Preparation of biochar with high absorbability and its nutrient adsorption-desorption behaviour

To study the formation of biochar with high absorbability, experiments were carried out at different carbonization temperature (300, 400, 600, and 800 degrees C) and under different carbonization atmosphere (activating gases (steamand CO2) and inert gas (N-2)) to prepare biochar. In this paper, the effects of the carbonization atmosphere on the biochar pore structure were studied, and the influence of the biochar pore structure on the adsorption-desorption behaviour of nutrients (NH4+-N, NO3--N, P, and K) was investigated. Experimental results: (1) The activating gases (steam and CO2) can catalytically crack activated carbon atoms and tar blocking the biochar pores at high temperatures (T > 600 degrees C), and the activating gas promotes the formation of microporous biochar (d < 2 nm). (2) Micropores with a pore diameter distribution of 0.6-2 nm in biochar have the strongest nutrients adsorption, and pores with a diameter below 0.6 nm cannot adsorb hydrated ions of nutrients. (3) Biochar prepared at 600 degrees C and CO2 atmosphere has the best adsorption effect on nutrients. The adsorption kinetic was well described by Pseudo-second-order model. (4) After 5 cycles of biochar, the adsorption of the nutrients is still >40% of the first adsorption. Biochar has relatively high reusability. (C) 2019 Elsevier B.V. All rights reserved.