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| Ivanpah Unit 1 sits on a 1995 m x 1995 m square of land. |
Peak Rating of Units 1 + 2 + 3 = 392 MW
Electricity Generation Expected from Units 1 + 2 + 3 = 1,079,232 MWh/yr
Overall Capacity Factor for Units 1 + 2 + 3 = 0.314
Peak Rating of Unit 1 = 126 MW
Area of Unit 1's Square Field = 3,980,000 m2
Peak Rating of Unit 1 per unit of square field area = 31.7 W/m2
Levelized (100% capacity factor) rating of Unit 1 per unit of square field area = 0.314 * 31.7 w/m2 = 9.96 W/m2
U.S. per capita electricity consumption is 1400 W/person (at 100% capacity factor)
Per capita land claim for electricity (per Ivanpah Unit 1) would be 1400/9.96 = 141 m2 per person
According to page 1-3 of the environmental impact statement, the power tower is 140 m tall, and Unit 1 has 55,000 heliostats, each having 14.08 m2 of reflective surface.
Mirror area of Unit 1 = 14.08 m2 * 55,000 = 774,400 m2
mirror-area / square-field-area = 0.195
Telescopic heliostat fields are expected to produce 3 times the land yield of conventional heliostats, thereby reducing the land claim to 47 m2/person, increasing levelized (100% capacity factor) rating to 30 W/m2, and giving a 75% capacity factor (representative of a plant with half-day thermal storage) rating of 40 W/m2—all on the basis of square-field area.
75% capacity factor rating for a 1600 m x 1600 m unit would be 102 MW, or 920 MW on a quarter-township.
For these numbers to hold up, the mirror-area/square-field-area of a telescopic heliostat field must be better than 3 x 0.195 = 0.585
Starting from a covering factor of 0.91, and losing another 0.02 of covering factor around the lamp means that achieving 0.585 overall requires an intrinsic fill of 0.585/(0.91-0.02) = 0.66.
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