| 1 |
Pyrolysis of saw dust with co-feeding of methanol
Li C, Zhang CT, Sun K, Zhang ZM, Zhang LJ, Zhang S, Liu Q, Hu GZ, Wang S, Hu X
Renewable Energy, 160, 1023, 2020 |
| 2 |
Artificial neural network model to predict behavior of biogas production curve from mixed lignocellulosic co-substrates
Das Ghatak M, Ghatak A
Fuel, 232, 178, 2018 |
| 3 |
Sulfur K-edge XAS study of sulfur transformation behavior during pyrolysis and co-pyrolysis of biomass and coals under different atmospheres
Guo HQ, Fu Q, Zhang L, Liu FR, Hu YF, Zhang H, Hu RS
Fuel, 234, 1322, 2018 |
| 4 |
Performance, kinetics, and equilibrium of methylene blue adsorption on biochar derived from eucalyptus saw dust modified with citric, tartaric, and acetic acids
Sun L, Chen DM, Wan SG, Yu ZB
Bioresource Technology, 198, 300, 2015 |
| 5 |
GASEOUS EMISSION AND THERMAL ANALYSIS DURING CO-COMBUSTION OF OIL SHALE SEMICOKE AND SAWDUST USING TG-FTIR
Wang Q, Xuan Y, Liu HP, Li XY, Chi MS
Oil Shale, 32(4), 356, 2015 |
| 6 |
Study on kinetic parameters of different biomass samples using thermo-gravimetric analysis
Parthasarathy P, Narayanan KS, Arockiam L
Biomass & Bioenergy, 58, 58, 2013 |
| 7 |
Co-pyrolysis behaviors of saw dust and Shenfu coal in drop tube furnace and fixed bed reactor
Li SD, Chen XL, Wang L, Liu AB, Yu GS
Bioresource Technology, 148, 24, 2013 |
| 8 |
Application of Chattim tree (devil tree, Alstonia scholaris) saw dust as a biosorbent for removal of hexavalent chromium from contaminated water
Saha R, Saha I, Nandi R, Ghosh A, Basu A, Ghosh SK, Saha B
Canadian Journal of Chemical Engineering, 91(5), 814, 2013 |
| 9 |
볏집, 톱밥 바이오매스와 석탄의 수증기 가스화반응 Kinetics 연구
송병호, 주쉬에얀
Korean Chemical Engineering Research, 50(1), 76, 2012 |
| 10 |
Studies on the adsorption of Brilliant Green dye from aqueous solution onto low-cost NaOH treated saw dust
Mane VS, Babu PVV
Desalination, 273(2-3), 321, 2011 |
