COMPARISON OF DIESEL ENGINE CHARACTERISTICS USING PURE PLANT OIL (PPO) FROM COCONUT, PALM, AND PHYSIC NUT
Diesel engine can be operated on either pure plant oil (PPO) oil or biodiesel. In biodiesel process, it will increase cost production due to many stages of processes, while PPO shows an opposite condition. There are several potential resources in Indonesia: coconut, palm, and physic nut, because...
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| Format: | Theses |
| Language: | Indonesia |
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| Online Access: | https://digilib.itb.ac.id/gdl/view/41586 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Diesel engine can be operated on either pure plant oil (PPO) oil or biodiesel. In
biodiesel process, it will increase cost production due to many stages of processes,
while PPO shows an opposite condition. There are several potential resources in
Indonesia: coconut, palm, and physic nut, because these are tropical plants and
also has a vast majority of quantity.
Engine was running in 17 hours endurance test with various operating conditions.
This experiment was using 815cc single cylinder, direct injection, four strokes
diesel engine. Maximum power of the engine is 9,7kW with compresion ratio 20.
Engine was connected to 5kW electric generator, which water heaters role as
loads. Test fuels are including pure coconut oil (PCO), pure palm oil (PPaO), pure
jatropha oil (PJO), and diesel fuel as a datum. Each PPO blends with diesel fuel
with composition 50%-volume.
Characteristics of PPO are high viscosity, low volatility, and low energy content.
As a result, PCO has higher BSFC (10%) before endurance test in comparison
with diesel fuel, also PPaO (13%) and PJO (27%) show a similar condition.
Surprisingly, after endurance test all PPO have BSFC almost similar with diesel
fuel because decreasing of engine components friction. On the other hand, PPO
produce less complete combustion than diesel fuel because bad spray
characteristic. It is evident that low CO2 emission and high UHC, CO, O2, and
opacity emissions.
The drawbacks are phosporus content, unsaturated fatty acid content, and low
combustion quality of PPO, which leads to higher engine deposit than diesel fuel.
Phosporus content has major responsibility of deposit growth. In comparison with
diesel fuel, PCO, PPaO, and PJO result more engine deposits than diesel fuel,
which accounts for 139,7%, 232,9%, and 288,9% respectively.
PPO gives well antiwear property on plunger and injector. Evidently, using of
PPO has a lower wear than diesel fuel does. Fatty acids content in PPO give those
results. PCO has the best antiwear property among test fuels, whereas the worst is
PJO. The difference of carbon chainlength causing each PPO has antiwear
property differently. |
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