로그인해주세요
ECCL에 오신것을 환영합니다!

(2017) Applied Energy_Pyrolysis process of agricultural waste using CO2 for waste management, energy recovery, and biochar fabrication

(2017) Applied Energy_Pyrolysis process of agricultural waste using CO2 for waste management, energy recovery, and biochar fabrication

 

Lee J., Yang X., Cho S.-H., Kim J.-K., Lee S.S., Tsang D.C.W., Ok Y.S., Kwon E.E.

 

(Elsevier Ltd) Applied Energy ISSN: 3062619 Vol.185 Issue. Article No. DOI: 10.1016/j.apenergy.2016.10.092

 

This study focused on the mechanistic understanding of CO2 in pyrolysis process of agricultural waste to achieve waste management, energy recovery, and biochar fabrication. In order to scrutinize the genuine role of CO2 in the biomass pyrolysis, all pyrogenic products such as syngas, pyrolytic oil (i.e., tar), and biochar generated from pyrolysis of red pepper stalk in N2 and CO2 were characterized. Thermo-gravimetric analysis confirmed that during the thermolysis of red pepper stalk, the magnitude of exothermic reaction in CO2 from 220 to 400 °C was substantially different from that in N2, resulting in the different extents of carbonization. The physico-chemical properties of biochar produced in CO2 were varied compared to biochar produced in N2. For example, the surface area of biochar produced in CO2 was increased from 32.46 to 109.15 m2 g−1. This study validates the role of CO2 not only as expediting agent for the thermal cracking of volatile organic carbons (VOCs) but also as reacting agent with VOCs. This genuine influence of CO2 in pyrolysis of red pepper stalk led to enhanced generation of syngas, which consequently reduced tar production because VOCs evolving from devolatilization of biomass served as substrates for syngas via reaction between CO2 and VOCs. The enhanced generation of CO reached up to 3000 and 6000% at 600 and 690 °C, respectively, whereas 33.8% tar reduction in CO2 was identified at 600 °C. © 2016 Elsevier Ltd

 

This work was supported by the National Research Foundation of Korea (NRF) Grant funded by the Korean Government (MSIP) (No. 2014RA1A004893). This work was also supported by a National Research Foundation of Korea (NRF) Grant funded by the Korean Government (MSIP) (No. NRF-2015H1D3A1066513). Biochar characterization was performed at Central Laboratory of Kangwon National University. 

Publication의 다른 글