In this present work reports an orientation and flow rate involves the thermal performance of heat pipe. Grooved heat pipe was filled with CuO nanofluid and DI water. Thermal performance and their resistance are discussed. The heat pipe is an experimentally Analyzed with different orientation and flow rate of cooling component with same heat input.
Nanofluids stability on rest is important to
characterize the nanofluids thermophysical properties before
being used on different thermal systems. However, this stability
can be modified during devices operation because of different
thermal loads, fluid movements and phase changes. Particularly,
in Two Phase Closed-Thermosyphon (TPCT). Input response are
heat input, flow rate and inclination angle. Graphene and fe304
nanofluids used as working fluid in the fill ratio of 50%. An
attempt is made to optimise the process parameters with Response
Surface Methodology (RSM) using Box - Behnken design for
6063 aluminium alloy (AA) semi-circular two phase closed
thermosyphon (TPCT). Experiments are conducted by varying
the mass flow rates of water at condenser section and by varying
the heat input at evaporator section and varying inclination
angle. The effects of variables on the process parameters are
studied. The study, predominantly, aims at assessing how the
variables affect the process parameters.
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