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WIND CATCHER MAX By: Pavel Lelyukh, James Napoli, Aneeqa Karu

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Page 1: WIND CATCHER MAX

WIND CATCHER MAXBy: Pavel Lelyukh, James Napoli, Aneeqa Karu

Page 2: WIND CATCHER MAX

HOW DOES OUR SYSTEM WORK?

As the air passes through the tower the pressure is decreased and wind velocity is increased to generate energy.

Page 3: WIND CATCHER MAX

WHY DOES OUR SYSTEM WORK?

It works because of the curved surfaces and the cooling effect of the cold water

Page 4: WIND CATCHER MAX

HOW IS OUR WATER USED?

75% Recy-cled

Water

25% Humid Air

Water Usage

Recycled Water Humid Air

75% is recycled for irrigation systems, and 25% is released as humid air to help plants grow in the dry climate.

Page 5: WIND CATCHER MAX

DRY, HOT, AND WINDY AREAS

WHERE DOES OUR SYSTEM WORK BEST?

Page 6: WIND CATCHER MAX

Wind Catcher MAX (high cost est.)

Wind Catcher MAX (low cost est.)

0% 10% 20% 30% 40% 50% 60% 70%

12%

59%

6%

57%

Savings compared to Solar and Wind

Wind Solar

Cost varies based on location and climate

Page 7: WIND CATCHER MAX

Wind Turbines

Solar Panels

Wind Catcher MAX (High est.)

Wind Catcher MAX (low est.)

0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000

27,600,000

29,000,000

26,000,000

12,000,000

COST for annual power production of 60 GWh

COST for annual power production of 60 GWh

OUR SYSTEM COMPARED TO OTHERS

Page 8: WIND CATCHER MAX

Page 9: WIND CATCHER MAX

WIND CATCHER MAXBy: Pavel Lelyukh, James Napoli, Aneeqa Karu

Page 10: WIND CATCHER MAX

HOW DOES OUR SYSTEM WORK?

As the air passes through the tower the pressure is decreased and wind velocity is increased to generate energy.

Page 11: WIND CATCHER MAX

WHY DOES OUR SYSTEM WORK?

It works because of the curved surfaces and the cooling effect of the cold water

Page 12: WIND CATCHER MAX

HOW IS OUR WATER USED?

75% Recy-cled

Water

25% Humid Air

Water Usage

Recycled Water Humid Air

75% is recycled for irrigation systems, and 25% is released as humid air to help plants grow in the dry climate.

Page 13: WIND CATCHER MAX

DRY, HOT, AND WINDY AREAS

WHERE DOES OUR SYSTEM WORK BEST?

Page 14: WIND CATCHER MAX

Wind Catcher MAX (high cost est.)

Wind Catcher MAX (low cost est.)

0% 10% 20% 30% 40% 50% 60% 70%

12%

59%

6%

57%

Savings compared to Solar and Wind

Wind Solar

Cost varies based on location and climate

Page 15: WIND CATCHER MAX

Wind Turbines

Solar Panels

Wind Catcher MAX (High est.)

Wind Catcher MAX (low est.)

0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000

27,600,000

29,000,000

26,000,000

12,000,000

COST for annual power production of 60 GWh

COST for annual power production of 60 GWh

OUR SYSTEM COMPARED TO OTHERS

Page 16: WIND CATCHER MAX

Page 17: WIND CATCHER MAX

WIND CATCHER MAXBy: Pavel Lelyukh, James Napoli, Aneeqa Karu

Page 18: WIND CATCHER MAX

HOW DOES OUR SYSTEM WORK?

As the air passes through the tower the pressure is decreased and wind velocity is increased to generate energy.

Page 19: WIND CATCHER MAX

WHY DOES OUR SYSTEM WORK?

It works because of the curved surfaces and the cooling effect of the cold water

Page 20: WIND CATCHER MAX

HOW IS OUR WATER USED?

75% Recy-cled

Water

25% Humid Air

Water Usage

Recycled Water Humid Air

75% is recycled for irrigation systems, and 25% is released as humid air to help plants grow in the dry climate.

Page 21: WIND CATCHER MAX

DRY, HOT, AND WINDY AREAS

WHERE DOES OUR SYSTEM WORK BEST?

Page 22: WIND CATCHER MAX

Wind Catcher MAX (high cost est.)

Wind Catcher MAX (low cost est.)

0% 10% 20% 30% 40% 50% 60% 70%

12%

59%

6%

57%

Savings compared to Solar and Wind

Wind Solar

Cost varies based on location and climate

Page 23: WIND CATCHER MAX

Wind Turbines

Solar Panels

Wind Catcher MAX (High est.)

Wind Catcher MAX (low est.)

0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000

27,600,000

29,000,000

26,000,000

12,000,000

COST for annual power production of 60 GWh

COST for annual power production of 60 GWh

OUR SYSTEM COMPARED TO OTHERS

Page 24: WIND CATCHER MAX

Page 25: WIND CATCHER MAX

WIND CATCHER MAXBy: Pavel Lelyukh, James Napoli, Aneeqa Karu

Page 26: WIND CATCHER MAX

HOW DOES OUR SYSTEM WORK?

As the air passes through the tower the pressure is decreased and wind velocity is increased to generate energy.

Page 27: WIND CATCHER MAX

WHY DOES OUR SYSTEM WORK?

It works because of the curved surfaces and the cooling effect of the cold water

Page 28: WIND CATCHER MAX

HOW IS OUR WATER USED?

75% Recy-cled

Water

25% Humid Air

Water Usage

Recycled Water Humid Air

75% is recycled for irrigation systems, and 25% is released as humid air to help plants grow in the dry climate.

Page 29: WIND CATCHER MAX

DRY, HOT, AND WINDY AREAS

WHERE DOES OUR SYSTEM WORK BEST?

Page 30: WIND CATCHER MAX

Wind Catcher MAX (high cost est.)

Wind Catcher MAX (low cost est.)

0% 10% 20% 30% 40% 50% 60% 70%

12%

59%

6%

57%

Savings compared to Solar and Wind

Wind Solar

Cost varies based on location and climate

Page 31: WIND CATCHER MAX

Wind Turbines

Solar Panels

Wind Catcher MAX (High est.)

Wind Catcher MAX (low est.)

0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000

27,600,000

29,000,000

26,000,000

12,000,000

COST for annual power production of 60 GWh

COST for annual power production of 60 GWh

OUR SYSTEM COMPARED TO OTHERS

Page 32: WIND CATCHER MAX

Page 33: WIND CATCHER MAX

WIND CATCHER MAXBy: Pavel Lelyukh, James Napoli, Aneeqa Karu

Page 34: WIND CATCHER MAX

HOW DOES OUR SYSTEM WORK?

As the air passes through the tower the pressure is decreased and wind velocity is increased to generate energy.

Page 35: WIND CATCHER MAX

WHY DOES OUR SYSTEM WORK?

It works because of the curved surfaces and the cooling effect of the cold water

Page 36: WIND CATCHER MAX

HOW IS OUR WATER USED?

