Impact of different structures of biochar on decreasing methane emissions from sewage sludge composting

Abstract: Methane (CH4) emissions from sewage sludge composting can be reduced by using biochar more effectively. This study investigates the impact of different structure of biochar on CH4 emissions during sewage sludge composting. Corncob biochar (CB, pore size = 35.3990 nm), rice husk biochar (RB, pore size = 3.4242 nm) and wood biochar (WB, pore size = 1.6691 nm) were applied to the composting. The results showed that biochar decreased CH4 emissions, mainly through the indirect effect of improving the pile environme… Show more

“…1 that they retain a certain granular skeleton structure. The biochar fragments are all granular, with clear outlines and rich pore structures [20] . It can be seen from the gure that there are signi cant differences between the modi ed biochar and the unmodi ed biochar samples.…”

The mechanism of Pb(II) and Cd(II) removal by coffee grounds biochar: Role of KOH modification

“…1 that they retain a certain granular skeleton structure. The biochar fragments are all granular, with clear outlines and rich pore structures [20] . It can be seen from the gure that there are signi cant differences between the modi ed biochar and the unmodi ed biochar samples.…”

The mechanism of Pb(II) and Cd(II) removal by coffee grounds biochar: Role of KOH modification

Effects of Biochar on Sludge Composting

The high dose of biochar reduces polycyclic aromatic hydrocarbons losses during co-composting of sewage sludge and wheat straw