Eco-friendly Flame-Retardant Cellulose Nanofibril Aerogels by Incorporating Sodium Bicarbonate M Farooq, MH Sipponen, A Seppälä, M Österberg ACS Applied Materials and Interfaces 10 (32), 27407-27415, 2018 | 122 | 2018 |
Influence of particle size and shape on turbulent heat transfer characteristics and pressure losses in water-based nanofluids A Meriläinen, A Seppälä, K Saari, J Seitsonen, J Ruokolainen, S Puisto, ... International journal of heat and mass transfer 61, 439-448, 2013 | 109 | 2013 |
Correct interpretation of nanofluid convective heat transfer MH Buschmann, R Azizian, T Kempe, JE Juliá, R Martínez-Cuenca, ... International Journal of Thermal Sciences 129, 504-531, 2018 | 91 | 2018 |
Thermodynamic optimizing of pressure-retarded osmosis power generation systems A Seppälä, MJ Lampinen Journal of Membrane Science 161 (1-2), 115-138, 1999 | 85 | 1999 |
Influence of particle properties on convective heat transfer of nanofluids V Mikkola, S Puupponen, H Granbohm, K Saari, T Ala-Nissila, A Seppälä International Journal of Thermal Sciences 124, 187-195, 2018 | 82 | 2018 |
Cellulose nanofibrils endow phase-change polyethylene glycol with form control and solid-to-gel transition for thermal energy storage MR Yazdani, R Ajdary, A Kankkunen, OJ Rojas, A Seppälä ACS Applied Materials & Interfaces 13 (5), 6188-6200, 2021 | 79 | 2021 |
Novel microstructured polyol–polystyrene composites for seasonal heat storage S Puupponen, V Mikkola, T Ala-Nissila, A Seppälä Applied energy 172, 96-106, 2016 | 63 | 2016 |
The effect of additives on the speed of the crystallization front of xylitol with various degrees of supercooling A Seppälä, A Meriläinen, L Wikström, P Kauranen Experimental Thermal and Fluid Science 34 (5), 523-527, 2010 | 60 | 2010 |
Ionic cross-linked polyvinyl alcohol tunes vitrification and cold-crystallization of sugar alcohol for long-term thermal energy storage MR Yazdani, J Etula, JB Zimmerman, A Seppälä Green Chemistry 22 (16), 5447-5462, 2020 | 57 | 2020 |
Preparation of paraffin and fatty acid phase changing nanoemulsions for heat transfer S Puupponen, A Seppälä, O Vartia, K Saari, T Ala-Nissilä Thermochimica acta 601, 33-38, 2015 | 53 | 2015 |
On the non-linearity of osmotic flow A Seppälä, MJ Lampinen Experimental Thermal and Fluid Science 28 (4), 283-296, 2004 | 46 | 2004 |
Cold-crystallization of polyelectrolyte absorbed polyol for long-term thermal energy storage S Puupponen, A Seppälä Solar Energy Materials and Solar Cells 180, 59-66, 2018 | 45 | 2018 |
Turbulent heat transfer characteristics in a circular tube and thermal properties of n-decane-in-water nanoemulsion fluids and micelles-in-water fluids S Saarinen, S Puupponen, A Meriläinen, A Joneidi, A Seppälä, K Saari, ... International journal of heat and mass transfer 81, 246-251, 2015 | 39 | 2015 |
Thermal properties and convective heat transfer of phase changing paraffin nanofluids V Mikkola, S Puupponen, K Saari, T Ala-Nissila, A Seppälä International Journal of Thermal Sciences 117, 163-171, 2017 | 38 | 2017 |
Minimizing specific energy consumption of oxygen enrichment in polymeric hollow fiber membrane modules A Meriläinen, A Seppälä, P Kauranen Applied energy 94, 285-294, 2012 | 38 | 2012 |
Cold-crystallizing erythritol-polyelectrolyte: Scaling up reliable long-term heat storage material K Turunen, MR Yazdani, S Puupponen, A Santasalo-Aarnio, A Seppälä Applied energy 266, 114890, 2020 | 32 | 2020 |
On the applicability of discrete dipole approximation for plasmonic particles OS Vartia, P Ylä-Oijala, J Markkanen, S Puupponen, A Seppälä, ... Journal of Quantitative Spectroscopy and Radiative Transfer 169, 23-35, 2016 | 26 | 2016 |
Exceptional cold-crystallization kinetics of erythritol-polyelectrolyte enables long-term thermal energy storage K Turunen, MR Yazdani, A Santasalo-Aarnio, A Seppälä Solar Energy Materials and Solar Cells 230, 111273, 2021 | 24 | 2021 |
Thermal conductivity of sugar alcohols A Seppälä, K Turunen, MR Yazdani Solar Energy Materials and Solar Cells 243, 111796, 2022 | 22 | 2022 |
Interplant heat exchanger network synthesis using nanofluids for interplant heat exchange T Laukkanen, A Seppälä Applied thermal engineering 135, 133-144, 2018 | 20 | 2018 |