In a wind farm the following information is given: Average wind speed = 8 m/s, Rotor diameter = 80 m Coefficient of performance= C,= 0.45, Air Density p = 1.25 Kg/m³ Compute the number of wind turbines in order to produce the equivalent energy of a 600 MW CCGT operating at 80% of the load factor. In example 1, if the regular spacing of turbines is 5 times the rotor diameter, and for a gas generator, tonnes of CO2 / GWh of electrical output is 405, calculate: (i) The number of turbines per Km². (ii) The total ground area required in Km?. (ii) The Per day CO2 emission saved in tonnes.
In a wind farm the following information is given: Average wind speed = 8 m/s, Rotor diameter = 80 m Coefficient of performance= C,= 0.45, Air Density p = 1.25 Kg/m³ Compute the number of wind turbines in order to produce the equivalent energy of a 600 MW CCGT operating at 80% of the load factor. In example 1, if the regular spacing of turbines is 5 times the rotor diameter, and for a gas generator, tonnes of CO2 / GWh of electrical output is 405, calculate: (i) The number of turbines per Km². (ii) The total ground area required in Km?. (ii) The Per day CO2 emission saved in tonnes.
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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Transcribed Image Text:In a wind farm the following information is given:
Average wind speed = 8 m/s,
Rotor diameter = 80 m
Coefficient of performance= C,= 0.45,
Air Density p = 1.25 Kg/m³
Compute the number of wind turbines in order to produce the equivalent energy of
a 600 MW CCGT operating at 80% of the load factor.
In example 1, if the regular spacing of turbines is 5 times the rotor diameter, and
for a gas generator, tonnes of CO2 / GWh of electrical output is 405, calculate:
(i) The number of turbines per Km².
(ii) The total ground area required in Km?.
(ii) The Per day CO2 emission saved in tonnes.
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