We found a match
Your institution may have rights to this item. Sign in to continue.
- Title
Diffusive-inertial droplet separation model from two-phase flow.
- Authors
MIKIELEWICZ, JAROSŁAW; DOLNA, OKTAWIA; KWIDZIŃSKI, ROMAN
- Abstract
This paper concerns analytical considerations on a complex phenomenon which is diffusive-inertial droplet separation from the twophase vapour-liquid flow which occurs in many devices in the power industry (e.g. heat pumps, steam turbines, organic Rankine cycles, etc.). The new mathematical model is mostly devoted to the analysis of the mechanisms of diffusion and inertia influencing the distance at which a droplet separates from the two-phase flow and falls on a channel wall. The analytical model was validated based on experimental data. The results obtained through the analytical computations stay in a satisfactory agreement with available literature data.
- Subjects
TWO-phase flow; FLOW separation; CHANNEL flow; HEAT pumps; STEAM-turbines; RANKINE cycle
- Publication
Archives of Thermodynamics, 2021, Vol 42, Issue 3, p141
- ISSN
1231-0956
- Publication type
Article
- DOI
10.24425/ather.2021.138113