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| Tekkaya, A. Erman |
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| Förster, Peter |
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| Mudimu, George T. |
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| Shibata, Lillian Marie |
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| Talabbeydokhti, Nasser |
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| Laffite, Ernesto Dante Rodriguez |
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| Schöpke, Benito |
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| Gobis, Anna |
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| Alfares, Hesham K. |
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| Münzel, Thomas |
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| Joy, Gemini Velleringatt |
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| Oubahman, Laila |
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| Filali, Youssef |
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| Philippi, Paula |
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| George, Alinda |
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| Lucia, Caterina De |
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| Avril, Ludovic |
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| Belachew, Zigyalew Gashaw |
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| Kassens-Noor, Eva | Darmstadt |
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| Cho, Seongchul |
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| Tonne, Cathryn |
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| Hosseinlou, Farhad |
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| Ganvit, Harsh |
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| Schmitt, Konrad Erich Kork |
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| Grimm, Daniel |
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Nallamothu, Anantha Kamal
in Cooperation with on an Cooperation-Score of 37%
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Publications (12/12 displayed)
- 2021Emission Characteristics of CSOME in CRDI Diesel Engine with Multiple Injection Strategycitations
- 2021Aerodynamic Analysis of Body of Passenger Bus for CO_2 Reduction and Fuel Saving
- 2021Tractor-Trailer Gap Optimization of a Truck for Reduction of Aerodynamic Dragcitations
- 2021Design and Analysis of Composite Drive Shaft for Rear-Wheel-Drive Vehiclecitations
- 2021Computational Evaluation of Aerodynamic Performance of Isuzu Midi Bus Body
- 2021Design and Analysis of Zero Turning Radius Steering System for Light Vehicles (Bajaj QUTE)
- 2021Improvement of Structure and Body of Three-Wheeler Vehicle
- 2021Reduction of Noise Emission from Minidor Three Wheeler with Effective Novel Muffler
- 2021Improving Frontal Body Shape of Locally Built FSR Isuzu Bus for Reduction of Aerodynamic Resistance
- 2021Design Improvement of MacPherson Strut Suspension System for Lighter Vehicle
- 2019Effect of dwell period between main and pre injection on NOx and smoke emission from CRDI diesel engine fueled with Biodiesel blend
- 2019Effect of injection timing in multiple injections on NOx and smoke from CRDI diesel engine fueled with biodiesel blend
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document
Emission Characteristics of CSOME in CRDI Diesel Engine with Multiple Injection Strategy
Abstract
Diesel engines are successful in commercial applications both on-road and off-road due to their higher thermal efficiency and fuel economy. CO and HC emissions are less from diesel engines compared to its counterpart gasoline engine. But NO and PM (smoke) emissions are higher due to heterogeneous combustion. Simultaneous reduction of NO_ x and smoke became a tough task faced by researchers to comply with the stringent emission regulations imposed upon. On the other hand, biodiesel as a replacement of petro-diesel in diesel engine applications is found to be a good means of solving the problems like depletion of fossil fuel and environmental degradation. The high temperature in the combustion chamber causes the formation of NO_ x and heterogeneous mixing that causes smoke formation. In this work, an attempt is made to study the influence of splitting injection on NO_ x and smoke in CRDI diesel engine operated with cottonseed oil biodiesel blend (B20). The injection was split into three pulses, namely pre, main, and post. The dwell between pre and main was varied, and dwell between main and post was fixed at 3° CAD. A fixed quantity of 0.5 mg/cycle fuel was injected in the post, whereas the fuel injection in pre is 10% of the main injection. At different main injection timings, the dwell between mail and pilot varied. The post-injection is maintained with a dwell of 3 CAD, which is very closely coupled with the main injection. From the recommended injection timing of 23° bTDC, the main injection timing along with post and pilot was retarded in steps of 3°. Baseline data was obtained with a petro-diesel single injection and B20 single injection at recommended 23° bTDC. For smoke reduction, the dwell of 10 CAD observed to be the best at all main injection timings. For NO_ x reduction 20 CAD is better. For trade-off between NO_ x and Smoke, in overall Dwell 10 CAD is observed to be better. It is found that splitting injection is very much helpful in simultaneous reduction of harmful emissions like NO_ x and smoke from diesel engines.
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