The core of a certain reflected reactor consists of a cylinder 320 cm high and 320 cm in diameter. The measured maximum-to-average flux is 1.29. When the reactor is operated at a power level of 825 MW, what is the maximum power density in the reactor in kW/L? Given: • Height, H = 320 cm; • Diameter, D = 320 cm; • Maximum-to-Average flux, N= 1.29. Question 1) Check all correct values. 1 kW/L = ? O 1 Wicm O 10 KW/m³ O 100 kWm? 0 1 MW/m? Question 2) requires an answer in kW/L with a margin of error of 0.1%. Maximum power density, Pmax = Number kW/L.
The core of a certain reflected reactor consists of a cylinder 320 cm high and 320 cm in diameter. The measured maximum-to-average flux is 1.29. When the reactor is operated at a power level of 825 MW, what is the maximum power density in the reactor in kW/L? Given: • Height, H = 320 cm; • Diameter, D = 320 cm; • Maximum-to-Average flux, N= 1.29. Question 1) Check all correct values. 1 kW/L = ? O 1 Wicm O 10 KW/m³ O 100 kWm? 0 1 MW/m? Question 2) requires an answer in kW/L with a margin of error of 0.1%. Maximum power density, Pmax = Number kW/L.
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Transcribed Image Text:The core of a certain reflected reactor consists of a cylinder 320 cm high and 320 cm
in diameter. The measured maximum-to-average flux is 1.29. When the reactor is
operated at a power level of 825 MW, what is the maximum power density in the
reactor in kW/L?
Given:
• Height, H = 320 cm;
• Diameter, D = 320 cm;
• Maximum-to-Average flux, N = 1.29.
Question 1) Check all correct values.
1 kW/L = ?
O 1 W/cm3 O 10 kW/m³
100 kW/m?
1 MW/m3
Question 2) requires an answer in kW/L with a margin of error of 0.1%.
Maximum power density, Pmax
Number
kW/L.
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