| An overview of the chemical composition of biomass SV Vassilev, D Baxter, LK Andersen, CG Vassileva Fuel 89 (5), 913-933, 2010 | 2756 | 2010 |
| An overview of the organic and inorganic phase composition of biomass SV Vassilev, D Baxter, LK Andersen, CG Vassileva, TJ Morgan Fuel 94, 1-33, 2012 | 1108 | 2012 |
| An overview of the composition and application of biomass ash. Part 1. Phase–mineral and chemical composition and classification SV Vassilev, D Baxter, LK Andersen, CG Vassileva Fuel 105, 40-76, 2013 | 1072 | 2013 |
| Advantages and disadvantages of composition and properties of biomass in comparison with coal: An overview SV Vassilev, CG Vassileva, VS Vassilev Fuel 158, 330-350, 2015 | 708 | 2015 |
| An overview of the composition and application of biomass ash.: Part 2. Potential utilisation, technological and ecological advantages and challenges SV Vassilev, D Baxter, LK Andersen, CG Vassileva Fuel 105, 19-39, 2013 | 543 | 2013 |
| A new approach for the classification of coal fly ashes based on their origin, composition, properties, and behaviour SV Vassilev, CG Vassileva Fuel 86 (10-11), 1490-1512, 2007 | 524 | 2007 |
| An overview of the behaviour of biomass during combustion: Part I. Phase-mineral transformations of organic and inorganic matter SV Vassilev, D Baxter, CG Vassileva Fuel 112, 391-449, 2013 | 455 | 2013 |
| Influence of mineral and chemical composition of coal ashes on their fusibility SV Vassilev, K Kitano, S Takeda, T Tsurue Fuel Processing Technology 45 (1), 27-51, 1995 | 435 | 1995 |
| Composition, properties and challenges of algae biomass for biofuel application: An overview SV Vassilev, CG Vassileva Fuel 181, 1-33, 2016 | 427 | 2016 |
| An overview of the behaviour of biomass during combustion: Part II. Ash fusion and ash formation mechanisms of biomass types SV Vassilev, D Baxter, CG Vassileva Fuel 117, 152-183, 2014 | 398 | 2014 |
| Ash contents and ash-forming elements of biomass and their significance for solid biofuel combustion SV Vassilev, CG Vassileva, YC Song, WY Li, J Feng Fuel 208, 377-409, 2017 | 341 | 2017 |
| Methods for characterization of composition of fly ashes from coal-fired power stations: a critical overview SV Vassilev, CG Vassileva Energy & Fuels 19 (3), 1084-1098, 2005 | 299 | 2005 |
| Mineralogy of combustion wastes from coal-fired power stations SV Vassilev, CG Vassileva Fuel Processing Technology 47 (3), 261-280, 1996 | 291 | 1996 |
| Occurrence, abundance and origin of minerals in coals and coal ashes SV Vassilev, CG Vassileva Fuel processing technology 48 (2), 85-106, 1996 | 252 | 1996 |
| Phase-mineral and chemical composition of coal fly ashes as a basis for their multicomponent utilization. 1. Characterization of feed coals and fly ashes☆ SV Vassilev, R Menendez, D Alvarez, M Diaz-Somoano, ... Fuel 82 (14), 1793-1811, 2003 | 242 | 2003 |
| Geochemistry of coals, coal ashes and combustion wastes from coal-fired power stations SV Vassilev, CG Vassileva Fuel Processing Technology 51 (1-2), 19-45, 1997 | 226 | 1997 |
| Behaviour of inorganic matter during heating of Bulgarian coals: 1. Lignites CG Vassileva, SV Vassilev Fuel Processing Technology 86 (12-13), 1297-1333, 2005 | 191 | 2005 |
| Methods for characterization of inorganic and mineral matter in coal: a critical overview SV Vassilev, JMD Tascón Energy & Fuels 17 (2), 271-281, 2003 | 178 | 2003 |
| Contents, modes of occurrence and origin of chlorine and bromine in coal SV Vassilev, GM Eskenazy, CG Vassileva Fuel 79 (8), 903-921, 2000 | 163 | 2000 |
| Phase-mineral and chemical composition of coal fly ashes as a basis for their multicomponent utilization. 2. Characterization of ceramic cenosphere and salt concentrates SV Vassilev, R Menendez, M Diaz-Somoano, MR Martinez-Tarazona Fuel 83 (4-5), 585-603, 2004 | 161 | 2004 |
