Engineering
Engineering, 13.10.2020 03:01, querline87

Uniform internal heat generation at q˙⁢ = 5.00 × 107 W/m3 is occurring in a cylindrical nuclear reactor fuel rod of 43-mm diameter, and under steady-state conditions the temperature distribution is of the form T(r)=a+br2 , where T is in degrees Celsius and r is in meters, while a= 800 °C and b= -4.167 × 105 °C/m2. The fuel rod properties are k= 30 W/m·K, rho= 1100 kg/m3, and cp= 800 J/kg·K. What is the rate of heat transfer per unit length of the rod at r = 0 (the centerline) and at r = 25 mm (the surface)? If the reactor power level is suddenly increased to q2 = 108 W/m3, what is the initial time rate of temperature change at r = 0 and r = 25 mm?

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