| 1 |
High-temperature corrosion due to lead chloride mixtures simulating fireside deposits in boilers firing recycled wood
Kinnunen H, Lindberg D, Lauren T, Uusitalo M, Bankiewicz D, Enestam S, Yrjas P
Fuel Processing Technology, 167, 306, 2017 |
| 2 |
Laboratory Studies of Potassium-Halide-Induced High-Temperature Corrosion of Superheater Steels. Part 2: Exposures in Wet Air
Wu H, Bankiewicz D, Yrjas P, Hupa M
Energy & Fuels, 29(4), 2709, 2015 |
| 3 |
Occurrence and sources of zinc in fuels
Jones F, Bankiewicz D, Hupa M
Fuel, 117, 763, 2014 |
| 4 |
Are NaCl and KCl equally corrosive on superheater materials of steam boilers?
Enestam S, Bankiewicz D, Tuiremo J, Makela K, Hupa M
Fuel, 104, 294, 2013 |
| 5 |
Experimental studies of Zn and Pb induced high temperature corrosion of two commercial boiler steels
Bankiewicz D, Enestam S, Yrjas P, Hupa M
Fuel Processing Technology, 105, 89, 2013 |
| 6 |
High temperature corrosion of boiler waterwalls induced by chlorides and bromides - Part 2: Lab-scale corrosion tests and thermodynamic equilibrium modeling of ash and gaseous species
Bankiewicz D, Vainikka P, Lindberg D, Frantsi A, Silvennoinen J, Yrjas P, Hupa M
Fuel, 94(1), 240, 2012 |
| 7 |
Role of ZnCl2 in High-Temperature Corrosion in a Bench-Scale Fluidized Bed Firing Simulated Waste Wood Pellets
Bankiewicz D, Alonso-Herranz E, Yrjas P, Lauren T, Spliethoff H, Hupa M
Energy & Fuels, 25(8), 3476, 2011 |
| 8 |
High temperature corrosion of boiler waterwalls induced by chlorides and bromides. Part 1: Occurrence of the corrosive ash forming elements in a fluidised bed boiler co-firing solid recovered fuel
Vainikka P, Bankiewicz D, Frantsi A, Silvennoinen J, Hannula J, Yrjas P, Hupa M
Fuel, 90(5), 2055, 2011 |
| 9 |
High-Temperature Corrosion of Superheater Tube Materials Exposed to Zinc Salts
Bankiewicz D, Yrjas P, Hupa M
Energy & Fuels, 23(7), 3469, 2009 |
