This research aimed to investigate the pyrolysis process of rapeseed oil cake/walnut shell mixture and to assess the pyrolysis products. The solid fraction was then subjected to high temperature treatment using CO2 65 vol.% in nitrogen (N-2) as activation agent to obtain activated carbons. The carbon samples were characterized by scanning electron microscopy (SEM), N-2 adsorption at (-196.15 degrees C) and measurements of mechanical strength. Two surface treatment methods, including ammonium (NH3) heat treatment and aqueous monoethanolamine (MEA) impregnation, were used to modify the surface properties of the carbons to increase their CO2 capture capacity. The influence of treatment conditions and chemical reagent type on carbons properties were investigated and discussed. The surface treatment changed the porous structure and surface chemistry and affected CO2 adsorption capacity. NH3 was found more effective than MEA under identical conditions. The NH3 treatment increased the surface area, especially at lower temperatures (600 degrees C) while the chemical impregnation with MEA resulted in a decrease of the surface area. Both the NH3 treatment and monoethanolamine impregnation have increased the CO2 adsorption capacity at higher temperature due to the introduction of alkaline nitrogen groups on the surface of carbons that are selective to CO2 molecules.

• 出版日期2014-11