Sustainable Energy Materials Conversion

The ever-increasing human population and the burgeoning global economy have resulted in increased vitality usage and the understanding that non-renewable energy sources are a finite resource on the planet. More crucially, due of the rising global temperature, CO2 emissions must be reduced in order to minimize or avoid supporting global warming. The two requirements have fuelled global efforts to transform the ebb and flow vitality supply method into an economy based on sustainable power sources such as solar, wind, biomass, geothermal, and water-based power. As a result, these variables have fuelled the increased and consistently growing enthusiasm for the domains of vitality collecting and capacity observed in the preceding two decades.