Anders Åkesjö
Anders Åkesjö research is focused upon hydrodynamics and heat transfer in vertical falling film evaporators. By deepening the knowledge about how these physical phenomenon affect each other it is possible to improve the energy efficiency.
Falling film evaporation, as all thermal separation techniques, is inherently energy intensive, thus there is a great potential to save energy.

Showing 10 publications
Sodium salt scaling in black liquor evaporators and the effects of the addition of tall oil brine
Experimental and numerical study of heat transfer in a large-scale vertical falling film pilot unit
On the measuring of film thickness profiles and local heat transfer coefficients in falling films
Effect of Co-flowing Vapor during Vertical Falling-film Evaporation
New measurement approaches for film thickness and wall temperature in falling film heat exchangers
Dissolution rate of sodium salt scales in falling film evaporators
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Showing 5 research projects
Development of resource-efficient chemical processes, part 2
Strategies to minimize fouling in black liquor evaporators
Energy efficient falling-film evaporation through modified heating surfaces
High-efficiency evaporation technology for pulp-mill based biorefineries