BACKGROUND: This study reported a canola meal-based biochar adsorbent for highly efficient organic dyes removal. SEM, BET, Zeta-potential and XPS etc. were employed to characterize the micro-structure and chemical composition of the biochar, demonstrating the impact of compression treatment on its inner pore structure.RESULTS: KOH-activated carbonized canola meal-compressed (KCCM-C) showed a high specific surface area of up to 2135 m(2) g(-1) with an average pore size of 2.65 nm, which exhibited excellent adsorption capacity for both positively and negatively charged dyes with maximum values of 985 mg g(-1) and 813 mg g(-1) for methylene blue (MB) and methyl orange (MO) respectively, exceeding majority of the biochar adsorbents reported so far. The dye adsorption behavior was dominated by monolayer coverage with both physical adsorption and chemisorption. Langmuir isotherm model fitted well with the adsorption data, and the adsorption kinetic followed the pseudo-second-order model. Negative Gibbs free energy and positive enthalpy change indicated that the adsorption was a spontaneous endothermic process. XPS analysis indicated that the amino groups of proteins inside the canola meal as the active sites were oxidated by KOH prior to other components, while the compact structure of compressed canola meal was more conducive to the formation of uniform meso-pores inside canola meal-derived biochar improving its adsorption performance.CONCLUSIONS: This high-quality porous biochar, directly synthesized from the compressed canola meal, simplifies the grinding process and presents a valuable opportunity for the value-added application of canola meal.(c) 2023 Society of Chemical Industry (SCI).