Abstract
As a fundamental study on a heat transport system utilizing a magnetic fluid two-phase flow, forced convective boiling heat transfer of water-solvent magnetic fluid with magnetite particles of 29.9 wt% was investigated experimentally in a thin tube 4.01 mm in diameter under a magnetic field with constant gradient of 3.85×106 A/m2. When a region downstream from the point of maximum magnetic field strength was heated, the boiling heat transfer was reduced by the application of a magnetic field. When a upstream region was heated, the boiling heat transfer was reduced and wall temperature fluctuated by the field.
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