The techniques of design of experiments were applied to study the best operational conditions for oxygen-enriched combustion in a single-cylinder direct-injection diesel engine in order to reduce particulate matter (PM) emissions, with minimal deterioration in nitrogen oxide (NOx) emissions, by controlling fuel injection timing, carbon dioxide (CO2) and O2 volume fractions in intake air. The results showed that CO2 addition reduced average combustion temperatures and minimized the rate of increase in NOx emissions observed during oxygen-enriched conditions. It was also observed that oxygen enrichment minimized the deterioration in brake-specific fuel consumption and hydrocarbon and PM emissions that occurred at the highest level of CO2 addition.

Issue Section:
Internal Combustion Engines
Keywords:
air pollution control, combustion, design of experiments, diesel engines, fuel systems, oxygen, oxygen enrichment, exhaust gas recirculation, design of experiments, brake-specific fuel consumption, HC, CO, NOx, and PM emissions
Topics:
Carbon dioxide, Combustion, Emissions, Exhaust gas recirculation, Fuels, Nitrogen oxides, Oxygen, Temperature, Brakes, Engines, Stress, Experimental design, Fuel consumption, Diesel
1.
Karim
,
G. A.
, and
Ward
,
G.
, 1968, “
The Examination of the Combustion Processes in a Compression-Ignition Engine by Changing the Partial Pressure of Oxygen in the Intake Charge
,” SAE Technical Paper No. 680767.
2.
Wartinbee
,
W. J.
, Jr., 1971, “
Emissions Study of Oxygen Enriched Air
,” SAE Technical Paper No. 710606.
3.
Ghojel
,
J.
,
Hilliard
,
J. C.
, and
Levendis
,
Y. A.
, 1983, “
Effect of Oxygen Enrichment on the Performance and Emissions of IDI Diesel Engines
,” SAE Technical Paper No. 830245.
4.
Iida
,
N.
,
Suzuki
,
Y.
,
Sato
,
G. T.
, and
Sawada
,
T.
, 1986, “
Effects of Intake Oxygen Concentration on the Characteristics of Particulate Emissions From a D.I. Diesel Engine
,” SAE Technical Paper No. 861233.
5.
Assanis
,
D. N.
,
Baker
,
D.
,
Sekar
,
R. R.
,
Siambekos
,
C. T.
,
Cole
,
R. L.
, and
Marciniak
,
T. J.
, 1990, “
Simulation Studies of Diesel Engine Performance With Oxygen Enriched Air and Water Emulsified Fuels
,” Argonne National Laboratory, Report No. CONF-900102-6.
6.
Watson
,
H. C.
,
Milkins
,
E. E.
, and
Rigby
,
G. R.
, 1990, “
A New Look at Oxygen Enrichment: 1) The Diesel Engine
,” SAE Technical Paper No. 900344.
7.
Sekar
,
R.
,
Marr
,
W. W.
,
Schaus
,
J. E.
,
Cole
,
R. L.
,
Marciniak
,
T. J.
, and
Eustis
,
J. N.
, 1990, “
Cylinder Pressure Analysis of a Diesel Engine Using Oxygen-Enriched Air and Emulsified Fuels
,” SAE Technical Paper No. 901565.
8.
Desai
,
R. R.
,
Gaynor
,
E.
,
Watson
,
H. C.
, and
Rigby
,
G. R.
, 1993, “
Giving Standard Diesel Fuels Premium Performance Using Oxygen-Enriched Air in Diesel Engines
,” SAE Technical Paper No. 932806.
9.
Marr
,
W. W.
,
Sekar
,
R.
,
Cole
,
R. L.
,
Marciniak
,
T. J.
, and
Longman
,
D. E.
, 1993, “
Oxygen-Enriched Diesel Engine Experiments With a Low-Grade Fuel
,” SAE Technical Paper No. 932805.
10.
Sekar
,
R. R.
,
Marr
,
W. W.
,
Schaus
,
J. E.
,
Cole
,
R. L.
, and
Marciniak
,
T. J.
, 1990, “
Diesel Engine Experiments With Oxygen Enrichment, Water Addition and Lower-Grade Fuel
,”
Proceedings of the 25th Intersociety Energy Conversion Engineering Conference
, Vol.
4
.
11.
Sekar
,
R. R.
,
Marr
,
W. W.
,
Cole
,
R. L.
,
Marciniak
,
T. J.
,
Assanis
,
D. N.
, and
Schaus
,
J. E.
, 1990, “
Oxygen-Enriched Diesel Engine Performance: A Comparison of Analytical and Experimental Results
,” Argonne National Laboratory, Report No. CONF-901038-1.
12.
Virk
,
K. S.
,
Kokturk
,
U.
, and
Bartels
,
C. R.
, 1993, “
Effects of Oxygen-Enriched Air on Diesel Engine Exhaust Emissions and Engine Performance
,” SAE Technical Paper No. 931004.
13.
Donahue
,
R. J.
, and
Foster
,
D. E.
, 2000, “
Effects of Oxygen Enhancement on the Emissions From a DI Diesel Via Manipulation of Fuels and Combustion Chamber Gas Composition
,” SAE Technical Paper No. 2000-01-0512.
14.
Hess
,
H. S.
,
Boehman
,
A. L.
,
Tijm
,
P. J. A.
, and
Waller
,
F. J.
, 2000, “
Experimental Studies of the Impact of Cetaner on Diesel Combustion and Emissions
,” SAE Technical Paper No. 2000-01-2886.
15.
Chapman
,
E. M.
,
Boehman
,
A. L.
,
Tijm
,
P. J. A.
,
Waller
,
F. J.
, and
Bhide
,
S. V.
, 2000, “
Emission Characteristics of a Navistar 7.3l Turbodiesel Fueled With Blends of Oxygenates and Diesel
,” SAE Technical Paper No. 2000-01-2887.
16.
Song
,
J. H.
,
Cheenkachorn
,
K.
,
Wang
,
J. G.
,
Perez
,
J.
,
Boehman
,
A. L.
,
Young
,
P. J.
, and
Waller
,
F. J.
, 2002, “
Effect of Oxygenated Fuel on Combustion and Emissions in a Light-Duty Turbo Diesel Engine
,”
Energy Fuels
,
16
(
2
), pp.
294
301
. 0887-0624
Crossref
Search ADS
 
