The Wind Catcher Max system generates energy by decreasing air pressure and increasing wind velocity as air passes through a tower. It works due to curved surfaces and cold water cooling. Water is 75% recycled for irrigation and 25% released as humid air to help plant growth. The system works best in dry, hot, and windy areas and provides estimated savings compared to solar and wind alternatives.

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

2. HOW DOES OUR SYSTEM WORK?
As the air passes through the tower
the pressure is decreased and wind
velocity is increased to generate
energy.

3. WHY DOES OUR SYSTEM WORK?
It works because of the curved
surfaces and the cooling effect of
the cold water

4. HOW IS OUR WATER USED?
75% Recycled
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.

5. DRY, HOT, AND WINDY AREAS
WHERE DOES OUR SYSTEM WORK BEST?

6. 12%
59%
6%
57%
0% 10% 20% 30% 40% 50% 60% 70%
WIND CATCHER MAX (HIGH COST
EST.)
WIND CATCHER MAX (LOW COST
EST.)
Savings compared to Solar and Wind
Wind Solar
Cost varies based on location and climate

7. 27,600,000
29,000,000
26,000,000
12,000,000
0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000
WIND TURBINES
SOLAR PANELS
WIND CATCHER MAX (HIGH EST.)
WIND CATCHER MAX (LOW EST.)
COST for annual power production of 60 GWh
COST for annual power production of 60 GWh
OUR SYSTEM COMPARED TO OTHERS

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

10. HOW DOES OUR SYSTEM WORK?
As the air passes through the tower
the pressure is decreased and wind
velocity is increased to generate
energy.

11. WHY DOES OUR SYSTEM WORK?
It works because of the curved
surfaces and the cooling effect of
the cold water

12. HOW IS OUR WATER USED?
75% Recycled
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.

13. DRY, HOT, AND WINDY AREAS
WHERE DOES OUR SYSTEM WORK BEST?

14. 12%
59%
6%
57%
0% 10% 20% 30% 40% 50% 60% 70%
WIND CATCHER MAX (HIGH COST
EST.)
WIND CATCHER MAX (LOW COST
EST.)
Savings compared to Solar and Wind
Wind Solar
Cost varies based on location and climate

15. 27,600,000
29,000,000
26,000,000
12,000,000
0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000
WIND TURBINES
SOLAR PANELS
WIND CATCHER MAX (HIGH EST.)
WIND CATCHER MAX (LOW EST.)
COST for annual power production of 60 GWh
COST for annual power production of 60 GWh
OUR SYSTEM COMPARED TO OTHERS

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

18. HOW DOES OUR SYSTEM WORK?
As the air passes through the tower
the pressure is decreased and wind
velocity is increased to generate
energy.

19. WHY DOES OUR SYSTEM WORK?
It works because of the curved
surfaces and the cooling effect of
the cold water

20. HOW IS OUR WATER USED?
75% Recycled
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.

21. DRY, HOT, AND WINDY AREAS
WHERE DOES OUR SYSTEM WORK BEST?

22. 12%
59%
6%
57%
0% 10% 20% 30% 40% 50% 60% 70%
WIND CATCHER MAX (HIGH COST
EST.)
WIND CATCHER MAX (LOW COST
EST.)
Savings compared to Solar and Wind
Wind Solar
Cost varies based on location and climate

23. 27,600,000
29,000,000
26,000,000
12,000,000
0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000
WIND TURBINES
SOLAR PANELS
WIND CATCHER MAX (HIGH EST.)
WIND CATCHER MAX (LOW EST.)
COST for annual power production of 60 GWh
COST for annual power production of 60 GWh
OUR SYSTEM COMPARED TO OTHERS

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

26. HOW DOES OUR SYSTEM WORK?
As the air passes through the tower
the pressure is decreased and wind
velocity is increased to generate
energy.

27. WHY DOES OUR SYSTEM WORK?
It works because of the curved
surfaces and the cooling effect of
the cold water

28. HOW IS OUR WATER USED?
75% Recycled
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.

29. DRY, HOT, AND WINDY AREAS
WHERE DOES OUR SYSTEM WORK BEST?

30. 12%
59%
6%
57%
0% 10% 20% 30% 40% 50% 60% 70%
WIND CATCHER MAX (HIGH COST
EST.)
WIND CATCHER MAX (LOW COST
EST.)
Savings compared to Solar and Wind
Wind Solar
Cost varies based on location and climate

31. 27,600,000
29,000,000
26,000,000
12,000,000
0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000
WIND TURBINES
SOLAR PANELS
WIND CATCHER MAX (HIGH EST.)
WIND CATCHER MAX (LOW EST.)
COST for annual power production of 60 GWh
COST for annual power production of 60 GWh
OUR SYSTEM COMPARED TO OTHERS

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

34. HOW DOES OUR SYSTEM WORK?
As the air passes through the tower
the pressure is decreased and wind
velocity is increased to generate
energy.

