The use of laser ignition for advanced gas engines may provide benefits including extension of the lean limit and higher efficiency operation at elevated pressures. This contribution provides a short review of efforts to develop a practical laser ignition system for advanced multicylinder gas engines. The approach is to use a single laser source with fiber optic cables delivering the high power pulses from the source to the engine cylinders. The optical requirements for the fiber delivery lead us to use coated hollow core optical fibers. Characterizations and results of spark delivery tests for the fibers are presented. Single-cylinder engine test results using fiber delivered laser ignition are summarized. For multicylinder operation, a multiplexer based on a moving mirror is used to route the laser output pulses to different fiber channels (cylinders). Benchtop testing and initial engine testing of the multiplexed system are presented.

1.
Dale
,
J. D.
,
Smy
,
P. R.
, and
Clements
,
R. M.
, 1979, “
Laser Ignited Internal Combustion Engine—An Experimental Study
,” Society of Automotive Engineers, SAE Paper No. 780329.
2.
Kopecek
,
H.
,
Maier
,
H.
,
Regider
,
G.
,
Winter
,
F.
, and
Wintner
,
E.
, 2003, “
Laser Ignition of Methane-Air Mixtures at High Pressure
,”
Exp. Therm. Fluid Sci.
0894-1777,
27
, pp.
499
503
.
3.
Bradley
,
D.
,
Sheppard
,
C. G. W.
,
Suardjaja
,
I. M.
, and
Woolley
,
R.
, 2004, “
Fundamentals of High-Energy Spark Ignition With Lasers
,”
Combust. Flame
0010-2180,
138
, pp.
55
77
.
4.
McMillian
,
M. H.
,
Woodruff
,
S. D.
,
Richardson
,
S. W.
, and
McIntyre
,
D. L.
, 2004, “
Laser Spark Ignition: Laser Development and Engine Testing
,”
Proceedings of ICEF2004, ASME Internal Combustion Engine Division 2004 Fall Technical Conference
, Paper No. ICEF 2004-917.
5.
Yalin
,
A. P.
,
Defoort
,
M. W.
,
Joshi
,
S.
,
Olsen
,
D.
,
Willson
,
B.
,
Matsuura
,
Y.
, and
Miyagi
,
M.
, 2005, “
Laser Ignition of Natural Gas Engines Using Fiber Delivery
,”
Proceedings of ICEF 2005, ASME Internal Combustion Engine Division 2005 Fall Technical Conference
, Paper No. ICEF 2005-1336.
6.
Kofler
,
H.
,
Tauer
,
J.
,
Tartar
,
G.
,
Iskra
,
K.
,
Klausner
,
J.
,
Herdin
,
G.
, and
Wintner
,
E.
, 2007, “
An Innovative Solid-State Laser for Engine Ignition
,”
Laser Phys. Lett.
1612-2011,
4
, pp.
322
327
.
7.
Yalin
,
A. P.
,
Defoort
,
M.
,
Willson
,
B.
,
Matsura
,
Y.
, and
Miyagi
,
M.
, 2005, “
Use of Hollow Core Fibers to Deliver Nano-Second Nd:YAG Laser Pulses for Spark Formation
,”
Opt. Lett.
0146-9592,
30
, pp.
2083
2085
.
8.
Joshi
,
S.
,
Yalin
,
A. P.
, and
Galvanauskas
,
A.
, 2007, “
Use of Hollow Core Fibers, Fiber Lasers, and Photonic Crystal Fibers for Spark Delivery and Laser Ignition in Gases
,”
Appl. Opt.
0003-6935,
46
(
19
), pp.
4057
4064
.
9.
Matsuura
,
Y.
,
Hanamoto
,
K.
,
Sato
,
S.
, and
Miyagi
,
M.
, 1998, “
Hollow-Fiber Delivery of High-Power Pulsed Nd:YAG Laser Light
,”
Opt. Lett.
0146-9592,
23
(
23
), pp.
1858
1860
.
10.
Phuoc
,
T. X.
, 2000, “
Laser Spark Ignition: Experimental Determination of Laser-Induced Breakdown Thresholds of Combustion Gases
,”
Opt. Commun.
0030-4018,
175
, pp.
419
423
.
11.
Joshi
,
S.
,
Reynolds
,
A.
, and
Yalin
,
A. P.
, 2007, “
Multiplexed Fiber Delivered Laser Ignition of Natural Gas Engines
,”
Proceedings of ICEF 2007, ASME Internal Combustion Engine Division 2007 Fall Technical Conference
, Paper No. ICEF 2007-1617.
12.
El-Rabii
,
H.
, and
Gaborel
,
G.
, 2007, “
Laser Ignition of Flammable Mixtures via a Solid Core Optical Fiber
,”
Appl. Phys. B: Lasers Opt.
0946-2171,
87
, pp.
139
144
.
13.
Dumitrescu
,
C.
,
Puzinauskas
,
P.
,
Olcmen
,
S.
,
Buckley
,
S. G.
,
Joshi
,
S.
, and
Yalin
,
A.
, 2007, “
Fiber-Optic Spark Delivery for Gas-Phase Laser-Induced Breakdown Spectroscopy
,”
Appl. Spectrosc.
0003-7028,
61
(
12
),
1338
1343
.
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