Effective Carbon Dioxide Mitigation and Improvement of Compost Nutrients with the Use of Composts’ Biochar

Abstract: Composting is a process that emits environmentally harmful gases: CO2, CO, H2S, and NH3, negatively affecting the quality of mature compost. The addition of biochar to the compost can significantly reduce emissions. For effective CO2 removal, high doses of biochar (up to 20%) are often recommended. Nevertheless, as the production efficiency of biochar is low—up to 90% mass loss—there is a need for research into the effectiveness of lower doses. In this study, laboratory experiments were conducted to observe th… Show more

“…To reduce atmospheric CO 2 , numerous efforts employing various innovative methods have been made, including the reduction of CO 2 through photochemical, 17–19 electrochemical 20–23 and biological approaches 24 into valuable compounds such as formic acid, formaldehyde, methanol and hydrocarbons; the co-reduction with nitrate to produce urea; 25 the incorporation of CO 2 into polymer main chains via copolymerization; 26–28 and composting with biomass. 29,30 These methods offer new avenues for fixing CO 2 and producing materials composed of it. However, these methods have not yet been effective enough to significantly reduce atmospheric CO 2 concentrations.…”

Utilization of CO₂-captured poly(allylamine) as a polymer surfactant for nanoarchitecture production in a closed CO₂ cycle

“…To reduce atmospheric CO 2 , numerous efforts employing various innovative methods have been made, including the reduction of CO 2 through photochemical, 17–19 electrochemical 20–23 and biological approaches 24 into valuable compounds such as formic acid, formaldehyde, methanol and hydrocarbons; the co-reduction with nitrate to produce urea; 25 the incorporation of CO 2 into polymer main chains via copolymerization; 26–28 and composting with biomass. 29,30 These methods offer new avenues for fixing CO 2 and producing materials composed of it. However, these methods have not yet been effective enough to significantly reduce atmospheric CO 2 concentrations.…”

Utilization of CO₂-captured poly(allylamine) as a polymer surfactant for nanoarchitecture production in a closed CO₂ cycle

Heracleum sosnowskyi pyrolysis – Energy and environmental aspects of biochar utilization

Optimizing the early-stage of composting process emissions – artificial intelligence primary tests