An experimental investigation is carried out to analyze the Combustion, performance and emission characteristics with single cylinder Compression Ignition (CI) engine, for Diesel and Jatropha biodiesel as a fuel with Alumina (Al2O3) and CMNT Nanoparticles. The characterization of Nanoparticles is done with XRD and TEM to determine its size. Nanoparticles in the amount of 25 ppm and 50 ppm are added with the help of mechanical agitator and magnetic stirrer. The physiochemical properties of the fuel blends like the flashpoint, Calorific value, and Cetane number are increased due to the addition of Nanoparticles. The addition of Nanoparticles showed reduction in ignition delay period, improved net heat release rate and better combustion characteristics. For the full load condition the performance of the engine, BTE is increased for JBD20+AL50CMNT50 blend by 7.37% and 0.67% in comparison of JBD20 and D100 blend, respectively. The most significant reduction in emission parameters like NOx is reduced by 651 ppm for JBD20 to 479 ppm and CO emission 0.11 % to 0.08% by volume for Alumina and CMNT 50ppm blend with JBD20. Results infer that JBD20+AL50CM NT50 have the highest Brake thermal efficiency , and the emission parameter like CO, HC and NOx lowest emission among all the prepared blends.

1.
T.
Shaafi
and
R.
Velraj
, “
Influence of alumina nanoparticles, ethanol and isopropanol blend as additive with diesel-soybean biodiesel blend fuel: Combustion, engine performance and emissions
,”
Renew. Energy
, vol.
80
, pp.
655
663
,
2015
.
2.
S. A.
Basha
,
K. R.
Gopal
, and
S.
Jebaraj
, “
A review on biodiesel production , combustion , emissions and performance
,” vol.
13
, pp.
1628
1634
,
2009
.
3.
Y. C.
Sharma
,
B.
Singh
, and
S. N.
Upadhyay
, “
Advancements in development and characterization of biodiesel: A review
,” vol.
87
, pp.
2355
2373
,
2008
.
4.
N. N. A. N.
Yusuf
,
S. K.
Kamarudin
, and
Z.
Yaakub
, “
Overview on the current trends in biodiesel production
,”
Energy Convers. Manag.
, vol.
52
, no.
7
, pp.
2741
2751
,
2011
.
5.
H.
Tyagi
 et al, “
Increased hot-plate ignition probability for nanoparticle-laden diesel fuel
,”
Nano Lett.
, vol.
8
, no.
5
, pp.
1410
1416
,
2008
.
6.
E. L.
Dreizin
, “Metal-based reactive nanomaterials,”
Prog. Energy Combust. Sci.
, vol.
35
, no.
2
, pp.
141
167
,
2009
.
7.
A. C.
Sajeevan
and
V.
Sajith
, “
Diesel Engine Emission Reduction Using Catalytic Nanoparticles: An Experimental Investigation
,”
J. Eng.
, vol.
2013
, pp.
1
9
,
2013
.
8.
C. S.
Aalam
,
C. G.
Saravanan
, and
M.
Kannan
, “
Experimental Investigation on CRDI System As sisted Diesel Engine Fulled by Diesel with Nanotubes
,”
Am. J. Eng. Appl. Sci.
, vol.
8
, no.
3
, pp.
380
389
,
2015
.
9.
A.
Varghese
and
A.
Base
, “
The Effect of Cerium Oxide Nano Particles Fuel Additive on Performance and Emission of Karanja Biodiesel Fueled Compression Ignition Military 585kW Heavy Duty Diesel Engine
,” pp.
1
8
,
2018
.
10.
Smys
,
S.
,
Joy
Chen
, and
Subarna
Shakya
, eds. “
Preface: 2nd International Conference on Inventive Research in Material Science and Technology (ICIRMCT 2019)
.” In
AIP Conference Proceedings
, vol.
2087
, no.
1
, p.
010001
.
AIP Publishing LLC
,
2019
.
11.
T.
Shaafi
,
K.
Sairam
,
A.
Gopinath
,
G.
Kumaresan
, and
R.
