41 |
Industrial scale garage-type dry fermentation of municipal solid waste to biogas Qian MY, Li RH, Li J, Wedwitschka H, Nelles M, Stinner W, Zhou HJ Bioresource Technology, 217, 82, 2016 |
42 |
Employing TiO2 photocatalysis to deal with landfill leachate: Current status and development Hassan M, Zhao YP, Xie B Chemical Engineering Journal, 285, 264, 2016 |
43 |
A particle scale model for municipal solid waste and refuse-derived fuels pyrolysis Younan Y, van Goethem MWM, Stefanidis GD Computers & Chemical Engineering, 86, 148, 2016 |
44 |
Exergoeconomic valuation of a waste-based integrated combined cycle (WICC) for heat and power production Ledon YC, Gonzalez P, Concha S, Zaror CA, Arteaga-Perez LE Energy, 114, 239, 2016 |
45 |
Experimental study on gasification performance of bamboo and PE from municipal solid waste in a bench-scale fixed bed reactor Zheng XY, Chen C, Ying Z, Wang B Energy Conversion and Management, 117, 393, 2016 |
46 |
The efficacy of an anaerobic digester-based power production from various feedstocks Thomas P, Soren N, Rumjit NP, James JG Energy Sources Part A-recovery Utilization and Environmental Effects, 38(22), 3315, 2016 |
47 |
The combined effect of plastics and food waste accelerates the thermal decomposition of refuse-derived fuels and fuel blends Edo M, Budarin V, Aracil I, Persson PE, Jansson S Fuel, 180, 424, 2016 |
48 |
Supercritical water gasification of RDF and its components over RuO2/gamma-Al2O3 catalyst: New insights into RuO2 catalytic reaction mechanisms Onwudili JA Fuel, 181, 157, 2016 |
49 |
Numerical and experimental investigation on co-combustion characteristics of hydrothermally treated municipal solid waste with coal in a fluidized bed Lu L, Ismail TM, Jin YQ, El-Salam MA, Yoshikawa K Fuel Processing Technology, 154, 52, 2016 |
50 |
Assessment of environmental and economic performance of Waste-to-Energy facilities in Thai cities Menikpura SNM, Sang-Arun J, Bengtsson M Renewable Energy, 86, 576, 2016 |