Tag: Martin Tank Reservoir

The Transcontinental Aqueduct. Leg 10: Martin Tank Lake to the highest pumping station in Arizona, a distance of 200 miles.

The Martin Tank Lake dam is 2,260 feet wide and 230 feet high. The Lake will contain about 30,000 Acre-ft when full, about twenty-one hours worth of storage.

The elevation at the Martin Tank lake will top out at 5,220 feet with maximum water level at 5,210 feet. Because there is no water storage en route water will be pumped at all times at The aqueduct will first descend to 3980 feet, as it crosses the Rio Grande in La Mesa, a distance of 50 miles. The elevation difference is (5,120 – 3980 – 50 X 2.2) feet = 1.030 feet. Releasing 16,900 cfs of water 1,030 feet will generate 1.285GW of energy continuously. From La Mesa it will climb to the highest pumping station in Arizona, located 10 miles west of the border, at 4,200 feet. The total lift of the water in stage 10 is (4,200 – 3980 + 160×2.2) feet = 572 ft. To lift 16,900 cubic feet per second 592 feet requires 892 MW of power, for a net electricity generation of 393 MW.

What’s in it for New Mexico and Arizona? Up to 16,900 cfs of soft water is being delivered to the thirsty south western states. This corresponds to 12 Million Acre-feet per year. The Colorado river contributes 15 MAF/year.

The Transcontinental Aqueduct. Leg 9: From the North Hammock Canyon to the Martin Tank Lake.

Leg 8 ended in the North Hammock Canyon Reservoir. It will be filled mostly during the 5 hours of peak power generation. During the other 19 hours the fill rate will be very low leading to lowering water levels.

Leg 9 starts with a 1/2 mile wide, 200 ft high reservoir capable of holding 12,000 acre-ft of water. It will be filled during the 5 hours of peak power. The average drop is (4,600 – 4210) = 390 ft and the flow is (12,000 / 5) = 2,400 acre-ft/hr, generating a net power of (390 x 2,400x 0.92) = 861 MW during the 5 peak hours.

From the North Hammock peak power reservoir to the Martin Tank Lake the distance is 59 miles the way the aqueduct takes. It will first descend to 3720 feet before rising to 5190 feet. The descending drop is (4200 – 3720 – 2.2 x 9), an average of 460 feet. The Martin Canyon Lake will top out at 5200 feet with maximum water level at 5190 feet. The total lift of the water in this stage is (5190 – 3720 + 50×2.2) feet = 1580 ft. To lift 21,400 cubic feet per second (1580 x 1.08 – 460 x 0.92) = 1283 feet requires eighteen 100 MW LFTR nuclear reactors. The Martin Tank Lake dam is 22260 feet wide and 230 feet high. It will contain about 30,000 Acre-ft when full, about eighteen hours worth of storage.

What’s in it for New Mexico? The major contribution in this stage is the 861 MW of pumped storage and 2,300 MW of virtual power storage for a total of ( (861 + 2300) x5) = 15.8 GWh per day.