Biodiesel is a renewable fuel that is produced from vegetable oils, animalfats, or recycled cooking greases. It is a cleaner-burning alternative to traditional diesel fuel made from petroleum.
How Biodiesel is Made
Biodiesel is typically produced through a process called transesterification. During this process, the vegetable oils or animalfats are combined with an alcohol (such as methanol or ethanol) and a catalyst (such as sodium hydroxide or potassium hydroxide) to produce biodiesel and glycerin as a byproduct.
Properties of Biodiesel
Biodiesel has several properties that make it an attractive alternative fuel:
Renewable: Biodiesel is made from renewable resources, making it more sustainable than petroleum-based diesel.
Biodegradable: Biodiesel is biodegradable, which means it breaks down naturally and poses less risk to the environment in the event of a spill.
Lower Emissions: Biodiesel produces lower levels of greenhouse gas emissions and air pollutants compared to traditional diesel fuel.
Lubricity: Biodiesel has good lubricating properties, which can help reduce wear on engine parts.
Using Biodiesel
Biodiesel can be used in its pure form (B100) or blended with petroleum diesel. Common blends include B5 (5% biodiesel, 95% petroleum diesel) and B20 (20% biodiesel, 80% petroleum diesel).
Study Guide
Here are some key concepts to understand about biodiesel:
Describe the process of transesterification and its role in biodiesel production.
Compare the properties of biodiesel with those of traditional diesel fuel.
Explain the environmental benefits of using biodiesel as a fuel.
Discuss the different blends of biodiesel and their impact on engine performance.
Analyze the sustainability of biodiesel production and its potential as a renewable fuel source.
Create a computational model to calculate the change in the energy of one component in a system when the change in energy of the other component(s) and energy flows in and out of the system are known.
Develop and use models to illustrate that energy at the macroscopic scale can be accounted for as either motions of particles or energy stored in fields.