| Porous medical device and method for its manufacture E Suokas, P Törmälä, N Ashammakhi, H Ylänen, M Hupa US Patent 7,964,206, 2011 | 506 | 2011 |
| Catalytic pyrolysis of woody biomass in a fluidized bed reactor: influence of the zeolite structure A Aho, N Kumar, K Eränen, T Salmi, M Hupa, DY Murzin Fuel 87 (12), 2493-2501, 2008 | 467 | 2008 |
| Bed agglomeration characteristics during fluidized bed combustion of biomass fuels M Öhman, A Nordin, BJ Skrifvars, R Backman, M Hupa Energy & fuels 14 (1), 169-178, 2000 | 371 | 2000 |
| FTIR and XPS studies of bioactive silica based glasses J Serra, P González, S Liste, C Serra, S Chiussi, B León, M Pérez-Amor, ... Journal of Non-Crystalline Solids 332 (1-3), 20-27, 2003 | 291 | 2003 |
| The ash chemistry in fluidised bed gasification of biomass fuels. Part I: predicting the chemistry of melting ashes and ash–bed material interaction M Zevenhoven-Onderwater, R Backman, BJ Skrifvars, M Hupa Fuel 80 (10), 1489-1502, 2001 | 252 | 2001 |
| Chemical forms of ash-forming elements in woody biomass fuels J Werkelin, BJ Skrifvars, M Zevenhoven, B Holmbom, M Hupa Fuel 89 (2), 481-493, 2010 | 240 | 2010 |
| Antibacterial effects and dissolution behavior of six bioactive glasses D Zhang, O Leppäranta, E Munukka, H Ylänen, MK Viljanen, E Eerola, ... Journal of Biomedical Materials Research Part A: An Official Journal of The …, 2010 | 219 | 2010 |
| Homogeneous N2O chemistry at fluidized bed combustion conditions: A kinetic modeling study P Kilpinen, M Hupa Combustion and Flame 85 (1-2), 94-104, 1991 | 212 | 1991 |
| Cement manufacturing using alternative fuels and the advantages of process modelling U Kääntee, R Zevenhoven, R Backman, M Hupa Fuel processing technology 85 (4), 293-301, 2004 | 209 | 2004 |
| CFD modeling to study fluidized bed combustion and gasification RI Singh, A Brink, M Hupa Applied Thermal Engineering 52 (2), 585-614, 2013 | 201 | 2013 |
| Ash-forming elements in four Scandinavian wood species. Part 1: Summer harvest J Werkelin, BJ Skrifvars, M Hupa Biomass and Bioenergy 29 (6), 451-466, 2005 | 199 | 2005 |
| The prediction of behaviour of ashes from five different solid fuels in fluidised bed combustion M Zevenhoven-Onderwater, JP Blomquist, BJ Skrifvars, R Backman, ... Fuel 79 (11), 1353-1361, 2000 | 199 | 2000 |
| Antibacterial effect of bioactive glasses on clinically important anaerobic bacteria in vitro O Leppäranta, M Vaahtio, T Peltola, D Zhang, L Hupa, M Hupa, H Ylänen, ... Journal of Materials Science: Materials in Medicine 19 (2), 547-551, 2008 | 193 | 2008 |
| Ash-related issues in fluidized-bed combustion of biomasses: recent research highlights M Hupa Energy & Fuels 26 (1), 4-14, 2012 | 190 | 2012 |
| Reburning chemistry: a kinetic modeling study P Kilpinen, P Glarborg, M Hupa Industrial & engineering chemistry research 31 (6), 1477-1490, 1992 | 176 | 1992 |
| Influence of the non-bridging oxygen groups on the bioactivity of silicate glasses J Serra, P Gonzalez, S Liste, S Chiussi, B Leon, M Pérez-Amor, ... Journal of Materials science: Materials in medicine 13 (12), 1221-1225, 2002 | 171 | 2002 |
| Catalytic pyrolysis of biomass in a fluidized bed reactor: influence of the acidity of H-beta zeolite A Aho, N Kumar, K Eränen, T Salmi, M Hupa, DY Murzin Process Safety and Environmental Protection 85 (5), 473-480, 2007 | 170 | 2007 |
| Sintering mechanisms of FBC ashes BJ Skrifvars, M Hupa, R Backman, M Hiltunen Fuel 73 (2), 171-176, 1994 | 163 | 1994 |
| Fouling tendency of ash resulting from burning mixtures of biofuels. Part 1: Deposition rates M Theis, BJ Skrifvars, M Hupa, H Tran Fuel 85 (7-8), 1125-1130, 2006 | 159 | 2006 |
| Corrosion of superheater steel materials under alkali salt deposits Part 1: The effect of salt deposit composition and temperature BJ Skrifvars, R Backman, M Hupa, K Salmenoja, E Vakkilainen Corrosion Science 50 (5), 1274-1282, 2008 | 152 | 2008 |
Dmitry MurzinProfessor of Chemical Technology, Åbo Akademi UniversityVerified email at abo.fi
