Heat exchangers are the most widely used in chemical processes that allow transfer of thermal energy between two or more fluid at different temperatures. The operation can be make between liquid-liquid, gas-gas or liquid-gas. In this study, a specific type of heat exchanger called Kenics has been studied. The main goal of this work is reviewing types of static mixers, related heat transfer and defining important parameters such as pressure, density, output temperature and pressure effects on various parameters like heat transfer coefficient. Results of this analysis have been studied with previous research indicating that proper validation is reached. The results show that temperature and pressure increasing have significant effects on maximum speed that can be adapted to increase the equipment volumetric flow such as valves after the mixer. More studies on effects of geometric spiral mixer will be visible on the heat transfer coefficient, which indicates the heat transfer rate will be increased. In this study, five cases for a type of static mixers that were generated in Kenics Manufacturing Co. chemineer have been studied for better understand mixer's behavior in different situations. In this paper supercritical carbon dioxide considered as working fluid.
Geometry
impact and mixing of two liquid bodies of the same material
IMPACT OF A WATER-FILLED BOTTLE Eulerian-Lagrangian
Deflection of an elastic dam under water pressure
EULERIAN ANALYSIS OF A COLLAPSING WATER COLUMN
bending process using ABAQUS
Crack LEFM
Damage simulation
Chip formation