servovalve turbine GE 3002

Je cherche à déterminer la fonction de transfert du servovalve de la Vanne Contrôle Gaz (GCV) qui contrôle le débit de gaz vers les chambres à combustion. Ce servovalve entraine un vérin hydraulique qui actionne la GCV. le signal de retour est récupérer par des LVDT (transducteur à déplacement linéaire variable). 0% de course --> 0 Vac (Vanne complètement fermée)
100% de course --> 5 Vac (Vanne complètement ouverte).

Je n'arrive pas a identifier la plage du signal qui attaque le servovalve a l'entrée. Serait-il le retour des LVDT ( 0 - 5 V).
No problem, I'm glad you liked it. Have a good read and ask any questions later. I have worked on MKV from it's very beginning to it's end as a GE Field Engineer
I found the attached document among some old documents, it is for MS3002 and, I think, was originally written for MKII Speedtronic but the control principle is still the same. Two shaft control is a little difficult especially the 2nd. Stg Nozzle control as everything is very interactive, Load control from the LP turbine and Speed control from thr HP.
Again have a read and see if you have any question. Many 3002 machines in the past from Siberian gas pipeline and Sonatrach, Algeria.


Merci pour le deuxième document.
J'ai réalisé une interface graphique a l'aide de la plate-forme Simulink de Matlab pour modéliser et simuler les boucles de contrôle du système combustible. Pour la vanne SRV, on a 2 boucles en cascade. La boucle de pression P2 en série avec celle de la position de la vanne. Pour la vanne GCV, on a seulement la boucle de position. Il me reste quelques données pour finaliser ce travail.
Je vous joins un aperçu.


It's a good idea to make a plan for items of Flow diagrams so you can understand better. Flow diagram understanding is the biggest help in trouble shooting for all disciplins ( Operations, Maintenance, etc). Study the drawings, identify the components and watch the systems in good operation to help identify problems.
Servo drive systems can be a big item of problems, servo valves do fail so keep a stock of good spares ( Be careful, all servos look the same but they are not, they are different flow rates. Look at the P-number at the end of the part No.)
Increased Servo failures can be caused by poor lubricating oil quality, check you Lube Oil regularly and make any adjustments to recover good oil quality. Servo valve clearances are very small, only in microns, so the servo valve can act like a filter. Check servo operation when you have downtime at least for steady, acurate stroke, it can save you unplanned downtime. Remember, to replace a servo,you need to get the Lube/Hydraulic Oil off, so, on a Hot machine, you can need a whole shift to get the servo replaced (Operations Managers don't like this !!)
Wow! These came from a GE internal SupportCentral site which was taken down more than 10 years ago. This is a blast from the past.

They are as relevant today as they were ten years ago. Thanks for sharing, HamsterKing!
How to determine the gas flow feeding the combustion chambers knowing the pressure and FSR values. In the MarkVI documentation, GE gives the following relationship for gaseous fuel. Flow = pressure X FSR; it is the pressure P2 which is regulated by the speed NHP or P3 downstream of GCV. What would be the unit of flow?



P2 pressure is a function of HP speed:

P2 Pressure Reference=(TNH*FPKGNG)+FPKGNO

FPRG = Fuel Pressure (P2 Pressure) Reference-Gas, in psig
TNH = HP speed, in percent of rated
FPKGNG = P2 Pressure Reference (Gain), in psig per percent speed
FPKGNO = P2 Pressure Reference (Offset), in psig

This is all explained in the Control Specification (System Settings) document provided with each Mark* turbine control system, and can be seen by looking at the logic/sequencing/application code running in the Mark* being used for the turbine control. It has also been explained MANY times before on, and can be found using the 'Search' feature at the top of every webpage.

GE doesn't usually monitor gas fuel flow-rate; it's usually only done for developing a water- or steam-injection flow-rate reference, and it's ONLY for monitoring--it's almost NEVER used for control purposes. There is no air/fuel or fuel/air monitoring in most GE-design heavy duty gas turbines (though I think that's changing as I write with the newer HA models).

GE has provided a metering tube and orifice on many GE-design heavy duty gas turbines for monitoring gas fuel flow-rates--and MANY people think it is a revenue-quality metering system. IT IS NOT. It is for indication and monitoring only--except when it's used for developing water/steam-injection flow-rate references.

Finally in the Control Specification document there are some tables. in Sect. 05.02.nn, I believe, which give TYPICAL fuel flow-rates at various operating conditions (firing; full speed; 25% load; 50% load; 75% load; 100% load)--but, again, these are just typical values and the actual fuel flow rates are NOT compared to these in the control scheme.

It would appear you are modeling an MS-3002 machine for some purpose (training?). Best of luck in your endeavour.
Strangely GE Speedtronic control systems, all the way back to MKI Speedtronic, don't measure flow in their Fuel Gas control systems. The flow control is done by:-
1) Maintaining P2 pressure by modulating the SRV, this value is set by a Fuel Gas analysis at the time of specifying the machine, a good spec. should give SRV stroke at around 80% at 100% ISO load.
2) Modulating GCV to maintain demanded load.
So, when more or less load is required, GCV modulates and, of course P2 pressure changes so SRV modulates to maintain P2 pressure.
It's a pretty unusual way to control the flow of fuel compared to Basic Instrumention Flow Control which usually has a Flow Meter but it works very well and is very accurate.
I've never seen your GE formula Flow = pressure X FSR before , for sure the GCV metering valve has a shaped flow plug which will regulate a flow at constant P2 pressure (Again set by a Fuel Gas analysis) so the GCV doesn't run out of stroke over the load range. To get a unit of flow you would need to see the GCV Spec. to get Flow vs Inlet Pressure vs FSR (Go look in your 20+ volumes of manuals, nice job !)
Normally, if you want a recordable flow, you can install a reasonably cheap Flow Meter at the SRV inlet which will give you something to look at. If you want something for accountable purposes, Fuel Payments, Environmental Analysis, etc you will need to get a Certified and calibrated Flow Meter which will cost a lot more.
Have a go at using the formula and see what you get, let me know the answer, I'm intested.
I did work on one job where they got a second, totally different Fuel Gas. and the system couldn't handle it. They had to do some fancy engineering to make it work. So, keep a good check on your fuel gas analysis, if it changes things can change.

A very good question. Good Luck and keep in touch.

Cheers for now

CSA, you got in before me, while I was writing. Now you have 2 answers Guerini