Solar PV systems have large potential to produce large amounts of electricity in desert regions such as in Oman. It is proposed to build a very large solar PV system in the Al Sharqiya Desert to supply all of Oman's electricity needs which is about 28 x 109 kW-hr per year. If the average annual solar insolation in the Al Sharqiya Desert is 2400 kW-hr/m² per year, and assuming a solar cell efficiency of 20% and a system efficiency of 65%, A. What total PV area is required? B. If AI Sharqiya Desert has an area of 1.25 x 1010 m², what percentage of the desert will have to be covered with solar PV?
Solar PV systems have large potential to produce large amounts of electricity in desert regions such as in Oman. It is proposed to build a very large solar PV system in the Al Sharqiya Desert to supply all of Oman's electricity needs which is about 28 x 109 kW-hr per year. If the average annual solar insolation in the Al Sharqiya Desert is 2400 kW-hr/m² per year, and assuming a solar cell efficiency of 20% and a system efficiency of 65%, A. What total PV area is required? B. If AI Sharqiya Desert has an area of 1.25 x 1010 m², what percentage of the desert will have to be covered with solar PV?
Related questions
Question
Transcribed Image Text:Solar PV systems have large potential to produce large amounts of electricity in desert regions such as in Oman.
It is proposed to build a very large solar PV system in the Al Sharqiya Desert to supply all of Oman's electricity needs which is
about 28 x 10° kW-hr per year.
If the average annual solar insolation in the Al Sharqiya Desert is 2400 kW-hr/m² per year, and assuming a solar cell efficiency of
20% and a system efficiency of 65%,
A. What total PV area is required?
B. If AI Sharqiya Desert has an area of 1.25 x 1010 m², what percentage of the desert will have to be covered with solar
PV?
Expert Solution
This question has been solved!
Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.
Step by step
Solved in 4 steps
