Abstract
Improved technologies are needed for sustainable management of sewage sludge (SS). The torrefaction (also known as biomass “roasting”) is considered a pretreatment of SS before use in agriculture. However, it is not known whether the torrefaction has the potential to decrease heavy metals’ (HMs) leachability and the SS toxicity. Thus, the aim of the study was to evaluate the influences of the SS torrefaction parameters (temperature and process time) on HM contents in biochar, HM leachability, and biochar toxicity, and compare them with raw SS. The experiments were designed in 18 combinations (six temperatures, 200, 220, 240, 260, 280, and 300 °C; and three process times—20, 40, 60 min). Standard tests were used to determine HMs content, leachability, and toxicity. Results indicated that the torrefaction did not increase (p < 0.05) the HM content in comparison to the raw SS. The leachability of Zn, Ni, Cu, Cr, and Mn from SS biochars was similar to raw SS. However, the degree of leachability varied significantly (p < 0.05) from as low as 0.1% for Cu to high as 16.7% for Cd. The leachability of Cd (<16.7%) and Pb (<11.9%) from biochars was higher than from raw SS (<6.1% and <2.4%, respectively). The leachability of Cd from SS biochar, in five torrefaction combinations, was higher than the threshold value for hazardous waste. It is recommended that site-specific decisions are made for torrefaction of SS with respect to its HM content, as the resulting biochar could be considered as hazardous waste, depending on the feedstock. Moreover, the biochar produced under the whole range of temperatures during 20 min retention time significantly (p < 0.05) increased the Daphnia magna Straus mobility inhibition by up to 100% in comparison to the biochar obtained during 40 and 60 min torrefaction. Taking into account the increased leachability of specific HMs and D. magna Straus mobility inhibition, biochar should be considered a potentially hazardous material. Future research should focus on biochar dosage as a fertilizer in relation to its toxicity. Additional research is warranted to focus on the optimization of SS torrefaction process parameters affecting the toxicity.
Highlights
We explored the feasibility of the thermal pretreatment via torrefaction of sewage sludge (SS) to address concerns associated with heavy metals (HMs) content and leachability from the resulting biochars
The Leachability of Biochars Obtained from Sewage Sludge via Torrefaction
The hydrophobicity test was used to determine the leachability of HMs from biochars obtained from
Summary
Biochar is generated from the thermal treatment (torrefaction, pyrolysis) of biowaste [1]. Recent indicated that sewage sludge (SS) is a suitable feedstock for torrefaction [2,3,4,5,6]. Torrefaction studies indicated drying”) could could densify densify carbon carbon and and stabilize stabilize SS, SS,. ( known as “roasting” or “high-temperature “high-temperature drying”). Offering aa sustainable sustainable resource resourcerecovery recoverysolution. Solution.The. The torrefaction a new approach thereby offering. SSSS torrefaction is ais new approach to to the management thisbiowaste. SS torrefaction torrefaction have have been the management of of this of Science-indexed journals whenwhen searched among among via title,via abstract, keywords, published ininWeb. Web of Science-indexed journals searched title, author abstract, author and Keywords
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