Abstract
With the rising cost of non-renewable petroleum fuels, growing
environmental concerns, and energy shortages, industrial-scale production of biofuels
and their additives using readily available resources has gained a lot of attention. The
cost-effective and commercial development of clean energy sources is expected to be
aided by various renewable biomasses for the synthesis of biofuels or fuel additives.
Microwave techniques with various precursors could be one of the strategies for the
synthesis of biofuels or gasoline additives, with advantages such as being very energyefficient, less time-consuming, high selectivity, a greener approach, and high-yield
producing procedures. This microwave effect is caused by microwave radiations
interfacing with the molecules of solute, solvents, or catalysts throughout the reaction.
This book chapter covers a broad spectrum of scientific and instrumental aspects of
microwave radiation methodology in chemical synthesis, the practical approach of the
microwave reactor design, the production of different biofuels and additives using
microwave techniques, and the advantages, and several limitations of this
methodology.