Rongfei Zhao scite author profile

Pelleting can increase the efficiency of handling and transportation of biomass. Pretreatment obtains lignin fragments by disrupting the lignocellulosic structure of biomass and ensures the high-quality compressed pellets. In this study, solid-state fermentation (SSF) is used as a biological method to improve the quality of pellets of oat straw. SSF of oat straw using Trametes versicolor 52J (TV52J) and Phanerochaete chrysosporium (PC) was conducted. Response surface methodology (RSM) was employed by using a four-factor, three-level Box–Behnken design with fermentation time (days), moisture content (%), particle size (mm), and fermentation temperature (°C) as independent parameters. Pellet density, dimensional stability, and tensile strength were the response variables. The optimization options of fermentation time (33.96 and 35 days), moisture content (70%), particle size (150 and 50 mm), and fermentation temperature (22°C) of oat straw pretreated with these two fungal strains were obtained. The microscopic structural changes of oat straw caused by biological pretreatment were investigated by scanning electron microscopy (SEM). Observation results of SEM showed that the connection between single fibers became relatively loose, and this was beneficial to improve the physical quality of the pellets.

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Comprehensive review of models and methods used for heat recovery from composting process

Zhao

Gao

Guo

2017

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The large amount of heat produced from solid waste composting has stimulated great interest in heat recovery and utilization. This paper reviews the advances in composting heat recovery researches in the last decade. Some experimental results and theoretical studies on composting heat utilization are summarized. The results indicate a great potential for utilization of heat produced by the composting process. Common problems experienced by current methods are how to realize the maximum heat recovery without negatively impacting compost quality and the economics of heat recovery methods. Further advancement of these methods is currently receiving comprehensive interests, both academically and commercially.

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Rongfei Zhao

Microscopic mechanism exploration and constitutive equation construction for compression characteristics of AZ31-TD magnesium alloy at high strain rate

Optimization of biological pretreatment to enhance the quality of wheat straw pellets

Biological Pretreatment by Solid-State Fermentation of Oat Straw to Enhance Physical Quality of Pellets

Comprehensive review of models and methods used for heat recovery from composting process

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