75% Recy-cled

Water

25% Humid Air

Water Usage

Recycled Water Humid Air

75% is recycled for irrigation systems, and 25% is released as humid air to help plants grow in the dry climate.

Page 37: WIND CATCHER MAX

DRY, HOT, AND WINDY AREAS

WHERE DOES OUR SYSTEM WORK BEST?

Page 38: WIND CATCHER MAX

Wind Catcher MAX (high cost est.)

Wind Catcher MAX (low cost est.)

0% 10% 20% 30% 40% 50% 60% 70%

12%

59%

6%

57%

Savings compared to Solar and Wind

Wind Solar

Cost varies based on location and climate

Page 39: WIND CATCHER MAX

Wind Turbines

Solar Panels

Wind Catcher MAX (High est.)

Wind Catcher MAX (low est.)

0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000

27,600,000

29,000,000

26,000,000

12,000,000

COST for annual power production of 60 GWh

COST for annual power production of 60 GWh

OUR SYSTEM COMPARED TO OTHERS

Page 40: WIND CATCHER MAX

Page 41: WIND CATCHER MAX

WIND CATCHER MAXBy: Pavel Lelyukh, James Napoli, Aneeqa Karu

Page 42: WIND CATCHER MAX

HOW DOES OUR SYSTEM WORK?

As the air passes through the tower the pressure is decreased and wind velocity is increased to generate energy.

Page 43: WIND CATCHER MAX

WHY DOES OUR SYSTEM WORK?

It works because of the curved surfaces and the cooling effect of the cold water

Page 44: WIND CATCHER MAX

HOW IS OUR WATER USED?

75% Recy-cled

Water

25% Humid Air

Water Usage

Recycled Water Humid Air

75% is recycled for irrigation systems, and 25% is released as humid air to help plants grow in the dry climate.

Page 45: WIND CATCHER MAX

DRY, HOT, AND WINDY AREAS

WHERE DOES OUR SYSTEM WORK BEST?

Page 46: WIND CATCHER MAX

Wind Catcher MAX (high cost est.)

Wind Catcher MAX (low cost est.)

0% 10% 20% 30% 40% 50% 60% 70%

12%

59%

6%

57%

Savings compared to Solar and Wind

Wind Solar

Cost varies based on location and climate

Page 47: WIND CATCHER MAX

Wind Turbines

Solar Panels

Wind Catcher MAX (High est.)

Wind Catcher MAX (low est.)

0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000

27,600,000

29,000,000

26,000,000

12,000,000

COST for annual power production of 60 GWh

COST for annual power production of 60 GWh

OUR SYSTEM COMPARED TO OTHERS

Page 48: WIND CATCHER MAX

Page 49: WIND CATCHER MAX

WIND CATCHER MAXBy: Pavel Lelyukh, James Napoli, Aneeqa Karu

Page 50: WIND CATCHER MAX

HOW DOES OUR SYSTEM WORK?

As the air passes through the tower the pressure is decreased and wind velocity is increased to generate energy.

Page 51: WIND CATCHER MAX

WHY DOES OUR SYSTEM WORK?

It works because of the curved surfaces and the cooling effect of the cold water

Page 52: WIND CATCHER MAX

HOW IS OUR WATER USED?

75% Recy-cled

Water

25% Humid Air

Water Usage

Recycled Water Humid Air

75% is recycled for irrigation systems, and 25% is released as humid air to help plants grow in the dry climate.

Page 53: WIND CATCHER MAX

DRY, HOT, AND WINDY AREAS

WHERE DOES OUR SYSTEM WORK BEST?

Page 54: WIND CATCHER MAX

Wind Catcher MAX (high cost est.)

Wind Catcher MAX (low cost est.)

0% 10% 20% 30% 40% 50% 60% 70%

12%

59%

6%

57%

Savings compared to Solar and Wind

Wind Solar

Cost varies based on location and climate

Page 55: WIND CATCHER MAX

Wind Turbines

Solar Panels

Wind Catcher MAX (High est.)

Wind Catcher MAX (low est.)

0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000

27,600,000

29,000,000

26,000,000

12,000,000

COST for annual power production of 60 GWh

COST for annual power production of 60 GWh

OUR SYSTEM COMPARED TO OTHERS

Page 56: WIND CATCHER MAX

Page 57: WIND CATCHER MAX

WIND CATCHER MAXBy: Pavel Lelyukh, James Napoli, Aneeqa Karu

Page 58: WIND CATCHER MAX

HOW DOES OUR SYSTEM WORK?

As the air passes through the tower the pressure is decreased and wind velocity is increased to generate energy.

Page 59: WIND CATCHER MAX

WHY DOES OUR SYSTEM WORK?

It works because of the curved surfaces and the cooling effect of the cold water

Page 60: WIND CATCHER MAX

HOW IS OUR WATER USED?

75% Recy-cled

Water

25% Humid Air

Water Usage

Recycled Water Humid Air

75% is recycled for irrigation systems, and 25% is released as humid air to help plants grow in the dry climate.

Page 61: WIND CATCHER MAX

DRY, HOT, AND WINDY AREAS

WHERE DOES OUR SYSTEM WORK BEST?

Page 62: WIND CATCHER MAX

Wind Catcher MAX (high cost est.)

Wind Catcher MAX (low cost est.)

0% 10% 20% 30% 40% 50% 60% 70%

12%

59%

6%

57%

Savings compared to Solar and Wind

Wind Solar

Cost varies based on location and climate

Page 63: WIND CATCHER MAX

Wind Turbines

Solar Panels

Wind Catcher MAX (High est.)

Wind Catcher MAX (low est.)

0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000

27,600,000

29,000,000

26,000,000

12,000,000

COST for annual power production of 60 GWh

COST for annual power production of 60 GWh

OUR SYSTEM COMPARED TO OTHERS

Page 64: WIND CATCHER MAX

Page 65: WIND CATCHER MAX

WIND CATCHER MAXBy: Pavel Lelyukh, James Napoli, Aneeqa Karu

Page 66: WIND CATCHER MAX

HOW DOES OUR SYSTEM WORK?

As the air passes through the tower the pressure is decreased and wind velocity is increased to generate energy.

Page 67: WIND CATCHER MAX

WHY DOES OUR SYSTEM WORK?

It works because of the curved surfaces and the cooling effect of the cold water

Page 68: WIND CATCHER MAX

HOW IS OUR WATER USED?

75% Recy-cled

Water

25% Humid Air

Water Usage

Recycled Water Humid Air

75% is recycled for irrigation systems, and 25% is released as humid air to help plants grow in the dry climate.

Page 69: WIND CATCHER MAX

DRY, HOT, AND WINDY AREAS

WHERE DOES OUR SYSTEM WORK BEST?

Page 70: WIND CATCHER MAX

Wind Catcher MAX (high cost est.)

Wind Catcher MAX (low cost est.)