35. WHY DOES OUR SYSTEM WORK?
It works because of the curved
surfaces and the cooling effect of
the cold water

36. HOW IS OUR WATER USED?
75% Recycled
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.

37. DRY, HOT, AND WINDY AREAS
WHERE DOES OUR SYSTEM WORK BEST?

38. 12%
59%
6%
57%
0% 10% 20% 30% 40% 50% 60% 70%
WIND CATCHER MAX (HIGH COST
EST.)
WIND CATCHER MAX (LOW COST
EST.)
Savings compared to Solar and Wind
Wind Solar
Cost varies based on location and climate

39. 27,600,000
29,000,000
26,000,000
12,000,000
0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000
WIND TURBINES
SOLAR PANELS
WIND CATCHER MAX (HIGH EST.)
WIND CATCHER MAX (LOW EST.)
COST for annual power production of 60 GWh
COST for annual power production of 60 GWh
OUR SYSTEM COMPARED TO OTHERS

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

42. HOW DOES OUR SYSTEM WORK?
As the air passes through the tower
the pressure is decreased and wind
velocity is increased to generate
energy.

43. WHY DOES OUR SYSTEM WORK?
It works because of the curved
surfaces and the cooling effect of
the cold water

44. HOW IS OUR WATER USED?
75% Recycled
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.

45. DRY, HOT, AND WINDY AREAS
WHERE DOES OUR SYSTEM WORK BEST?

46. 12%
59%
6%
57%
0% 10% 20% 30% 40% 50% 60% 70%
WIND CATCHER MAX (HIGH COST
EST.)
WIND CATCHER MAX (LOW COST
EST.)
Savings compared to Solar and Wind
Wind Solar
Cost varies based on location and climate

47. 27,600,000
29,000,000
26,000,000
12,000,000
0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000
WIND TURBINES
SOLAR PANELS
WIND CATCHER MAX (HIGH EST.)
WIND CATCHER MAX (LOW EST.)
COST for annual power production of 60 GWh
COST for annual power production of 60 GWh
OUR SYSTEM COMPARED TO OTHERS

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

50. HOW DOES OUR SYSTEM WORK?
As the air passes through the tower
the pressure is decreased and wind
velocity is increased to generate
energy.

51. WHY DOES OUR SYSTEM WORK?
It works because of the curved
surfaces and the cooling effect of
the cold water

52. HOW IS OUR WATER USED?
75% Recycled
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.

53. DRY, HOT, AND WINDY AREAS
WHERE DOES OUR SYSTEM WORK BEST?

54. 12%
59%
6%
57%
0% 10% 20% 30% 40% 50% 60% 70%
WIND CATCHER MAX (HIGH COST
EST.)
WIND CATCHER MAX (LOW COST
EST.)
Savings compared to Solar and Wind
Wind Solar
Cost varies based on location and climate

55. 27,600,000
29,000,000
26,000,000
12,000,000
0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000
WIND TURBINES
SOLAR PANELS
WIND CATCHER MAX (HIGH EST.)
WIND CATCHER MAX (LOW EST.)
COST for annual power production of 60 GWh
COST for annual power production of 60 GWh
OUR SYSTEM COMPARED TO OTHERS

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

58. HOW DOES OUR SYSTEM WORK?
As the air passes through the tower
the pressure is decreased and wind
velocity is increased to generate
energy.

59. WHY DOES OUR SYSTEM WORK?
It works because of the curved
surfaces and the cooling effect of
the cold water

60. HOW IS OUR WATER USED?
75% Recycled
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.

61. DRY, HOT, AND WINDY AREAS
WHERE DOES OUR SYSTEM WORK BEST?

62. 12%
59%
6%
57%
0% 10% 20% 30% 40% 50% 60% 70%
WIND CATCHER MAX (HIGH COST
EST.)
WIND CATCHER MAX (LOW COST
EST.)
Savings compared to Solar and Wind
Wind Solar
Cost varies based on location and climate

63. 27,600,000
29,000,000
26,000,000
12,000,000
0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000
WIND TURBINES
SOLAR PANELS
WIND CATCHER MAX (HIGH EST.)
WIND CATCHER MAX (LOW EST.)
COST for annual power production of 60 GWh
COST for annual power production of 60 GWh
OUR SYSTEM COMPARED TO OTHERS

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

66. HOW DOES OUR SYSTEM WORK?
As the air passes through the tower
the pressure is decreased and wind
velocity is increased to generate
energy.

