Enhancement of wheat straw pellet quality for bioenergy through additive blending

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ABSTRACT Densification of biomass through pelletizing offers a promising approach to producing clean biofuels from renewable resources. This study, which investigates the impact of additive blends on wheat straw pellet making and upgrading the physiochemical properties, has revealed exciting possibilities. Five additives, including sawdust (SD), bentonite clay (BC), corn starch (S), crude glycerol (CG), and biochar (BioC), were chosen for this study. Pellets were made from seven different combinations using a laboratory-scale pellet mill. The resulting pellets’ physical and elemental properties were assessed against ISO 17,225-8 standards. Compared to control pellets, additive blends (T3-T7) exhibited significant improvements in mechanical durability (80% to 99%), tensile strength (0.36 MPa to 2.09 MPa), and bulk density (244 kg/m3 to 665.21 kg/m3), all meeting ISO standards. AdditionaUF000llylly, these blends maintained low fines content (<2%) and water absorption capacity (<2%, except T1 and T5). Furthermore, fixed carbon content increased from 11.1% to 30.90%, and energy content rose from 17.02 MJ/kg to 20.36 MJ/kg, which showed a significant synergistic effect of blending additives. These findings underscore the potential of wheat straw as a viable biomass source for bioenergy production through pelletization, offering a hopeful outlook for the future of renewable energy. However, further research is necessary to optimize additive mixing ratios for even greater pellet quality. Implications: The study successfully demonstrated that addingspecific materials during wheat straw pelletizing significantly improves thequality of the pellets as a biofuel. Here are the key implications of the statement. Wheat straw is a promising biofuel source: Densification through pelletizing makes wheat straw a viable option for renewable energy production. Additives enhance pellet quality: Sawdust, bentonite clay, corn starch, crude glycerol, and biochar improve the pellets’ durability, strength, density, and energy content. Improved pellet properties meet industry standards: The resulting pellets meet ISO standards for mechanical strength, bulk density, and fines content. Synergistic effect of blending: Combining different additives leads to a greater improvement than using them individually. Need for further research: Optimizing the ratios of these additives can potentially create even better biofuel pellets. Overall, the study highlights the potential ofwheat straw pelletizing with specific additives as a sustainable and efficientbiofuel option. There’s room for further improvement, but the initial findingsare promising.