0% 10% 20% 30% 40% 50% 60% 70%

12%

59%

6%

57%

Savings compared to Solar and Wind

Wind Solar

Cost varies based on location and climate

Page 71: WIND CATCHER MAX

Wind Turbines

Solar Panels

Wind Catcher MAX (High est.)

Wind Catcher MAX (low est.)

0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000

27,600,000

29,000,000

26,000,000

12,000,000

COST for annual power production of 60 GWh

COST for annual power production of 60 GWh

OUR SYSTEM COMPARED TO OTHERS

Page 72: WIND CATCHER MAX

Page 73: WIND CATCHER MAX

WIND CATCHER MAXBy: Pavel Lelyukh, James Napoli, Aneeqa Karu

Page 74: WIND CATCHER MAX

HOW DOES OUR SYSTEM WORK?

As the air passes through the tower the pressure is decreased and wind velocity is increased to generate energy.

Page 75: WIND CATCHER MAX

WHY DOES OUR SYSTEM WORK?

It works because of the curved surfaces and the cooling effect of the cold water

Page 76: WIND CATCHER MAX

HOW IS OUR WATER USED?

75% Recy-cled

Water

25% Humid Air

Water Usage

Recycled Water Humid Air

75% is recycled for irrigation systems, and 25% is released as humid air to help plants grow in the dry climate.

Page 77: WIND CATCHER MAX

DRY, HOT, AND WINDY AREAS

WHERE DOES OUR SYSTEM WORK BEST?

Page 78: WIND CATCHER MAX

Wind Catcher MAX (high cost est.)

Wind Catcher MAX (low cost est.)

0% 10% 20% 30% 40% 50% 60% 70%

12%

59%

6%

57%

Savings compared to Solar and Wind

Wind Solar

Cost varies based on location and climate

Page 79: WIND CATCHER MAX

Wind Turbines

Solar Panels

Wind Catcher MAX (High est.)

Wind Catcher MAX (low est.)

0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000

27,600,000

29,000,000

26,000,000

12,000,000

COST for annual power production of 60 GWh

COST for annual power production of 60 GWh

OUR SYSTEM COMPARED TO OTHERS

Page 80: WIND CATCHER MAX

Page 81: WIND CATCHER MAX

WIND CATCHER MAXBy: Pavel Lelyukh, James Napoli, Aneeqa Karu

Page 82: WIND CATCHER MAX

HOW DOES OUR SYSTEM WORK?

As the air passes through the tower the pressure is decreased and wind velocity is increased to generate energy.

Page 83: WIND CATCHER MAX

WHY DOES OUR SYSTEM WORK?

It works because of the curved surfaces and the cooling effect of the cold water

Page 84: WIND CATCHER MAX

HOW IS OUR WATER USED?

75% Recy-cled

Water

25% Humid Air

Water Usage

Recycled Water Humid Air

75% is recycled for irrigation systems, and 25% is released as humid air to help plants grow in the dry climate.

Page 85: WIND CATCHER MAX

DRY, HOT, AND WINDY AREAS

WHERE DOES OUR SYSTEM WORK BEST?

Page 86: WIND CATCHER MAX

Wind Catcher MAX (high cost est.)

Wind Catcher MAX (low cost est.)

0% 10% 20% 30% 40% 50% 60% 70%

12%

59%

6%

57%

Savings compared to Solar and Wind

Wind Solar

Cost varies based on location and climate

Page 87: WIND CATCHER MAX

Wind Turbines

Solar Panels

Wind Catcher MAX (High est.)

Wind Catcher MAX (low est.)

0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000

27,600,000

29,000,000

26,000,000

12,000,000

COST for annual power production of 60 GWh

COST for annual power production of 60 GWh

OUR SYSTEM COMPARED TO OTHERS

Page 88: WIND CATCHER MAX

Page 89: WIND CATCHER MAX

WIND CATCHER MAXBy: Pavel Lelyukh, James Napoli, Aneeqa Karu

Page 90: WIND CATCHER MAX

HOW DOES OUR SYSTEM WORK?

As the air passes through the tower the pressure is decreased and wind velocity is increased to generate energy.

Page 91: WIND CATCHER MAX

WHY DOES OUR SYSTEM WORK?

It works because of the curved surfaces and the cooling effect of the cold water

Page 92: WIND CATCHER MAX

HOW IS OUR WATER USED?

75% Recy-cled

Water

25% Humid Air

Water Usage

Recycled Water Humid Air

75% is recycled for irrigation systems, and 25% is released as humid air to help plants grow in the dry climate.

Page 93: WIND CATCHER MAX

DRY, HOT, AND WINDY AREAS

WHERE DOES OUR SYSTEM WORK BEST?

Page 94: WIND CATCHER MAX

Wind Catcher MAX (high cost est.)

Wind Catcher MAX (low cost est.)

0% 10% 20% 30% 40% 50% 60% 70%

12%

59%

6%

57%

Savings compared to Solar and Wind

Wind Solar

Cost varies based on location and climate

Page 95: WIND CATCHER MAX

Wind Turbines

Solar Panels

Wind Catcher MAX (High est.)

Wind Catcher MAX (low est.)

0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000

27,600,000

29,000,000

26,000,000

12,000,000

COST for annual power production of 60 GWh

COST for annual power production of 60 GWh

OUR SYSTEM COMPARED TO OTHERS

Page 96: WIND CATCHER MAX

Page 97: WIND CATCHER MAX

WIND CATCHER MAXBy: Pavel Lelyukh, James Napoli, Aneeqa Karu

Page 98: WIND CATCHER MAX

HOW DOES OUR SYSTEM WORK?

As the air passes through the tower the pressure is decreased and wind velocity is increased to generate energy.

Page 99: WIND CATCHER MAX

WHY DOES OUR SYSTEM WORK?

It works because of the curved surfaces and the cooling effect of the cold water

Page 100: WIND CATCHER MAX

HOW IS OUR WATER USED?

75% Recy-cled

Water

25% Humid Air

Water Usage

Recycled Water Humid Air

75% is recycled for irrigation systems, and 25% is released as humid air to help plants grow in the dry climate.

Page 101: WIND CATCHER MAX

DRY, HOT, AND WINDY AREAS

WHERE DOES OUR SYSTEM WORK BEST?

Page 102: WIND CATCHER MAX

Wind Catcher MAX (high cost est.)

Wind Catcher MAX (low cost est.)

0% 10% 20% 30% 40% 50% 60% 70%

12%

59%

6%

57%

Savings compared to Solar and Wind

Wind Solar

Cost varies based on location and climate

Page 103: WIND CATCHER MAX

Wind Turbines

Solar Panels

Wind Catcher MAX (High est.)

Wind Catcher MAX (low est.)

0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000

27,600,000

29,000,000

26,000,000

12,000,000

COST for annual power production of 60 GWh

COST for annual power production of 60 GWh

OUR SYSTEM COMPARED TO OTHERS

Page 104: WIND CATCHER MAX

Page 105: WIND CATCHER MAX

WIND CATCHER MAXBy: Pavel Lelyukh, James Napoli, Aneeqa Karu

Page 106: WIND CATCHER MAX

HOW DOES OUR SYSTEM WORK?