67. WHY DOES OUR SYSTEM WORK?
It works because of the curved
surfaces and the cooling effect of
the cold water

68. HOW IS OUR WATER USED?
75% Recycled
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.

69. DRY, HOT, AND WINDY AREAS
WHERE DOES OUR SYSTEM WORK BEST?

70. 12%
59%
6%
57%
0% 10% 20% 30% 40% 50% 60% 70%
WIND CATCHER MAX (HIGH COST
EST.)
WIND CATCHER MAX (LOW COST
EST.)
Savings compared to Solar and Wind
Wind Solar
Cost varies based on location and climate

71. 27,600,000
29,000,000
26,000,000
12,000,000
0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000
WIND TURBINES
SOLAR PANELS
WIND CATCHER MAX (HIGH EST.)
WIND CATCHER MAX (LOW EST.)
COST for annual power production of 60 GWh
COST for annual power production of 60 GWh
OUR SYSTEM COMPARED TO OTHERS

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

74. HOW DOES OUR SYSTEM WORK?
As the air passes through the tower
the pressure is decreased and wind
velocity is increased to generate
energy.

75. WHY DOES OUR SYSTEM WORK?
It works because of the curved
surfaces and the cooling effect of
the cold water

76. HOW IS OUR WATER USED?
75% Recycled
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.

77. DRY, HOT, AND WINDY AREAS
WHERE DOES OUR SYSTEM WORK BEST?

78. 12%
59%
6%
57%
0% 10% 20% 30% 40% 50% 60% 70%
WIND CATCHER MAX (HIGH COST
EST.)
WIND CATCHER MAX (LOW COST
EST.)
Savings compared to Solar and Wind
Wind Solar
Cost varies based on location and climate

79. 27,600,000
29,000,000
26,000,000
12,000,000
0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000
WIND TURBINES
SOLAR PANELS
WIND CATCHER MAX (HIGH EST.)
WIND CATCHER MAX (LOW EST.)
COST for annual power production of 60 GWh
COST for annual power production of 60 GWh
OUR SYSTEM COMPARED TO OTHERS

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

82. HOW DOES OUR SYSTEM WORK?
As the air passes through the tower
the pressure is decreased and wind
velocity is increased to generate
energy.

83. WHY DOES OUR SYSTEM WORK?
It works because of the curved
surfaces and the cooling effect of
the cold water

84. HOW IS OUR WATER USED?
75% Recycled
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.

85. DRY, HOT, AND WINDY AREAS
WHERE DOES OUR SYSTEM WORK BEST?

86. 12%
59%
6%
57%
0% 10% 20% 30% 40% 50% 60% 70%
WIND CATCHER MAX (HIGH COST
EST.)
WIND CATCHER MAX (LOW COST
EST.)
Savings compared to Solar and Wind
Wind Solar
Cost varies based on location and climate

87. 27,600,000
29,000,000
26,000,000
12,000,000
0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000
WIND TURBINES
SOLAR PANELS
WIND CATCHER MAX (HIGH EST.)
WIND CATCHER MAX (LOW EST.)
COST for annual power production of 60 GWh
COST for annual power production of 60 GWh
OUR SYSTEM COMPARED TO OTHERS

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

90. HOW DOES OUR SYSTEM WORK?
As the air passes through the tower
the pressure is decreased and wind
velocity is increased to generate
energy.

91. WHY DOES OUR SYSTEM WORK?
It works because of the curved
surfaces and the cooling effect of
the cold water

92. HOW IS OUR WATER USED?
75% Recycled
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.

93. DRY, HOT, AND WINDY AREAS
WHERE DOES OUR SYSTEM WORK BEST?

94. 12%
59%
6%
57%
0% 10% 20% 30% 40% 50% 60% 70%
WIND CATCHER MAX (HIGH COST
EST.)
WIND CATCHER MAX (LOW COST
EST.)
Savings compared to Solar and Wind
Wind Solar
Cost varies based on location and climate

95. 27,600,000
29,000,000
26,000,000
12,000,000
0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000
WIND TURBINES
SOLAR PANELS
WIND CATCHER MAX (HIGH EST.)
WIND CATCHER MAX (LOW EST.)
COST for annual power production of 60 GWh
COST for annual power production of 60 GWh
OUR SYSTEM COMPARED TO OTHERS

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

98. HOW DOES OUR SYSTEM WORK?
As the air passes through the tower
the pressure is decreased and wind
velocity is increased to generate
energy.

