1 |
Influence of the addition of titanium oxide nanoparticles to Fischer-Tropsch diesel synthesised from coal on the combustion characteristics and particulate emission of a diesel engine Geng LM, Li SJ, Xiao YG, Chen H, Chen XB, Ma YL Process Safety and Environmental Protection, 145, 411, 2021 |
2 |
Techno-economic and georeferenced analysis of forestry residues-based Fischer-Tropsch diesel with carbon capture in Brazil Tagomori IS, Rochedo PRR, Szklo A Biomass & Bioenergy, 123, 134, 2019 |
3 |
Gas emissions and particulate matter of non-road diesel engine fueled with F-T diesel with EGR Zhong W, Yang JH, Li RN, Shuai L Energy Sources Part A-recovery Utilization and Environmental Effects, 41(5), 542, 2019 |
4 |
Autothermal reforming of Fischer-Tropsch diesel over alumina and ceria-zirconia supported catalysts Gonzalez AV, Karatzas X, Pettersson LJ Fuel, 107, 162, 2013 |
5 |
Greenhouse impact assessment of peat-based Fischer-Tropsch diesel life-cycle Kirkinen J, Soimakallio S, Makinen T, Savolainen I Energy Policy, 38(1), 301, 2010 |
6 |
Incentivizing wood-based Fischer-Tropsch diesel through financial policy instruments: An economic assessment for Norway Bright RM, Stromman AH Energy Policy, 38(11), 6849, 2010 |
7 |
Fischer-Tropsch diesel emulsions stabilised by microfibrillated cellulose and nonionic surfactants Lif A, Stenstad P, Syverud K, Nyden M, Holmberg K Journal of Colloid and Interface Science, 352(2), 585, 2010 |
8 |
Premixed ignition behavior of alternative diesel fuel-relevant compounds in a motored engine experiment Szybist JP, Boehman AL, Haworth DC, Koga H Combustion and Flame, 149(1-2), 112, 2007 |