Search Results

Maritime environmental regulations stipulate lower emissions from the shipping industry. To cope with these rules, improving the combustion processes, make use of cleaner alternative fuels and implement exhaust gas cleaning systems is necessary. Alternative fuels, like fish oil, have a potential to reduce soot formation during the combustion process and will be deeply investigated in this paper. For this purpose, two different types of fish oil and their blends with marine gas oil (MGO) have been tested in a constant volume pre-combustion cell (CVPC). The CVPC laboratory was built in collaboration between MARINTEK and NTNU. To generate similar injection condition in the combustion cell as in an internal combustion engine, the CVPC is heated using a chemical heating process. The CVPC is used as a fundamental investigation tool for studying the fuel injection system for large engine applications.

The purpose of this study is to develop a modeling and simulation environment for the early design and testing for high pressure injection of alternative fuels in a medium-speed engine application. The proper injection of fuel into the cylinder at the correct timing and with the desired rate is a key to high combustion efficiency. The fuel spray and gas jet characteristics are governed by the injection pressure and nozzle geometry. Incorrect injection causes a reduced efficiency and increasing concentration of harmful emissions. In addition to efficient and clean combustion, safety issues are also important design features for fuel injection systems. In particular, the handling of volatile alternative fuels such as natural gas requires special safety functions to prevent hazardous incidents.