Effect of microwave–chemical pre-treatment on compression characteristics of biomass grinds

The effect of microwave and microwave–chemical pre-treatments on densification characteristics and physical quality of pellets made from wheat and barley straw grinds were investigated. The ground wheat and barley straw samples were immersed in water, sodium hydroxide or calcium hydroxide solution at different concentrations (1 and 2% w/v) and then exposed to microwave radiation at three power levels (295, 603 and 713 W). Chemical composition and bulk and particle densities of samples were determined after pre-treatments. Pre-treated grinds were compressed in a plunger–die assembly with a force of 4000 N and compression and relaxation test data were recorded. The specific energy required for compression and ejection of pellets produced from untreated and pre-treated wheat and barley straw grinds was calculated. The tensile strength of the pellets was also evaluated to investigate the hardness of the pellets. Chemical composition analysis showed that microwave and chemical pre-treatment was significantly able to disintegrate the lignocellulosic structure of wheat and barley straw grinds. Data analysis also indicated that the pellets made from microwave–chemical pre-treated biomass grinds had a significantly higher density and tensile strength than the untreated or samples pre-treated by microwave and distilled water.

Research highlights► Microwave–chemical pre-treatment substantially modifies biomass pellet properties. ► Microwave–chemical pre-treatment disintegrates the lignocellulosic structure of biomass. ► Compaction characteristics of biomass significantly change after microwave pre-treatment.