1. EXPERIMENTAL INVESTIGATION ON
PERFORMANCE OF DIESEL ENGINE USING
PALM OIL BLENDED DIESEL FUEL
B.Govinda Rao1, V. Dharma Rao1, B.Ajit1,
S.V. Naidu2 and B.Sreenivasulu3
1Mechanical
Engineering Department, G.V.P.College of
Engineering (A), Visakhapatnam
2Chemical Engineering Department, A.U.College of
Engineering,Visakhapatnam
3Chemical Engineering Department, G.V.P.College of
Engineering (A), Visakhapatnam
2. Abstract
The performance of variable compression ratio (CR)diesel engine using palm oil
blended diesel fuel is investigated experimentally.
The performances of High speed diesel (HSD) and blends of 10, 30, 50, 70 and 100%
palm oil based biodiesel are tested using variable compression ratio diesel engine.
3. Introduction
The world at present heavily depends upon petroleum fuels for
transportation. The rise in price of the major automobile fuels has been
one of the major global problems in the recent times. The price rise of
fuels is even linked to the global economy. There is rapid depletion of
petroleum reserves, high price on oil import, harmful effects of various
exhaust emissions on human beings and environment. These are the
factors to search for alternative fuels. So, the wide research work is going
on throughout the world for bio-diesel fuels as an alternative for
automobiles
4. EXPERIMENTAL SETUP
Engine Specification
Single cylinder
4 stroke
water cooled
stroke 110 mm
bore 87.5 mm.
Diesel mode: Power 3.5 KW ,
CR range 12:1-18:1 ,
Speed 1500 rpm ,
Injection variation 0-250
BTDC. Dynamometer: Type
eddy current
7. RESULTS contd…
EXHAUST GAS TEMPERATURE
450
520
500
100% L
350
300
70% L
250
50% L
30% L
200
20% L
150
Exhaust gas temperature, 0C
Exhaust gas temperature, 0C
400
CR = 16
CR = 17
CR = 18
480
460
440
420
400
380
100
360
0
20
40
60
80
100
Biodiesel, %
Fig.7. Variation of exhaustgas temperature with % of biodiesel - Effect of load
0
20
40
Biodiesel, %
60
80
100
8. Conclusions
It is observed that
• Brake thermal efficiency (BTE)increases as the percentage of biodiesel is increased,
reaches a maximum at 50% biodiesel, and decreases subsequently.
• For the blend B50 the improvement in BTE is found to be 26.3, 21.5 and 14.7% at
compression ratios of 16, 17 and 18 respectively under full load condition.
•The brake specific fuel consumption (BSFC) is the lowest for the blend B70 (30% diesel+
70% palm oil)and is 10.3% less than that of HSD.
• The exhaust gas temperature(EGT) is 11% more than the diesel forB30, i.e., 70%
diesel+ 30% palm oil.
This purports the fact that palm oil based biodiesel can be blended with HSD to derive
economical advantage
9. REFERENCES
[1] Raheman, H. and Ghadge,S.V. (2008) Performance of diesel engine with
biodiesel atvarying compression ratio and ignition timing, Fuel, 87,pp. 2659–
2666.
[2] Ramdhas, A.S. Muraleedharan, C. and Jayaraj, S.(2005) Performance and
emissionvaluation of a diesel engine fueled with methyl esters of rubber seed
oil, RenewableEnergy, 30(1), pp. 789 – 800.
[3] CenkSayin.(2010) Engine performance and exhaust gas emissions of
methanol and ethanoldiesel blends, Fuel,89, pp. 3410 – 3415.
[4]Udayakumar R, Sundaram S andSivakumar S. (2004) Engine performance
and exhaustcharacteristics of dual fuel operation in DI diesel engine with
methanol,SAE Paper no. 2004-01-0096.
[5]Bayraktar H. (2008)An experimental study on the performance parameters
of anexperimental CIengine fueled with diesel–methanol–do-decanol
blends,Fuel, 87(2), pp.158– 164.
10. [6] Bari S, Lim TH and Yu CW. (2002) Effects of preheating of crude palm oil (CPO)
onInjection system, performance and emission of a diesel engine. Renewable Energy,
27, pp.339–351.
[7]CenkSayin and MetinGumus (2011)Impact of compression ratio and injection
parameters on the performance and emissions of a DI diesel engine fueled with
biodiesel-blended dieselfuel, Applied Thermal Engineering, 31, pp. 3182 – 3188.
[8]PritinikaBehera and S. Murugan (2013) Combustion, performance and emission
parametersof used transformer oil and its diesel blends in a DI diesel engine, Fuel, 104,
pp.147–154.
[9]Labecki, A. Cairns, J. Xia, A. Megaritis and H. Zhao, L.C. Ganippa (2012)
Combustion and emission of rapeseed oil blends in diesel engine, Applied Energy,
95,pp.139–146.
[10]Senthil KM, Ramesh AandNagalingam B. (2003)An experimental comparison
ofmethodsto use methanol andjatropha oil in a compression ignition engine, Journal of
Biomass and Bioenergy, 25, pp.309–18.