In this study, a combustion facility was constructed that includes a flexible fuel supply system to produce synthesis gas using a maximum of three components. The rig with lean premixed burner is able to operate at up to five bars. The length of the inlet plenum and the outlet boundary conditions of the combustion chamber are adjustable. Experiments were carried out under a broad range of conditions, with variations in fuel components including hydrogen, methane and carbon monoxide, equivalence ratios, thermal power and boundary conditions. The dynamic processes of self-excited combustion instabilities with variable fuel components were measured. The mechanisms of coupling between the system acoustic waves and unsteady heat release were investigated. The results show that instability modes and flame characteristics were significantly different with variations in fuel components. In addition, the results are expected to provide useful information for the design and operation of stable syngas combustion systems.

References

1.
Richards
,
G.
,
McMillian
,
M.
,
Gemmen
,
R.
,
Rogers
,
W.
, and
Cully
,
S.
, 2001, “
Issues for Low-Emission, Fuel-Flexible Power Systems
,”
Prog. Energy Combust. Sci.
,
27
(
2
), pp.
141
169
.
2.
Lieuwen
,
T.
, and
Yang
,
V.
, eds., 2005,
Combustion Instabilities in Gas Turbine, Vol. 210
,
AIAA
,
Washington, DC
.
3.
Langhorne
,
P.
, 1988, “
Reheat Buzzan Acoustically Coupled Combustion Instability. Part 1. Experiment
,”
J. Fluid Mech.
,
193
, pp.
417
443
.
4.
Bloxsidge
,
G.
,
Dowling
,
A.
, and
Langhorne
,
P.
, 1988, “
Reheat Buzzan Acoustically Coupled Combustion Instability. Part 2. Theory
,”
J. Fluid Mech.
,
193
, pp.
445
473
.
5.
Schildmacher
,
K.
,
Koch
,
R.
, and
Bauer
,
H.
, 2006, “
Experimental Characterization of Premixed Flame Instabilities of a Model Gas Turbine Burner
,”
Flow, Turbul. Combust.
,
76
, pp.
177
197
.
6.
Durox
,
D.
,
Schuller
,
T.
,
Noiray
,
N.
, and
Candel
,
S.
, 2009, “
Experimental Analysis of Nonlinear Flame Transfer Functions for Different Flame Geometries
,”
Proc. Combust. Inst.
,
32
, pp.
1391
1398
.
7.
Hield
,
P.
,
Brear
,
M.
, and
Jin
,
S.
, 2009, “
Thermoacoustic Limit Cycles in a Premixed Laboratory Combustor with Open and Choked Exits
,”
Combust. Flame
,
156
, pp.
1683
1697
.
8.
Kim
,
K.
,
Lee
,
J.
, and
Quay
,
B. D.
, and
Santavicca
,
D.
, 2010, “
Experimental Investigation of the Nonlinear Response of Swirl Stabilized Flames to Equivalence Ratio Oscillations
,” ASME Paper No. GT2010–23023.
9.
Lieuwen
,
T.
,
Yang
,
V.
, and
Yetter
,
R.
, eds., 2010,
Synthesis Gas Combustion Fundamentals and Applications
,
CRC
,
London
.
10.
Zhang
,
Q.
,
Noble
,
D.
,
Meyers
,
A.
,
Xu
,
K.
, and
Lieuwen
,
T.
, 2005, “
Characterization of Fuel Composition Effects in H2/CO/CH4 Mixtures Upon Lean Blowout
,” ASME Paper No. GT2005–68907.
11.
Noble
,
D.
,
Zhang
,
Q.
,
Shareef
,
A.
,
Tootle
,
J.
,
Meyers
,
A.
, and
Lieuwen
,
T.
, 2006, “
Syngas Mixture Composition Effects Upon Flashback and Blowout
,” ASME Paper No. GT2006–90470.
12.
Lee
,
M.
,
Seo
,
S.
,
Chung
,
J.
,
Kim
,
S.
,
Joo
,
Y.
, and
Ahn
,
D.
, 2010, “
Gas Turbine Combustion Performance Test of Hydrogen and Carbon Monoxide Synthetic Gas
,”
Fuel
,
89
, pp.
1485
1491
.
13.
Daniele
,
S.
,
Jansohn
,
P.
, and
Boulouchos
,
K.
, 2009, “
Flame Front Characteristic and Turbulent Flame Speed of Lean Premixed Syngas Combustion at Gas Turbine Relevant Conditions
,” ASME Paper No. GT2009–59477.
14.
Boschek
,
E.
,
Griebel
,
P.
, and
Jansohn
,
P.
, 2007, “
Fuel Variability Effects on Turbulent Lean Premixed Flames at High Pressures
,” ASME Paper No. GT2007–27496.
15.
Richards
,
G.
,
Straub
,
D.
,
Ferguson
,
D.
, and
Robey
,
E.
, 2007, “
LNG Interchangeability/Gas Quality: Results of the National Energy Technology Laboratory’s Research for the FERC on Natural Gas Quality and Interchangeability
,” DOE/NETL Report No. 2007/1290, pp.
115
191
.
16.
Juste
,
G.
, 2006, “
Hydrogen Injection as Additional Fuel in Gas Turbine Combustor. Evaluation of Effects
,”
Int. J. Hydrogen Energy
,
31
, pp.
2112
2121
.
17.
Barbosa
,
S.
,
de la Cruz Garcia
,
M.
,
Ducruix
,
S.
,
Labegorre
,
B.
, and
Lacas
,
F.
, 2007, “
Control of Combustion Instabilities by Local Injection of Hydrogen
,”
Proc. Combust. Inst.
,
31
, pp.
3207
3214
.
18.
Altay
,
H.
,
Hudgins
,
D.
,
Speth
,
R.
,
Annaswamy
,
A.
, and
Ghoniem
,
A.
, 2010, “
Mitigation of Thermoacoustic Instability Utilizing Steady Air Injection Near the Flame Anchoring Zone
,”
Combust. Flame
,
157
, pp.
686
700
.
19.
Schefer
,
R.
,
White
,
C.
, and
Keller
,
J.
, 2008, “
Chapter 8: Lean Hydrogen Combustion
,”
Lean Combustion Techology and Control
,
D.
Dunn-Rankin
, ed.,
Academic Press
,
London
, pp.
213
254
.
20.
Bouvet
,
N.
,
Gökalp
,
I.
,
Lee
,
S.
, and
Santoro
,
R.
, 2007, “
Laminar Flame Speed Study of Syngas Mixture (H2-CO) With Straight and Nozzle Burners
,” 43rd AIAA/ASME/SAE/ASEE Joint Propulsion Conference & Exhibt, Paper No. AIAA 2007–5659.
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