There are many different uses for marine gas oil, with some more popular than others. However, there are also some things to consider when choosing which marine fuel is best for your vessel. For example, you should make sure that you choose the right type based on your engine’s requirements. This will help you minimize sulfur acid emissions and the pollution caused by the oil. Additionally, you should know the marine gas oil price before buying.
Less polluting:
While marine fuels are often the least polluting, they can still be hazardous to the environment. Over 70% of the world’s emissions come from the shipping. These emissions come from fuel oil as thick as molasses and are loaded with sulfur. Sulfur can be harmful to human health and the environment. Sulfur emissions also contribute to airborne particulate matter, which can cause health problems for people. In addition, sulfur pollution can lead to premature death.
Less sulphuric acid:
There are several reasons for requiring marine fuels to have less sulphuric acid. The Marine Environment Protection Committee (MEPC) adopted a rule to reduce the sulfur content in marine fuels. The rule requires that fuel oil contain less than 0.50% m/m sulfur by 2020. During the review, a committee was created to determine the requirements.
Alternatives to heavy fuel oil:
There are several disadvantages of using heavy fuel oil in a marine engine. For starters, it costs more than twice as much as marine gasoil. In some cases, problems with marine gas oil may result in the grounding or collision of a vessel. These problems may also contribute to marine pollution. Therefore, it is important to find suitable alternative fuels. The following are some benefits of using alternative fuels for marine engines.
Effects on marine organisms:
Despite the increased petroleum production, it is still unclear whether and to what extent these gases affect marine organisms. The effects on marine organisms are complex, and the combination of global and local drivers is largely unknown. Global drivers such as carbon dioxide, methane, and petrochemicals, in particular, have been found to affect larval stages in various ways. This paper reviews the results of studies comparing the combined effects of these stressors on marine organisms.