Combustion-zone stoichiometry and fuel-air premixing were actively controlled to optimize the combustor performance over a range of operating conditions. The objective was to maximize the combustion temperature, while maintaining NOx within a specified limit. The combustion system consisted of a premixer located coaxially near the inlet of a water-cooled shroud. The equivalence ratio was controlled by a variable-speed suction fan located downstream. The split between the premixing air and diffusion air was governed by the distance between the premixer and shroud. The combustor performance was characterized by a cost function evaluated from time-averaged measurements of NOx and oxygen concentrations in products. The cost function was minimized by the downhill simplex algorithm employing closed-loop feedback. Experiments were conducted at different fuel flow rates to demonstrate that the controller optimized the performance without prior knowledge of the combustor behavior.

Issue Section:
Gas Turbines: Combustion and Fuels
Topics:
Combustion, Combustion chambers, Fuels, Nitrogen oxides, Algorithms, Combustion systems, Control equipment, Diffusion (Physics), Feedback, Flow (Dynamics), Oxygen, Stoichiometry, Suction, Temperature, Water
1.
Brouwer, J., Ault, B. A., Bobrow, J. E., and Samuelsen, G. S., 1990, “Active Control for Gas Turbine Combustors,” Proceedings, Twenty-third Symposium (International) on Combustion, The Combustion Institute, Pittsburgh, PA, pp. 1087–1092.
2.
Davis, N. T., and Samuelsen, G. S., 1996, “Optimization of Gas Turbine Combustor Performance Throughout the Duty Cycle,” Proceedings, Twenty-sixth Symposium (International) on Combustion, The Combustion Institute, Pittsburgh, PA, pp. 2819–2825.
3.
Kolluri
P.
,
Kamal
A.
, and
Gollahalli
S. R.
,
1996
, “
Application of Noncircular Primary-Air Inlet Geometries in the Inshot Burners of Residential Gas Furnaces
,”
ASME Journal of Energy Resources Technology
, Vol.
118
, pp.
58
64
.
4.
Maughan
J. R.
,
Elward
K. M.
,
DePietro
S. M.
, and
Bautista
P. J.
,
1997
, “
Field Test Results of a Dry Low NOx Combustion System for the MS3002J Regenerative Gas Turbine
,”
ASME JOURNAL OF ENGINEERING FOR GAS TURBINES AND POWER
, Vol.
119
, pp.
50
57
.
5.
McManus
K. R.
,
Poinsot
T.
, and
Candel
S. M.
,
1993
, “
A Review of Active Control of Combustion Instabilities
,”
Progress in Energy and Combustion Science
, Vol.
19
, pp.
1
29
.
6.
Nelder
J. A.
, and
Mead
R.
,
1965
, “
A Simplex Method for Function Minimization
,”
The Computer Journal
, Vol.
7
, pp.
308
313
.
7.
Neumeier, Y., and Zinn, B. T., 1996, “Experimental Demonstration of Active Control of Combustion Instabilities Using Real-Time Modes Observation and Secondary Fuel Injection,” Proceedings, Twenty-sixth Symposium (International) on Combustion, The Combustion Institute, Pittsburgh, PA, pp. 2811–2818.
8.
Padmanabhan
K. T.
,
Bowman
C. T.
, and
Powell
J. D.
,
1995
, “
An Adaptive Optimal Combustion Control Strategy
,”
Combustion and Flame
, Vol.
100
, pp.
101
110
.
9.
Press, H. W., Saul, A. T., Vetterling, W. T., and Flannery, B. P., 1992,Numerical Recipes in C, The Art of Scientific Computing, Cambridge University Press, Cambridge.
10.
Puri
R.
,
Stansei
D. M.
,
Smith
D. A.
, and
Razdan
M. K.
,
1997
, “
Dry Ultralow NOx Green Thumb Combustor for Allison’s 501-K Series Industrial Engines
,”
ASME JOURNAL OF ENGINEERING FOR GAS TURBINES AND POWER
, Vol.
119
, pp.
93
101
.
11.
Yamada
H.
,
Shimodaira
K.
, and
Hayashi
S.
,
1997
,“
On-Engine Evaluation of Emissions Characteristics of a Variable Geometry Lean-Premixed Combustor
,”
ASME JOURNAL OF ENGINEERING FOR GAS TURBINES AND POWER
, Vol.
119
, pp.
66
69
.
12.
Wilson
K. J.
,
Gutmark
E.
,
Schadow
K. C.
, and
Smith
R. A.
,
1995
, “
Feedback Control of a Dump Combustor with Fuel Modulation
,”
AAIA JOURNAL OF PROPULSION AND POWER
, Vol.
11
, pp.
268
274
.
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