As the air passes through the tower the pressure is decreased and wind velocity is increased to generate energy.

Page 107: WIND CATCHER MAX

WHY DOES OUR SYSTEM WORK?

It works because of the curved surfaces and the cooling effect of the cold water

Page 108: WIND CATCHER MAX

HOW IS OUR WATER USED?

75% Recy-cled

Water

25% Humid Air

Water Usage

Recycled Water Humid Air

75% is recycled for irrigation systems, and 25% is released as humid air to help plants grow in the dry climate.

Page 109: WIND CATCHER MAX

DRY, HOT, AND WINDY AREAS

WHERE DOES OUR SYSTEM WORK BEST?

Page 110: WIND CATCHER MAX

Wind Catcher MAX (high cost est.)

Wind Catcher MAX (low cost est.)

0% 10% 20% 30% 40% 50% 60% 70%

12%

59%

6%

57%

Savings compared to Solar and Wind

Wind Solar

Cost varies based on location and climate

Page 111: WIND CATCHER MAX

Wind Turbines

Solar Panels

Wind Catcher MAX (High est.)

Wind Catcher MAX (low est.)

0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000

27,600,000

29,000,000

26,000,000

12,000,000

COST for annual power production of 60 GWh

COST for annual power production of 60 GWh

OUR SYSTEM COMPARED TO OTHERS

Page 112: WIND CATCHER MAX

Page 113: WIND CATCHER MAX

WIND CATCHER MAXBy: Pavel Lelyukh, James Napoli, Aneeqa Karu

Page 114: WIND CATCHER MAX

HOW DOES OUR SYSTEM WORK?

As the air passes through the tower the pressure is decreased and wind velocity is increased to generate energy.

Page 115: WIND CATCHER MAX

WHY DOES OUR SYSTEM WORK?

It works because of the curved surfaces and the cooling effect of the cold water

Page 116: WIND CATCHER MAX

HOW IS OUR WATER USED?

75% Recy-cled

Water

25% Humid Air

Water Usage

Recycled Water Humid Air

75% is recycled for irrigation systems, and 25% is released as humid air to help plants grow in the dry climate.

Page 117: WIND CATCHER MAX

DRY, HOT, AND WINDY AREAS

WHERE DOES OUR SYSTEM WORK BEST?

Page 118: WIND CATCHER MAX

Wind Catcher MAX (high cost est.)

Wind Catcher MAX (low cost est.)

0% 10% 20% 30% 40% 50% 60% 70%

12%

59%

6%

57%

Savings compared to Solar and Wind

Wind Solar

Cost varies based on location and climate

Page 119: WIND CATCHER MAX

Wind Turbines

Solar Panels

Wind Catcher MAX (High est.)

Wind Catcher MAX (low est.)

0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000

27,600,000

29,000,000

26,000,000

12,000,000

COST for annual power production of 60 GWh

COST for annual power production of 60 GWh

OUR SYSTEM COMPARED TO OTHERS

Page 120: WIND CATCHER MAX

Page 121: WIND CATCHER MAX

WIND CATCHER MAXBy: Pavel Lelyukh, James Napoli, Aneeqa Karu

Page 122: WIND CATCHER MAX

HOW DOES OUR SYSTEM WORK?

As the air passes through the tower the pressure is decreased and wind velocity is increased to generate energy.

Page 123: WIND CATCHER MAX

WHY DOES OUR SYSTEM WORK?

It works because of the curved surfaces and the cooling effect of the cold water

Page 124: WIND CATCHER MAX

HOW IS OUR WATER USED?

75% Recy-cled

Water

25% Humid Air

Water Usage

Recycled Water Humid Air

75% is recycled for irrigation systems, and 25% is released as humid air to help plants grow in the dry climate.

Page 125: WIND CATCHER MAX

DRY, HOT, AND WINDY AREAS

WHERE DOES OUR SYSTEM WORK BEST?

Page 126: WIND CATCHER MAX

Wind Catcher MAX (high cost est.)

Wind Catcher MAX (low cost est.)

0% 10% 20% 30% 40% 50% 60% 70%

12%

59%

6%

57%

Savings compared to Solar and Wind

Wind Solar

Cost varies based on location and climate

Page 127: WIND CATCHER MAX

Wind Turbines

Solar Panels

Wind Catcher MAX (High est.)

Wind Catcher MAX (low est.)

0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000

27,600,000

29,000,000

26,000,000

12,000,000

COST for annual power production of 60 GWh

COST for annual power production of 60 GWh

OUR SYSTEM COMPARED TO OTHERS

Page 128: WIND CATCHER MAX

Page 129: WIND CATCHER MAX

WIND CATCHER MAXBy: Pavel Lelyukh, James Napoli, Aneeqa Karu

Page 130: WIND CATCHER MAX

HOW DOES OUR SYSTEM WORK?

As the air passes through the tower the pressure is decreased and wind velocity is increased to generate energy.

Page 131: WIND CATCHER MAX

WHY DOES OUR SYSTEM WORK?

It works because of the curved surfaces and the cooling effect of the cold water

Page 132: WIND CATCHER MAX

HOW IS OUR WATER USED?

75% Recy-cled

Water

25% Humid Air

Water Usage

Recycled Water Humid Air

75% is recycled for irrigation systems, and 25% is released as humid air to help plants grow in the dry climate.

Page 133: WIND CATCHER MAX

DRY, HOT, AND WINDY AREAS

WHERE DOES OUR SYSTEM WORK BEST?

Page 134: WIND CATCHER MAX

Wind Catcher MAX (high cost est.)

Wind Catcher MAX (low cost est.)

0% 10% 20% 30% 40% 50% 60% 70%

12%

59%

6%

57%

Savings compared to Solar and Wind

Wind Solar

Cost varies based on location and climate

Page 135: WIND CATCHER MAX

Wind Turbines

Solar Panels

Wind Catcher MAX (High est.)

Wind Catcher MAX (low est.)

0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000

27,600,000

29,000,000

26,000,000

12,000,000

COST for annual power production of 60 GWh

COST for annual power production of 60 GWh

OUR SYSTEM COMPARED TO OTHERS

Page 136: WIND CATCHER MAX

Page 137: WIND CATCHER MAX

WIND CATCHER MAXBy: Pavel Lelyukh, James Napoli, Aneeqa Karu

Page 138: WIND CATCHER MAX

HOW DOES OUR SYSTEM WORK?

As the air passes through the tower the pressure is decreased and wind velocity is increased to generate energy.

Page 139: WIND CATCHER MAX

WHY DOES OUR SYSTEM WORK?

It works because of the curved surfaces and the cooling effect of the cold water

Page 140: WIND CATCHER MAX

HOW IS OUR WATER USED?

75% Recy-cled

Water

25% Humid Air

Water Usage

Recycled Water Humid Air

75% is recycled for irrigation systems, and 25% is released as humid air to help plants grow in the dry climate.

