Comparative analysis of biochar production methods and their impacts on biochar physico-chemical properties and adsorption of heavy metals

Abstract

Rapid industrialization, urbanization, and population growth result in vast amounts of organic waste being produced, including agricultural waste, animal waste, industrial waste, sewage sludge, and municipal solid waste. Biochar production from solid waste has become a popular waste management method. However, in rural areas of developing nations, biomass is typically used for cooking without being charred. Urban biowaste-derived biochar may enhance soil fertility and overall soil health. However, large-scale biochar production from an electronic muffle furnace could be very expensive, and there is little information on the conversion of biowastes to biochar using traditional kilns or its effects on biochar characteristics, and farmers' biochar production methods are yet underdeveloped. Hence, this study provides biochar production from biowastes using two production methods: 1) a traditional kiln (a tin kiln) intended for use by small farmers and gardeners, and 2) a laboratory muffle furnace, with the aim of evaluating biochar characteristics. Biochar produced in a muffle furnace and tin kiln has found similar physicochemical and adsorption properties at the same pyrolysis conditions. They include high pH, EC, CEC, Pava, Ca, Mg, K, and carbon content. We expect these biochars to have larger long-term effects on agricultural characteristics and soil carbon sequestration. However, the present results might be utilized to drive cleaner biochar production for agricultural use in developing nations, which may multiply local producer benefits.