supplied and which heat this working medium, the heated working medium being supplied to a turbine and driving it, characterized, that means (12,16,50,52,54) are provided for the temperature of the working medium which enters the compressor 14,18) or flows through it, to be set in such a way that the power output of the power plant (10) is thereby controlled can be. 2. Plant according to claim 1, characterized in that the heating device (22) is formed by a nuclear reactor. J>. System according to claims 1 or 2,
characterized in that the compressor (l4, l8) has a low-pressure compressor (l4) and a high-pressure compressor (l8) one behind the other in the direction of flow. 4. Plant according to claim 3, characterized in that the means (12,16,50,52,54) for adjusting the temperature of the mut Arbeltsmittels preferably consist of a heat exchanger (12) which is connected in succession in the flow direction with the inlet of low pressure compressor (l4), whereby in this heat exchanger, the working fluid is in heat exchange relationship with another fluid and the means (50,52,5 ^) control the temperature of this other fluid. 009834/1212 System according to claim 4,
thereby geke η η ζ calibrated η et that the means for adjusting the temperature of the working fluid additionally comprise a further heat exchanger (16) which is connected between the outlet of the low pressure compressor (14) and the inlet of the high pressure compressor (18), whereby the working fluid in the heat exchanger is in heat exchange relationship with the other fluid. System according to claims 4 or 5 »
characterized in that the means (50,52,54) for adjusting the temperature of the other fluid consist of a variable speed pump (50) by means of which the flow rate can be changed at which the other fluid passes through the first-mentioned heat exchanger ( 12) passes through. System according to claims 4 or 5 »
characterized in that the means (50,52 54 ₂₎ for adjusting the temperature of the other fluid (52,54) are made to the still another heat exchanger ö.l "k *? closed circuit with the first-mentioned heat exchanger (12 y ■ ".." " ³ ^ -, and oass a constant speed pump (50) circulates the other fluid in the closed circuit, the other fluid in heat exchange relationship with a third fluid in the further heat exchanger (52, 54), a further pump that can be driven at a variable speed changes the flow rate of the third fluid . 009834/1212 BATH ORIGINAL