Page 141: WIND CATCHER MAX

DRY, HOT, AND WINDY AREAS

WHERE DOES OUR SYSTEM WORK BEST?

Page 142: WIND CATCHER MAX

Wind Catcher MAX (high cost est.)

Wind Catcher MAX (low cost est.)

0% 10% 20% 30% 40% 50% 60% 70%

12%

59%

6%

57%

Savings compared to Solar and Wind

Wind Solar

Cost varies based on location and climate

Page 143: WIND CATCHER MAX

Wind Turbines

Solar Panels

Wind Catcher MAX (High est.)

Wind Catcher MAX (low est.)

0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000

27,600,000

29,000,000

26,000,000

12,000,000

COST for annual power production of 60 GWh

COST for annual power production of 60 GWh

OUR SYSTEM COMPARED TO OTHERS

Page 144: WIND CATCHER MAX

Page 145: WIND CATCHER MAX

WIND CATCHER MAXBy: Pavel Lelyukh, James Napoli, Aneeqa Karu

Page 146: WIND CATCHER MAX

HOW DOES OUR SYSTEM WORK?

As the air passes through the tower the pressure is decreased and wind velocity is increased to generate energy.

Page 147: WIND CATCHER MAX

WHY DOES OUR SYSTEM WORK?

It works because of the curved surfaces and the cooling effect of the cold water

Page 148: WIND CATCHER MAX

HOW IS OUR WATER USED?

75% Recy-cled

Water

25% Humid Air

Water Usage

Recycled Water Humid Air

75% is recycled for irrigation systems, and 25% is released as humid air to help plants grow in the dry climate.

Page 149: WIND CATCHER MAX

DRY, HOT, AND WINDY AREAS

WHERE DOES OUR SYSTEM WORK BEST?

Page 150: WIND CATCHER MAX

Wind Catcher MAX (high cost est.)

Wind Catcher MAX (low cost est.)

0% 10% 20% 30% 40% 50% 60% 70%

12%

59%

6%

57%

Savings compared to Solar and Wind

Wind Solar

Cost varies based on location and climate

Page 151: WIND CATCHER MAX

Wind Turbines

Solar Panels

Wind Catcher MAX (High est.)

Wind Catcher MAX (low est.)

0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000

27,600,000

29,000,000

26,000,000

12,000,000

COST for annual power production of 60 GWh

COST for annual power production of 60 GWh

OUR SYSTEM COMPARED TO OTHERS

Page 152: WIND CATCHER MAX

Page 153: WIND CATCHER MAX

WIND CATCHER MAXBy: Pavel Lelyukh, James Napoli, Aneeqa Karu

Page 154: WIND CATCHER MAX

HOW DOES OUR SYSTEM WORK?

As the air passes through the tower the pressure is decreased and wind velocity is increased to generate energy.

Page 155: WIND CATCHER MAX

WHY DOES OUR SYSTEM WORK?

It works because of the curved surfaces and the cooling effect of the cold water

Page 156: WIND CATCHER MAX

HOW IS OUR WATER USED?

75% Recy-cled

Water

25% Humid Air

Water Usage

Recycled Water Humid Air

75% is recycled for irrigation systems, and 25% is released as humid air to help plants grow in the dry climate.

Page 157: WIND CATCHER MAX

DRY, HOT, AND WINDY AREAS

WHERE DOES OUR SYSTEM WORK BEST?

Page 158: WIND CATCHER MAX

Wind Catcher MAX (high cost est.)

Wind Catcher MAX (low cost est.)

0% 10% 20% 30% 40% 50% 60% 70%

12%

59%

6%

57%

Savings compared to Solar and Wind

Wind Solar

Cost varies based on location and climate

Page 159: WIND CATCHER MAX

Wind Turbines

Solar Panels

Wind Catcher MAX (High est.)

Wind Catcher MAX (low est.)

0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000

27,600,000

29,000,000

26,000,000

12,000,000

COST for annual power production of 60 GWh

COST for annual power production of 60 GWh

OUR SYSTEM COMPARED TO OTHERS

Page 160: WIND CATCHER MAX

Page 161: WIND CATCHER MAX

WIND CATCHER MAXBy: Pavel Lelyukh, James Napoli, Aneeqa Karu

Page 162: WIND CATCHER MAX

HOW DOES OUR SYSTEM WORK?

As the air passes through the tower the pressure is decreased and wind velocity is increased to generate energy.

Page 163: WIND CATCHER MAX

WHY DOES OUR SYSTEM WORK?

It works because of the curved surfaces and the cooling effect of the cold water

Page 164: WIND CATCHER MAX

HOW IS OUR WATER USED?

75% Recy-cled

Water

25% Humid Air

Water Usage

Recycled Water Humid Air

75% is recycled for irrigation systems, and 25% is released as humid air to help plants grow in the dry climate.

Page 165: WIND CATCHER MAX

DRY, HOT, AND WINDY AREAS

WHERE DOES OUR SYSTEM WORK BEST?

Page 166: WIND CATCHER MAX

Wind Catcher MAX (high cost est.)

Wind Catcher MAX (low cost est.)

0% 10% 20% 30% 40% 50% 60% 70%

12%

59%

6%

57%

Savings compared to Solar and Wind

Wind Solar

Cost varies based on location and climate

Page 167: WIND CATCHER MAX

Wind Turbines

Solar Panels

Wind Catcher MAX (High est.)

Wind Catcher MAX (low est.)

0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000

27,600,000

29,000,000

26,000,000

12,000,000

COST for annual power production of 60 GWh

COST for annual power production of 60 GWh

OUR SYSTEM COMPARED TO OTHERS

Page 168: WIND CATCHER MAX

Page 169: WIND CATCHER MAX

WIND CATCHER MAXBy: Pavel Lelyukh, James Napoli, Aneeqa Karu

Page 170: WIND CATCHER MAX

HOW DOES OUR SYSTEM WORK?

As the air passes through the tower the pressure is decreased and wind velocity is increased to generate energy.

Page 171: WIND CATCHER MAX

WHY DOES OUR SYSTEM WORK?

It works because of the curved surfaces and the cooling effect of the cold water

Page 172: WIND CATCHER MAX

HOW IS OUR WATER USED?

75% Recy-cled

Water

25% Humid Air

Water Usage

Recycled Water Humid Air

75% is recycled for irrigation systems, and 25% is released as humid air to help plants grow in the dry climate.

Page 173: WIND CATCHER MAX

DRY, HOT, AND WINDY AREAS

WHERE DOES OUR SYSTEM WORK BEST?

Page 174: WIND CATCHER MAX

Wind Catcher MAX (high cost est.)

Wind Catcher MAX (low cost est.)

0% 10% 20% 30% 40% 50% 60% 70%

12%

59%

6%

57%

Savings compared to Solar and Wind

Wind Solar

Cost varies based on location and climate

Page 175: WIND CATCHER MAX

Wind Turbines

Solar Panels

Wind Catcher MAX (High est.)

