TY - JOUR
T1 - Compression ignition engine modifications for straight plant oil fueling in remote contexts
T2 - Modification design and short-run testing
AU - Basinger, M.
AU - Reding, T.
AU - Williams, C.
AU - Lackner, K. S.
AU - Modi, V.
N1 - Funding Information: This project was supported by the Gates Foundation , Darren Manelski , and the Three Loaves Fund . This support is gratefully acknowledged. The authors would like to thank Kulite Semiconductor Products Inc. for the use of their pressure transducer, and Adam Hurst for his assistance. The assistance received from Marco Castaldi, Alissa Park, and Will Northrop is also gratefully acknowledged. Additionally the support, guidance, and expert advice provided by George Breckenridge is recognized, without which this research would not have been possible. Copyright: Copyright 2010 Elsevier B.V., All rights reserved.
PY - 2010
Y1 - 2010
N2 - Though many plant oils have a similar energy density to fossil diesel fuel, several properties of plant oils are considerably different from those of diesel. Engine modifications can overcome some of these differences. An engine modification kit has been designed and tested for a slow speed, stationary, indirect-injection diesel engine - the Lister-type CS 6/1, common throughout the developing world. The kit allows waste vegetable oil fueling with similar performance to that of diesel fueling. The kit's simple yet robust design is targeted for use as a development mechanism, allowing remote farmers to use locally grown plant oils as a diesel substitute. The modification kit includes a preheating system and the tuning of the injector pressure and timing to better atomize given the unique properties of straight plant oils. The design methodology for the modifications is detailed and a suite of performance test results are described including fuel consumption, efficiency, pre-combustion chamber pressure, and various emissions. The results of the study show how a combination of preheating the high pressure fuel line, advancing the injector timing and increasing the injector valve opening pressure allows this engine to efficiently utilize plant oils as a diesel fuel substitute, potentially aiding remote rural farmers with a lower cost, sustainable fuel source - enabling important agro-processing mechanization in parts of the world that needs it most.
AB - Though many plant oils have a similar energy density to fossil diesel fuel, several properties of plant oils are considerably different from those of diesel. Engine modifications can overcome some of these differences. An engine modification kit has been designed and tested for a slow speed, stationary, indirect-injection diesel engine - the Lister-type CS 6/1, common throughout the developing world. The kit allows waste vegetable oil fueling with similar performance to that of diesel fueling. The kit's simple yet robust design is targeted for use as a development mechanism, allowing remote farmers to use locally grown plant oils as a diesel substitute. The modification kit includes a preheating system and the tuning of the injector pressure and timing to better atomize given the unique properties of straight plant oils. The design methodology for the modifications is detailed and a suite of performance test results are described including fuel consumption, efficiency, pre-combustion chamber pressure, and various emissions. The results of the study show how a combination of preheating the high pressure fuel line, advancing the injector timing and increasing the injector valve opening pressure allows this engine to efficiently utilize plant oils as a diesel fuel substitute, potentially aiding remote rural farmers with a lower cost, sustainable fuel source - enabling important agro-processing mechanization in parts of the world that needs it most.
KW - CI engine
KW - Diesel engine
KW - Emissions
KW - Plant oils
KW - Straight vegetable oil
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U2 - 10.1016/j.fuel.2010.04.028
DO - 10.1016/j.fuel.2010.04.028
M3 - Article
SN - 0016-2361
VL - 89
SP - 2925
EP - 2938
JO - Fuel
JF - Fuel
IS - 10
ER -