LPG-Diesel Dual Fuel Emission Characteristics: A Review

The global shift away from fossil fuels for energy, driven by concerns about emissions and energy security, has sparked significant interest in alternative fuels. One promising approach involves combining alternative fuels, like Liquefied Petroleum Gas (LPG), with traditional diesel engines. This strategy, known as the dual-fuel concept, aims to harness the strengths of each fuel type while reducing emissions and improving engine performance. This review focuses primarily on LPG as a dual fuel for diesel engines. LPG, a gaseous fuel primarily composed of propane and butane, offers substantial environmental benefits, including a 15% reduction in CO2 emissions, a 30% reduction in CO emissions, and a 50% reduction in NOx emissions compared to diesel. However, using pure LPG in diesel engines faces a challenge related to its ignition behavior. This challenge can be overcome by blending LPG with substances like Hydrotreated Vegetable Oil (HVO) or diesel fuel, which act as ignition enhancers. The main goal of this review is to provide a comprehensive overview of the potential advantages and applicability of the dual-fuel system combining diesel and LPG. It will explore various experimental setups, designs, and injection techniques, presenting diverse findings related to both engine performance and emissions. Additionally, the review will discuss additives that can further improve the combustion process. Overall, the research highlights the promising role of LPG as a dual fuel in reducing emissions and enhancing the efficiency of diesel engines, contributing to a more sustainable energy future.