Wind Catcher MAX (low est.)

0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000

27,600,000

29,000,000

26,000,000

12,000,000

COST for annual power production of 60 GWh

COST for annual power production of 60 GWh

OUR SYSTEM COMPARED TO OTHERS

Page 176: WIND CATCHER MAX

Page 177: WIND CATCHER MAX

WIND CATCHER MAXBy: Pavel Lelyukh, James Napoli, Aneeqa Karu

Page 178: WIND CATCHER MAX

HOW DOES OUR SYSTEM WORK?

As the air passes through the tower the pressure is decreased and wind velocity is increased to generate energy.

Page 179: WIND CATCHER MAX

WHY DOES OUR SYSTEM WORK?

It works because of the curved surfaces and the cooling effect of the cold water

Page 180: WIND CATCHER MAX

HOW IS OUR WATER USED?

75% Recy-cled

Water

25% Humid Air

Water Usage

Recycled Water Humid Air

75% is recycled for irrigation systems, and 25% is released as humid air to help plants grow in the dry climate.

Page 181: WIND CATCHER MAX

DRY, HOT, AND WINDY AREAS

WHERE DOES OUR SYSTEM WORK BEST?

Page 182: WIND CATCHER MAX

Wind Catcher MAX (high cost est.)

Wind Catcher MAX (low cost est.)

0% 10% 20% 30% 40% 50% 60% 70%

12%

59%

6%

57%

Savings compared to Solar and Wind

Wind Solar

Cost varies based on location and climate

Page 183: WIND CATCHER MAX

Wind Turbines

Solar Panels

Wind Catcher MAX (High est.)

Wind Catcher MAX (low est.)

0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000

27,600,000

29,000,000

26,000,000

12,000,000

COST for annual power production of 60 GWh

COST for annual power production of 60 GWh

OUR SYSTEM COMPARED TO OTHERS

Page 184: WIND CATCHER MAX

Page 185: WIND CATCHER MAX

WIND CATCHER MAXBy: Pavel Lelyukh, James Napoli, Aneeqa Karu

Page 186: WIND CATCHER MAX

HOW DOES OUR SYSTEM WORK?

As the air passes through the tower the pressure is decreased and wind velocity is increased to generate energy.

Page 187: WIND CATCHER MAX

WHY DOES OUR SYSTEM WORK?

It works because of the curved surfaces and the cooling effect of the cold water

Page 188: WIND CATCHER MAX

HOW IS OUR WATER USED?

75% Recy-cled

Water

25% Humid Air

Water Usage

Recycled Water Humid Air

75% is recycled for irrigation systems, and 25% is released as humid air to help plants grow in the dry climate.

Page 189: WIND CATCHER MAX

DRY, HOT, AND WINDY AREAS

WHERE DOES OUR SYSTEM WORK BEST?

Page 190: WIND CATCHER MAX

Wind Catcher MAX (high cost est.)

Wind Catcher MAX (low cost est.)

0% 10% 20% 30% 40% 50% 60% 70%

12%

59%

6%

57%

Savings compared to Solar and Wind

Wind Solar

Cost varies based on location and climate

Page 191: WIND CATCHER MAX

Wind Turbines

Solar Panels

Wind Catcher MAX (High est.)

Wind Catcher MAX (low est.)

0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000

27,600,000

29,000,000

26,000,000

12,000,000

COST for annual power production of 60 GWh

COST for annual power production of 60 GWh

OUR SYSTEM COMPARED TO OTHERS

Page 192: WIND CATCHER MAX

Page 193: WIND CATCHER MAX

WIND CATCHER MAXBy: Pavel Lelyukh, James Napoli, Aneeqa Karu

Page 194: WIND CATCHER MAX

HOW DOES OUR SYSTEM WORK?

As the air passes through the tower the pressure is decreased and wind velocity is increased to generate energy.

Page 195: WIND CATCHER MAX

WHY DOES OUR SYSTEM WORK?

It works because of the curved surfaces and the cooling effect of the cold water

Page 196: WIND CATCHER MAX

HOW IS OUR WATER USED?

75% Recy-cled

Water

25% Humid Air

Water Usage

Recycled Water Humid Air

75% is recycled for irrigation systems, and 25% is released as humid air to help plants grow in the dry climate.

Page 197: WIND CATCHER MAX

DRY, HOT, AND WINDY AREAS

WHERE DOES OUR SYSTEM WORK BEST?

Page 198: WIND CATCHER MAX

Wind Catcher MAX (high cost est.)

Wind Catcher MAX (low cost est.)

0% 10% 20% 30% 40% 50% 60% 70%

12%

59%

6%

57%

Savings compared to Solar and Wind

Wind Solar

Cost varies based on location and climate

Page 199: WIND CATCHER MAX

Wind Turbines

Solar Panels

Wind Catcher MAX (High est.)

Wind Catcher MAX (low est.)

0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000

27,600,000

29,000,000

26,000,000

12,000,000

COST for annual power production of 60 GWh

COST for annual power production of 60 GWh

OUR SYSTEM COMPARED TO OTHERS

Page 200: WIND CATCHER MAX

Page 201: WIND CATCHER MAX

WIND CATCHER MAXBy: Pavel Lelyukh, James Napoli, Aneeqa Karu

Page 202: WIND CATCHER MAX

HOW DOES OUR SYSTEM WORK?

As the air passes through the tower the pressure is decreased and wind velocity is increased to generate energy.

Page 203: WIND CATCHER MAX

WHY DOES OUR SYSTEM WORK?

It works because of the curved surfaces and the cooling effect of the cold water

Page 204: WIND CATCHER MAX

HOW IS OUR WATER USED?

75% Recy-cled

Water

25% Humid Air

Water Usage

Recycled Water Humid Air

75% is recycled for irrigation systems, and 25% is released as humid air to help plants grow in the dry climate.

Page 205: WIND CATCHER MAX

DRY, HOT, AND WINDY AREAS

WHERE DOES OUR SYSTEM WORK BEST?

Page 206: WIND CATCHER MAX

Wind Catcher MAX (high cost est.)

Wind Catcher MAX (low cost est.)

0% 10% 20% 30% 40% 50% 60% 70%

12%

59%

6%

57%

Savings compared to Solar and Wind

Wind Solar

Cost varies based on location and climate

Page 207: WIND CATCHER MAX

Wind Turbines

Solar Panels

Wind Catcher MAX (High est.)

Wind Catcher MAX (low est.)

0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000

27,600,000

29,000,000

26,000,000

12,000,000

COST for annual power production of 60 GWh

COST for annual power production of 60 GWh

OUR SYSTEM COMPARED TO OTHERS

Page 208: WIND CATCHER MAX

Page 209: WIND CATCHER MAX

WIND CATCHER MAXBy: Pavel Lelyukh, James Napoli, Aneeqa Karu

Page 210: WIND CATCHER MAX

HOW DOES OUR SYSTEM WORK?

As the air passes through the tower the pressure is decreased and wind velocity is increased to generate energy.