17.
Song
,
J.
,
Zello
,
V.
,
Boehman
,
A. L.
, and
Waller
,
F. J.
, 2004, “
Comparison of the Impact of Intake Oxygen Enrichment and Fuel Oxygenation on Diesel Combustion and Emissions
,”
Energy Fuels
,
18
(
5
), pp.
1282
1290
. 0887-0624
Crossref
Search ADS
 
18.
Litzinger
,
T.
,
Stoner
,
M.
,
Hess
,
H.
, and
Boehman
,
A.
, 2000, “
Effects of Oxygenated Blending Compounds on Emissions From a Turbocharged Direct Injection Diesel Engine
,”
Int. J. Engine Res.
1468-0874,
1
, pp.
57
70
.
Crossref
Search ADS
 
19.
Upatnieds
,
A.
, and
Mueller
,
C. J.
, 2005, “
Clean, Controlled DI Diesel Combustion Using Dilute, Cool Charge Gas and a Short-Ignition-Delay, Oxygenated Fuel
,” SAE Technical Paper No. 2005-01-0363.
20.
Anand
,
R.
, and
Mahalakshmi
,
N. V.
, 2007, “
Simultaneous Reduction of NOx and Smoke From a Direct-Injection Diesel Engine With Exhaust Gas Recirculation and Diethyl Ether
,”
Proc. Inst. Mech. Eng., Part D (J. Automob. Eng.)
0954-4070,
221
(
1
), pp.
109
116
.
Crossref
Search ADS
 
21.
Lahiri
,
D.
,
Mehta
,
P. S.
,
Poola
,
R. B.
, and
Sekar
,
R.
, 1997, “
Utilization of Oxygen-Enriched Air in Diesel Engines: Fundamental Considerations
.”
22.
Poola
,
R.
, and
Stork
,
K.
, 1998, “
Membrane-Based Air Composition Control for Light-Duty Diesel Vehicles: A Benefit and Cost Assessment
,” Argonne National Laboratory, Report No. ANL/ESD/TM-144.
23.
Poola
,
R. B.
,
Longman
,
D. E.
,
Stork
,
K. C.
,
Sekar
,
R.
,
Nemser
,
S.
, and
Callaghan
,
K.
, 2000, “
Membrane-Based Nitrogen-Enriched Air for NOx Reduction in Light-Duty Diesel Engines
,” SAE Technical Paper No. 2000-01-0228.
24.
Assanis
,
D. N.
,
Poola
,
R. B.
,
Sekar
,
R.
, and
Cataldi
,
G. R.
, 2001, “
Study of Using Oxygen-Enriched Combustion Air for Locomotive Diesel Engines
,”
ASME J. Eng. Gas Turbines Power
0742-4795,
123
(
1
), pp.
157
166
.
Crossref
Search ADS
 
25.
Poola
,
R. B.
, and
Sekar
,
R.
, 2003, “
Reduction of NOx and Particulate Emissions by Using Oxygen-Enriched Combustion Air in a Locomotive Diesel Engine
,”
ASME J. Eng. Gas Turbines Power
0742-4795,
125
(
2
), pp.
524
533
.
Crossref
Search ADS
 
