Ville Vuorinen

Associate Professor
Associate Professor
T212 Mechanical Engineering

My multidisciplinary research team works in the field of computational fluid dynamics (CFD) in energy technology. In particular, we mostly utilize a modern high-performance computing technique called Large-Eddy Simulation (LES) in order to resolve liquid and gas flows in various applications. Also hybrid LES-RANS approaches are being used in the team. Our simulation platform is primarily the open source code OpenFOAM. Present doctoral thesis projects are involved with heat transfer, reacting flows, two-phase flows and hydrodynamics of energy efficient ships. Novel computational research topics involve development of modern, low-temperature combustion concepts for marine engines, simulation of cavitating and boiling flows,  primary atomization of biofuels and development of compact liquid cooling concepts.  We work in close collaboration with experimentalists. Our research methods are broadly applicable in various multidisciplinary applications in the society.

Full researcher profile
https://research.aalto.fi/...

Yhteystiedot

Sähköposti
[email protected]
Puhelinnumero
+358503611471

Osaamisalueet

Large Eddy Simulation, OpenFOAM, Combustion, Turbulence, Hydrogen, Emission reduction, Diesel engines, Biofuels

Palkinnot

Teknologiateollisuus Ry. Diesel- ja kaasumoottoritoimialaryhmän tunnustusapuraha Teknologiateollisuus ry, Finland

Palkinto tai huomionosoitus tuotoksesta Konetekniikan laitos Jan 2010

Tutkimusryhmät

  • Energy Conversion and Systems, Professori (Associate Professor)

Julkaisut

On the super adiabatic flame temperature (SAFT) of toluene primary reference fuels

Giang Bui, Atmadeep Bhattacharya, Ossi Kaario, Ville Vuorinen, Rupali Tripathi, Teemu Sarjovaara 2023 Fuel

Effect of Hydrogen Enhancement on Natural Flame Luminosity of Tri-Fuel Combustion in an Optical Engine

Qiang Cheng, Zeeshan Ahmad, Ossi Kaario, Ville Vuorinen, Martti Larmi 2022 Energies

A three-dimensional conjugate heat transfer model for methanol synthesis in a modular millireactor

Daulet Izbassarov, Judit Nyári, Alpo Laitinen, Arto Laari, Annukka Santasalo-Aarnio, Ville Vuorinen 2022 Chemical Engineering Science

Full-scale ship stern wave with the modelled and resolved turbulence including the hull roughness effect

Pekka Kanninen, Petteri Peltonen, Ville Vuorinen 2022 Ocean Engineering

Large-eddy simulation of diesel pilot spray ignition in lean methane-air and methanol-air mixtures at different ambient temperatures

Shervin Karimkashi, Mahmoud Gadalla, Jeevananthan Kannan, Bulut Tekgül, Ossi Kaario, Ville Vuorinen 2022 International Journal of Engine Research

Effects of hydrogen enrichment and turbulence intensity on the combustion mode in locally stratified dual-fuel mixtures of n-dodecane/methane

Shervin Karimkashi Arani, Ossi Kaario, Ville Vuorinen 2022 Applications in Energy and Combustion Science

Effects of wet combustion on NOx emissions reduction in laminar premixed ammonia/hydrogen/air flames: an analysis of NO formation pathways

Shervin Karimkashi Arani, Parsa Tamadonfar, Ossi Kaario, Ville Vuorinen 2022 1st Symposium on Ammonia Energy

Large-Eddy Simulation of two secondary air supply strategies in kraft recovery boilers

Alpo Laitinen, Erkki Laurila, Karri Keskinen, Ville Vuorinen 2022 Applied Thermal Engineering

Fast reactive flow simulations using analytical Jacobian and dynamic load balancing in OpenFOAM

Ilya Morev, Bulut Tekgül, Mahmoud Gadalla, Ali Shahanaghi, Jeevananthan Kannan, Shervin Karimkashi, Ossi Kaario, Ville Vuorinen 2022 PHYSICS OF FLUIDS

Choice of the kinetic model significantly affects the outcome of techno-economic assessments of CO2-based methanol synthesis

Judit Nyári, Daulet Izbassarov, Árpád I. Toldy, Ville Vuorinen, Annukka Santasalo-Aarnio 2022 Energy Conversion and Management