Page 211: WIND CATCHER MAX

WHY DOES OUR SYSTEM WORK?

It works because of the curved surfaces and the cooling effect of the cold water

Page 212: WIND CATCHER MAX

HOW IS OUR WATER USED?

75% Recy-cled

Water

25% Humid Air

Water Usage

Recycled Water Humid Air

75% is recycled for irrigation systems, and 25% is released as humid air to help plants grow in the dry climate.

Page 213: WIND CATCHER MAX

DRY, HOT, AND WINDY AREAS

WHERE DOES OUR SYSTEM WORK BEST?

Page 214: WIND CATCHER MAX

Wind Catcher MAX (high cost est.)

Wind Catcher MAX (low cost est.)

0% 10% 20% 30% 40% 50% 60% 70%

12%

59%

6%

57%

Savings compared to Solar and Wind

Wind Solar

Cost varies based on location and climate

Page 215: WIND CATCHER MAX

Wind Turbines

Solar Panels

Wind Catcher MAX (High est.)

Wind Catcher MAX (low est.)

0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000

27,600,000

29,000,000

26,000,000

12,000,000

COST for annual power production of 60 GWh

COST for annual power production of 60 GWh

OUR SYSTEM COMPARED TO OTHERS

Page 216: WIND CATCHER MAX

Page 217: WIND CATCHER MAX

WIND CATCHER MAXBy: Pavel Lelyukh, James Napoli, Aneeqa Karu

Page 218: WIND CATCHER MAX

HOW DOES OUR SYSTEM WORK?

As the air passes through the tower the pressure is decreased and wind velocity is increased to generate energy.

Page 219: WIND CATCHER MAX

WHY DOES OUR SYSTEM WORK?

It works because of the curved surfaces and the cooling effect of the cold water

Page 220: WIND CATCHER MAX

HOW IS OUR WATER USED?

75% Recy-cled

Water

25% Humid Air

Water Usage

Recycled Water Humid Air

75% is recycled for irrigation systems, and 25% is released as humid air to help plants grow in the dry climate.

Page 221: WIND CATCHER MAX

DRY, HOT, AND WINDY AREAS

WHERE DOES OUR SYSTEM WORK BEST?

Page 222: WIND CATCHER MAX

Wind Catcher MAX (high cost est.)

Wind Catcher MAX (low cost est.)

0% 10% 20% 30% 40% 50% 60% 70%

12%

59%

6%

57%

Savings compared to Solar and Wind

Wind Solar

Cost varies based on location and climate

Page 223: WIND CATCHER MAX

Wind Turbines

Solar Panels

Wind Catcher MAX (High est.)

Wind Catcher MAX (low est.)

0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000

27,600,000

29,000,000

26,000,000

12,000,000

COST for annual power production of 60 GWh

COST for annual power production of 60 GWh

OUR SYSTEM COMPARED TO OTHERS

Page 224: WIND CATCHER MAX

Page 225: WIND CATCHER MAX

WIND CATCHER MAXBy: Pavel Lelyukh, James Napoli, Aneeqa Karu

Page 226: WIND CATCHER MAX

HOW DOES OUR SYSTEM WORK?

As the air passes through the tower the pressure is decreased and wind velocity is increased to generate energy.

Page 227: WIND CATCHER MAX

WHY DOES OUR SYSTEM WORK?

It works because of the curved surfaces and the cooling effect of the cold water

Page 228: WIND CATCHER MAX

HOW IS OUR WATER USED?

75% Recy-cled

Water

25% Humid Air

Water Usage

Recycled Water Humid Air

75% is recycled for irrigation systems, and 25% is released as humid air to help plants grow in the dry climate.

Page 229: WIND CATCHER MAX

DRY, HOT, AND WINDY AREAS

WHERE DOES OUR SYSTEM WORK BEST?

Page 230: WIND CATCHER MAX

Wind Catcher MAX (high cost est.)

Wind Catcher MAX (low cost est.)

0% 10% 20% 30% 40% 50% 60% 70%

12%

59%

6%

57%

Savings compared to Solar and Wind

Wind Solar

Cost varies based on location and climate

Page 231: WIND CATCHER MAX

Wind Turbines

Solar Panels

Wind Catcher MAX (High est.)

Wind Catcher MAX (low est.)

0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000

27,600,000

29,000,000

26,000,000

12,000,000

COST for annual power production of 60 GWh

COST for annual power production of 60 GWh

OUR SYSTEM COMPARED TO OTHERS

Page 232: WIND CATCHER MAX

Page 233: WIND CATCHER MAX

WIND CATCHER MAXBy: Pavel Lelyukh, James Napoli, Aneeqa Karu

Page 234: WIND CATCHER MAX

HOW DOES OUR SYSTEM WORK?

As the air passes through the tower the pressure is decreased and wind velocity is increased to generate energy.

Page 235: WIND CATCHER MAX

WHY DOES OUR SYSTEM WORK?

It works because of the curved surfaces and the cooling effect of the cold water

Page 236: WIND CATCHER MAX

HOW IS OUR WATER USED?

75% Recy-cled

Water

25% Humid Air

Water Usage

Recycled Water Humid Air

75% is recycled for irrigation systems, and 25% is released as humid air to help plants grow in the dry climate.

Page 237: WIND CATCHER MAX

DRY, HOT, AND WINDY AREAS

WHERE DOES OUR SYSTEM WORK BEST?

Page 238: WIND CATCHER MAX

Wind Catcher MAX (high cost est.)

Wind Catcher MAX (low cost est.)

0% 10% 20% 30% 40% 50% 60% 70%

12%

59%

6%

57%

Savings compared to Solar and Wind

Wind Solar

Cost varies based on location and climate

Page 239: WIND CATCHER MAX

Wind Turbines

Solar Panels

Wind Catcher MAX (High est.)

Wind Catcher MAX (low est.)

0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000

27,600,000

29,000,000

26,000,000

12,000,000

COST for annual power production of 60 GWh

COST for annual power production of 60 GWh

OUR SYSTEM COMPARED TO OTHERS

Page 240: WIND CATCHER MAX

Page 241: WIND CATCHER MAX

WIND CATCHER MAXBy: Pavel Lelyukh, James Napoli, Aneeqa Karu

Page 242: WIND CATCHER MAX

HOW DOES OUR SYSTEM WORK?

As the air passes through the tower the pressure is decreased and wind velocity is increased to generate energy.

Page 243: WIND CATCHER MAX

WHY DOES OUR SYSTEM WORK?

It works because of the curved surfaces and the cooling effect of the cold water

Page 244: WIND CATCHER MAX

HOW IS OUR WATER USED?

75% Recy-cled

Water

25% Humid Air

Water Usage

Recycled Water Humid Air

75% is recycled for irrigation systems, and 25% is released as humid air to help plants grow in the dry climate.

Page 245: WIND CATCHER MAX

DRY, HOT, AND WINDY AREAS

WHERE DOES OUR SYSTEM WORK BEST?

Page 246: WIND CATCHER MAX

Wind Catcher MAX (high cost est.)

