Biochar obtained by pyrolysis is receiving great research interest as it is perceived to be a renewable resource available for agronomic and environmental applications. Since biochar is a highly heterogeneous material with chemical composition that varies widely depending on feedstock and pyrolysis conditions, this study compares the characteristics of biochar produced by pyrolysis at six temperature levels ranging between 300 and 800 °C of two types of biomass, i.e. rapeseed straw (RS)-agriculture waste and poplar tree shavings (PP)-forest waste from furniture making. Twelve biochars were generated via pyrolysis under low oxygen conditions of the selected biomasses in an electrically heated batch reactor. To determine how pyrolysis temperature affects the properties of biochars and consequently their possible utilization, physical, chemical, thermal, porosity and EDX analysis were measured for all biochars and for the corresponding feedstocks. SEM images of the biochar revealed that an increase in temperature led to a higher number of pores for PP biochar compared to RS biochar, and that PP biochar pores tended to shrink with temperature. The elemental composition and the pH of biochars were also compared. Based on the experimental results a utilization matrix was designed as to offer indications concerning possible applications of RS and PP biochars in substitution to fossil derived products for soil remediation (e.g., agriculture fertilizers) and in environmental applications (e.g., removal of pollutants).
Keywords: Biochar; Biomass; Poplar shavings; Pyrolysis; Rapeseed straw.
© 2021. The Author(s), under exclusive licence to Springer Nature B.V.