A fuel rod of a PWR consists of about 320 solid fuel pellets inside a zircaloy cladding. Use the specified data to plot the distribution of temperature in the fuel rod. The temperature distribution should include the fuel region, the gap region, the cladding region, and end at the bulk coolant for two cases of low and high lin- ear heat generation rates. Data: DFuel = 0.96 cm, Dinside Clad = 0.985 cm, Doutside Clad = 1.12 cm, kFuel = 1.73 W/m C, kClad = 5.2 W/m-C, Twater = 300 C, Low = 5 kW/ft (164 W/cm), and 4'High from the fuel rod to bulk coolant is 34 kW/m2-C. The heat transfer coefficient in the gap region is 5.7 kW/m2.C for the low and is 11.4 kW/m2-C for the high linear heat generation rate. %3D %3D = 15 kW/ft (492 W/cm). The heat transfer coefficient

A fuel rod of a PWR consists of about 320 solid fuel pellets inside a zircaloy cladding. Use the specified data to plot the distribution of temperature in the fuel rod. The temperature distribution should include the fuel region, the gap region, the cladding region, and end at the bulk coolant for two cases of low and high lin- ear heat generation rates. Data: DFuel = 0.96 cm, Dinside Clad = 0.985 cm, Doutside Clad = 1.12 cm, kFuel = 1.73 W/m C, kClad = 5.2 W/m-C, Twater = 300 C, Low = 5 kW/ft (164 W/cm), and 4'High from the fuel rod to bulk coolant is 34 kW/m2-C. The heat transfer coefficient in the gap region is 5.7 kW/m2.C for the low and is 11.4 kW/m2-C for the high linear heat generation rate. %3D %3D = 15 kW/ft (492 W/cm). The heat transfer coefficient

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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