CHIS Q1. Evaluate the intensity of solar radiation for 15 March 2019, given solar constant (Isc) = 1800 W/m². Q2. Evaluate the intensity of solar radiation for 28 August 2019, given solar constant (Isc) = 1500 W/m². Q3. A solar module with an area of 1.646 m², gives a current at maximum power point of 8.08A and voltage of 29.72 V. Calculate the maximum power and efficiency of the module if power density is 1000 W/m2.
CHIS Q1. Evaluate the intensity of solar radiation for 15 March 2019, given solar constant (Isc) = 1800 W/m². Q2. Evaluate the intensity of solar radiation for 28 August 2019, given solar constant (Isc) = 1500 W/m². Q3. A solar module with an area of 1.646 m², gives a current at maximum power point of 8.08A and voltage of 29.72 V. Calculate the maximum power and efficiency of the module if power density is 1000 W/m2.
Introductory Circuit Analysis (13th Edition)
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Author:Robert L. Boylestad
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Transcribed Image Text:Practice Problems
Q1. Evaluate the intensity of solar radiation for 15 March
2019, given solar constant (Isc) = 1800 W/m².
Q2. Evaluate the intensity of solar radiation for 28 August
2019, given solar constant (Isc)= 1500 W/m2.
Q3. A solar module with an area of 1.646 m², gives a
current at maximum power point of 8.08A and
voltage of 29.72 V. Calculate the maximum power
and efficiency of the module if power density is
1000 W/m2.
Q4. Calculate the output power from a module if its
efficiency is 22% and 17%, input power density is
1000 W/m2 and area of the module is 58.7 inch by 39
inch (1 inch2= 0,00064516 m²).
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