Wind Catcher MAX (low cost est.)

0% 10% 20% 30% 40% 50% 60% 70%

12%

59%

6%

57%

Savings compared to Solar and Wind

Wind Solar

Cost varies based on location and climate

Page 247: WIND CATCHER MAX

Wind Turbines

Solar Panels

Wind Catcher MAX (High est.)

Wind Catcher MAX (low est.)

0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000

27,600,000

29,000,000

26,000,000

12,000,000

COST for annual power production of 60 GWh

COST for annual power production of 60 GWh

OUR SYSTEM COMPARED TO OTHERS

Page 248: WIND CATCHER MAX

Page 249: WIND CATCHER MAX

WIND CATCHER MAXBy: Pavel Lelyukh, James Napoli, Aneeqa Karu

Page 250: WIND CATCHER MAX

HOW DOES OUR SYSTEM WORK?

As the air passes through the tower the pressure is decreased and wind velocity is increased to generate energy.

Page 251: WIND CATCHER MAX

WHY DOES OUR SYSTEM WORK?

It works because of the curved surfaces and the cooling effect of the cold water

Page 252: WIND CATCHER MAX

HOW IS OUR WATER USED?

75% Recy-cled

Water

25% Humid Air

Water Usage

Recycled Water Humid Air

75% is recycled for irrigation systems, and 25% is released as humid air to help plants grow in the dry climate.

Page 253: WIND CATCHER MAX

DRY, HOT, AND WINDY AREAS

WHERE DOES OUR SYSTEM WORK BEST?

Page 254: WIND CATCHER MAX

Wind Catcher MAX (high cost est.)

Wind Catcher MAX (low cost est.)

0% 10% 20% 30% 40% 50% 60% 70%

12%

59%

6%

57%

Savings compared to Solar and Wind

Wind Solar

Cost varies based on location and climate

Page 255: WIND CATCHER MAX

Wind Turbines

Solar Panels

Wind Catcher MAX (High est.)

Wind Catcher MAX (low est.)

0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000

27,600,000

29,000,000

26,000,000

12,000,000

COST for annual power production of 60 GWh

COST for annual power production of 60 GWh

OUR SYSTEM COMPARED TO OTHERS

Page 256: WIND CATCHER MAX

Page 257: WIND CATCHER MAX

WIND CATCHER MAXBy: Pavel Lelyukh, James Napoli, Aneeqa Karu

Page 258: WIND CATCHER MAX

HOW DOES OUR SYSTEM WORK?

As the air passes through the tower the pressure is decreased and wind velocity is increased to generate energy.

Page 259: WIND CATCHER MAX

WHY DOES OUR SYSTEM WORK?

It works because of the curved surfaces and the cooling effect of the cold water

Page 260: WIND CATCHER MAX

HOW IS OUR WATER USED?

75% Recy-cled

Water

25% Humid Air

Water Usage

Recycled Water Humid Air

75% is recycled for irrigation systems, and 25% is released as humid air to help plants grow in the dry climate.

Page 261: WIND CATCHER MAX

DRY, HOT, AND WINDY AREAS

WHERE DOES OUR SYSTEM WORK BEST?

Page 262: WIND CATCHER MAX

Wind Catcher MAX (high cost est.)

Wind Catcher MAX (low cost est.)

0% 10% 20% 30% 40% 50% 60% 70%

12%

59%

6%

57%

Savings compared to Solar and Wind

Wind Solar

Cost varies based on location and climate

Page 263: WIND CATCHER MAX

Wind Turbines

Solar Panels

Wind Catcher MAX (High est.)

Wind Catcher MAX (low est.)

0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000

27,600,000

29,000,000

26,000,000

12,000,000

COST for annual power production of 60 GWh

COST for annual power production of 60 GWh

OUR SYSTEM COMPARED TO OTHERS

Page 264: WIND CATCHER MAX

Page 265: WIND CATCHER MAX

WIND CATCHER MAXBy: Pavel Lelyukh, James Napoli, Aneeqa Karu

Page 266: WIND CATCHER MAX

HOW DOES OUR SYSTEM WORK?

As the air passes through the tower the pressure is decreased and wind velocity is increased to generate energy.

Page 267: WIND CATCHER MAX

WHY DOES OUR SYSTEM WORK?

It works because of the curved surfaces and the cooling effect of the cold water

Page 268: WIND CATCHER MAX

HOW IS OUR WATER USED?

75% Recy-cled

Water

25% Humid Air

Water Usage

Recycled Water Humid Air

75% is recycled for irrigation systems, and 25% is released as humid air to help plants grow in the dry climate.

Page 269: WIND CATCHER MAX

DRY, HOT, AND WINDY AREAS

WHERE DOES OUR SYSTEM WORK BEST?

Page 270: WIND CATCHER MAX

Wind Catcher MAX (high cost est.)

Wind Catcher MAX (low cost est.)

0% 10% 20% 30% 40% 50% 60% 70%

12%

59%

6%

57%

Savings compared to Solar and Wind

Wind Solar

Cost varies based on location and climate

Page 271: WIND CATCHER MAX

Wind Turbines

Solar Panels

Wind Catcher MAX (High est.)

Wind Catcher MAX (low est.)

0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000

27,600,000

29,000,000

26,000,000

12,000,000

COST for annual power production of 60 GWh

COST for annual power production of 60 GWh

OUR SYSTEM COMPARED TO OTHERS

Page 272: WIND CATCHER MAX

Page 273: WIND CATCHER MAX

WIND CATCHER MAXBy: Pavel Lelyukh, James Napoli, Aneeqa Karu

Page 274: WIND CATCHER MAX

HOW DOES OUR SYSTEM WORK?

As the air passes through the tower the pressure is decreased and wind velocity is increased to generate energy.

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WHY DOES OUR SYSTEM WORK?

It works because of the curved surfaces and the cooling effect of the cold water

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HOW IS OUR WATER USED?

75% Recy-cled

Water

25% Humid Air

Water Usage

Recycled Water Humid Air

75% is recycled for irrigation systems, and 25% is released as humid air to help plants grow in the dry climate.

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DRY, HOT, AND WINDY AREAS

WHERE DOES OUR SYSTEM WORK BEST?

Page 278: WIND CATCHER MAX

Wind Catcher MAX (high cost est.)

Wind Catcher MAX (low cost est.)

0% 10% 20% 30% 40% 50% 60% 70%

12%

59%

6%

57%

Savings compared to Solar and Wind

Wind Solar

Cost varies based on location and climate

Page 279: WIND CATCHER MAX

Wind Turbines

Solar Panels

Wind Catcher MAX (High est.)

Wind Catcher MAX (low est.)

0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000

27,600,000

29,000,000

26,000,000

12,000,000

COST for annual power production of 60 GWh

COST for annual power production of 60 GWh

OUR SYSTEM COMPARED TO OTHERS

Page 280: WIND CATCHER MAX

Calculation Spreadsheet_Slug Catcher

The Child Catcher

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