26.
Rakopoulos
,
C. D.
,
Hountalas
,
D. T.
,
Zannis
,
T. C.
, and
Levendis
,
Y. A.
, 2004, “
Operational and Environmental Evaluation of Diesel Engines Burning Oxygen-Enriched Intake Air or Oxygen-Enriched Fuels: A Review
,” SAE Technical Paper No. 2004-01-2924.
27.
Xiao
,
G. F.
,
Qiao
,
X. Q.
,
Huang
,
Z.
, and
Chen
,
Z. P.
, 2007, “
Improvement of Startability of Direct-Injection Diesel Engines by Oxygen-Enriched Intake Air
,”
Proc. Inst. Mech. Eng., Part D (J. Automob. Eng.)
0954-4070,
221
(
11
), pp.
1453
1465
.
Crossref
Search ADS
 
28.
Caton
,
J. A.
, 2005, “
Use of a Cycle Simulation Incorporating the Second Law of Thermodynamics: Results for SI Engines Using Oxygen-Enriched Combustion Air
,” SAE Technical Paper No. 2005-01-1130.
29.
Zannis
,
T. C.
,
Pariotis
,
E. G.
,
Hountalas
,
D. T.
,
Rakopoulos
,
D. C.
, and
Levendis
,
Y. A.
, 2007, “
Theoretical Study of DI Diesel Engine Performance and Pollutant Emissions Using Comparable Air-Side and Fuel-Side Oxygen Addition
,”
Energy Convers. Manage.
,
48
(
11
), pp.
2962
2970
. 0196-8904
Crossref
Search ADS
 
30.
Heywood
,
J. B.
, 1988,
Internal Combustion Engine Fundamentals
(
McGraw-Hill Series in Mechanical Engineering
),
McGraw-Hill
,
New York
, p.
510
.
31.
Zheng
,
M.
,
Reader
,
G. T.
, and
Hawley
,
J. G.
, 2004, “
Diesel engine Exhaust Gas Recirculation—A Review on Advanced and Novel Concepts
,”
Energy Convers. Manage.
0196-8904,
45
(
6
), pp.
883
900
.
Crossref
Search ADS
 
32.
Kutner
,
M. H.
,
Nachtsheim
,
C. J.
,
Neter
,
J.
, and
Li
,
W.
, 2005,
Applied Linear Statistical Models
, 5th ed.,
McGraw-Hill
,
Irwin, Boston
.
33.
Akihama
,
K.
,
Takatori
,
Y.
,
Inagaki
,
K.
,
Sasaki
,
S.
, and
Dean
,
A.
, 2001, “
Mechanism of the Smokeless Rich Diesel Combustion by Reducing Temperature
,” SAE Technical Paper No. 2001-01-0655.
34.
Jacobs
,
T. J.
, and
Assanis
,
D. N.
, 2007, “
The Attainment of Premixed Compression Ignition Low-Temperature Combustion in a Compression Ignition Direct Injection Engine
,”
Proc. Combust. Inst.
1540-7489,
31
(
2
), pp.
2913
2920
.
Crossref
Search ADS
 
35.
Lee
,
T.
, and
Reitz
,
R. D.
, 2003, “
Response Surface Method Optimization of a High-Speed Direct-Injection Diesel Engine Equipped With a Common Rail Injection System
,”
ASME J. Eng. Gas Turbines Power
0742-4795,
125
(
2
), pp.
541
546
.
Crossref
Search ADS
 
36.
Ladommatos
,
N.
,
Abdelhalim
,
S. M.
,
Zhao
,
H.
, and
Hu
,
Z.
, 1998, “
The Effects of Carbon Dioxide in Exhaust Gas Recirculation on Diesel Engine Emissions
,”
Proc. Inst. Mech. Eng., Part D (J. Automob. Eng.)
0954-4070,
212
(
1
), pp.
25
42
.
Crossref
Search ADS
 
37.
Ladommatos
,
N.
,
Abdelhalim
,
S.
, and
Zhao
,
H.
, 1998, “
Control of Oxides of nitrogen From Diesel Engines Using Diluents While Minimising the Impact on Particulate Pollutants
,”
Appl. Therm. Eng.
,
18
(
11
), pp.
963
980
. 1359-4311
Crossref
Search ADS
 
38.
Zhao
,
H.
,
Hu
,
J.
, and
Ladommatos
,
N.
, 2000, “
In-Cylinder Studies of the Effects of CO2 in Exhaust Gas Recirculation on Diesel Combustion and Emissions
,”
Proc. Inst. Mech. Eng., Part D (J. Automob. Eng.)
0954-4070,
214
(
D4
), pp.
405
419
.
39.
Kimura
,
S.
,
Aoki
,
O.
,
Ogawa
,
H.
, and
Muranaka
,
S.
, and
Enomoto
,
Y.
, 1999, “
New Combustion Concept for Ultra-Clean and High-Efficiency Small DI Diesel Engines
,” SAE Technical Paper No. 1999-01-3681.
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