Velraj
, “
Effect of dispersion of various nanoadditives on the performance and emission characteristics of a CI engine fuelled with diesel, biodiesel and blends—A review
,”
Renew. Sustain. Energy Rev.
, vol.
49
, pp.
563
573
,
2015
.
12.
S.
Senthilraja
,
M.
Karthikeyan
, and
R.
Gangadevi
, “
Nanofluid Applications in Future Automobiles: Comprehensive Review of Existing Data
,”
Nano-Micro Lett.
, vol.
2
, no.
4
, pp.
306
310
,
2010
.
13.
M.
Elahi
 et al, “The effect of nano-additives in diesel-biodiesel fuel blends : A comprehensive review on stability , engine performance and emission characteristics,”
Energy Convers. Manag.
, vol.
178, no
. October, pp.
146
177
,
2018
.
14.
M. A.
Lenin
,
M. R.
Swaminathan
, and
G.
Kumaresan
, “
Performance and emission characteristics of a DI diesel engine with a nanofuel additive
,”
Fuel
, vol.
109
, pp.
362
365
,
2013
.
15.
Sahulhameedu
,
Smys
,
Joy
Chen
, and
Subarna
Shakya
, eds. “
Preface: International Conference on Inventive Research in Material Science and Technology (ICIRMCT 2018)
.” In
AIP Conference Proceedings
, vol.
1966
, no.
1
, p.
010001
.
AIP Publishing LLC
,
2018
.
16.
Y. C.
Sharma
,
B.
Singh
, and
S. N.
Upadhyay
, “
Advancements in development and characterization of biodiesel: A review
,”
Fuel
, vol.
87
, no.
12
, pp.
2355
2373
,
2008
.
17.
G. A.
Dorofeev
,
A. N.
Streletskii
,
I. V
Povstugar
,
A. V
Protasov
, and
E. P.
Elsukov
, “
Determination of Nanoparticle Sizes by X ray Diffraction
,” vol.
74
, no.
6
, pp.
710
720
,
2012
.
18.
J. S.
Basha
and
R. B.
Anand
, “
The influence of nano additive blended biodiesel fuels on the working characteristics of a diesel engine
,”
J. Brazilian Soc. Mech. Sci. Eng.
, vol.
35
, no.
3
, pp.
257
264
,
2013
.
19.
J. S.
Basha
and
R. B.
Anand
, “
An experimental investigation in a diesel engine using carbon nanotubes blended water-diesel emulsion fuel
,”
Proc. Inst. Mech. Eng. Part a-Journal Power Energy
, vol.
225
, no.
A3
, pp.
279
288
,
2011
.
20.
C. K.
Law
, “
Recent advances in droplet vaporization and combustion
,”
Prog. Energy Combust. Sci.
, vol.
8
, no.
3
, pp.
171
201
,
1982
.
21.
C. S.
Aalam
and
C. G.
Saravanan
, “Effects of nano metal oxide blended Mahua biodiesel on CRDI diesel engine,”
AIN SHAMS Eng. J.
, pp.
0
7
,
2015
.
22.
C. S.
Aalam
,
C. G.
Saravanan
, and
M.
Kannan
, “
Experimental investigations on a CRDI system assisted diesel engine fuelled with aluminium oxide nanoparticles blended biodiesel
,”
Alexandria Eng. J.
, vol.
54
, no.
3
, pp.
351
358
,
2015
.
23.
V. Arul Mozhi
Selvan
,
R. B.
Anand
, and
M.
Udayakumar
, “
Effect of cerium oxide nanoparticles and carbon nanotubes as fuel-borne additives in diesterol blends on the performance, combustion and emission characteristics of a variable compression ratio engine
,”
Fuel
, vol.
130
, pp.
160
167
,
2014
.
24.
V. A. M.
Selvan
,
R. B.
Anand
, and
M.
Udayakumar
, “
Effects of cerium oxide nanoparticle addition in diesel and diesel-biodiesel-ethanol blends on the performance and emission characteristics of a CI engine
,”
J. Eng. Appl. Sci.
, vol.
4
, no.
7
, pp.
1
6
,
2009
.
This content is only available via PDF.
You do not currently have access to this content.