Sentence examples for maximum surface heat from inspiring English sources

The maximum surface heat transfer coefficient strongly depended on inlet pressure.

Thermo-mechanical analyses have pointed out that maximum surface heat flux on FW and divertor could be about 0.65 and <5 MW/m2, respectively.

A maximum surface heat flux of 325.99 wasm2 wachievedved using R134a spray cooling while the temperature of the test surface was about 42.4 °C at the flow rate of 2.15 L/min.

Based on the recommended material properties of AFS we found that the reference design can handle a maximum surface heat flux of 1 MW/m2, and a maximum neutron wall loading of 5.4 Mwith, with a gross thermal efficiency of 47%, while meeting all the tritium breeding, structural design and passive safety requirements.

Based on the material properties of AFS, we found that the reference design can handle a maximum surface heat flux of 1 MW/m2, and a maximum neutron wall loading of 5.4 Mwith, with a gross thermal efficiency of 47%, while meeting all the tritium breeding and structural design requirements.

Investigations were carried out to determine the potential and limits of the blanket and of a liquid-metal cooled divertor in terms of maximum acceptable surface heat flux.

These maxima in surface heat flow are good indicators of structural highs of the shallow reservoir.

As such, the local maxima in surface heat flow east of the major fault correlate with the shallowest parts of the Burano unit (see Fig. 13).

Hence, the heat-adapted person in humid climates is characteristically tall and thin, so that he has maximum surface area for heat radiation.

Hence, the heat-adapted person in humid climates is characteristically tall and thin, so that there is maximum surface area for heat radiation.

However, local maxima in the surface heat flow correlate with the shape of the Burano unit (see Figs. 9, 13) within which topography-driven advective heat transport takes place at relatively shallow depths.