99. WHY DOES OUR SYSTEM WORK?
It works because of the curved
surfaces and the cooling effect of
the cold water

100. HOW IS OUR WATER USED?
75% Recycled
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.

101. DRY, HOT, AND WINDY AREAS
WHERE DOES OUR SYSTEM WORK BEST?

102. 12%
59%
6%
57%
0% 10% 20% 30% 40% 50% 60% 70%
WIND CATCHER MAX (HIGH COST
EST.)
WIND CATCHER MAX (LOW COST
EST.)
Savings compared to Solar and Wind
Wind Solar
Cost varies based on location and climate

103. 27,600,000
29,000,000
26,000,000
12,000,000
0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000
WIND TURBINES
SOLAR PANELS
WIND CATCHER MAX (HIGH EST.)
WIND CATCHER MAX (LOW EST.)
COST for annual power production of 60 GWh
COST for annual power production of 60 GWh
OUR SYSTEM COMPARED TO OTHERS

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

106. HOW DOES OUR SYSTEM WORK?
As the air passes through the tower
the pressure is decreased and wind
velocity is increased to generate
energy.

107. WHY DOES OUR SYSTEM WORK?
It works because of the curved
surfaces and the cooling effect of
the cold water

108. HOW IS OUR WATER USED?
75% Recycled
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.

109. DRY, HOT, AND WINDY AREAS
WHERE DOES OUR SYSTEM WORK BEST?

110. 12%
59%
6%
57%
0% 10% 20% 30% 40% 50% 60% 70%
WIND CATCHER MAX (HIGH COST
EST.)
WIND CATCHER MAX (LOW COST
EST.)
Savings compared to Solar and Wind
Wind Solar
Cost varies based on location and climate

111. 27,600,000
29,000,000
26,000,000
12,000,000
0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000
WIND TURBINES
SOLAR PANELS
WIND CATCHER MAX (HIGH EST.)
WIND CATCHER MAX (LOW EST.)
COST for annual power production of 60 GWh
COST for annual power production of 60 GWh
OUR SYSTEM COMPARED TO OTHERS

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

114. HOW DOES OUR SYSTEM WORK?
As the air passes through the tower
the pressure is decreased and wind
velocity is increased to generate
energy.

115. WHY DOES OUR SYSTEM WORK?
It works because of the curved
surfaces and the cooling effect of
the cold water

116. HOW IS OUR WATER USED?
75% Recycled
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.

117. DRY, HOT, AND WINDY AREAS
WHERE DOES OUR SYSTEM WORK BEST?

118. 12%
59%
6%
57%
0% 10% 20% 30% 40% 50% 60% 70%
WIND CATCHER MAX (HIGH COST
EST.)
WIND CATCHER MAX (LOW COST
EST.)
Savings compared to Solar and Wind
Wind Solar
Cost varies based on location and climate

119. 27,600,000
29,000,000
26,000,000
12,000,000
0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000
WIND TURBINES
SOLAR PANELS
WIND CATCHER MAX (HIGH EST.)
WIND CATCHER MAX (LOW EST.)
COST for annual power production of 60 GWh
COST for annual power production of 60 GWh
OUR SYSTEM COMPARED TO OTHERS

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

122. HOW DOES OUR SYSTEM WORK?
As the air passes through the tower
the pressure is decreased and wind
velocity is increased to generate
energy.

123. WHY DOES OUR SYSTEM WORK?
It works because of the curved
surfaces and the cooling effect of
the cold water

124. HOW IS OUR WATER USED?
75% Recycled
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.

125. DRY, HOT, AND WINDY AREAS
WHERE DOES OUR SYSTEM WORK BEST?

126. 12%
59%
6%
57%
0% 10% 20% 30% 40% 50% 60% 70%
WIND CATCHER MAX (HIGH COST
EST.)
WIND CATCHER MAX (LOW COST
EST.)
Savings compared to Solar and Wind
Wind Solar
Cost varies based on location and climate

127. 27,600,000
29,000,000
26,000,000
12,000,000
0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000
WIND TURBINES
SOLAR PANELS
WIND CATCHER MAX (HIGH EST.)
WIND CATCHER MAX (LOW EST.)
COST for annual power production of 60 GWh
COST for annual power production of 60 GWh
OUR SYSTEM COMPARED TO OTHERS

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

130. HOW DOES OUR SYSTEM WORK?
As the air passes through the tower
the pressure is decreased and wind
velocity is increased to generate
energy.

131. WHY DOES OUR SYSTEM WORK?
It works because of the curved
surfaces and the cooling effect of
the cold water

132. HOW IS OUR WATER USED?
75% Recycled
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.

133. DRY, HOT, AND WINDY AREAS
WHERE DOES OUR SYSTEM WORK BEST?

134. 12%
59%
6%
57%
0% 10% 20% 30% 40% 50% 60% 70%
WIND CATCHER MAX (HIGH COST
EST.)
WIND CATCHER MAX (LOW COST
EST.)
Savings compared to Solar and Wind
Wind Solar
Cost varies based on location and climate

135. 27,600,000
29,000,000
26,000,000
12,000,000
0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000
WIND TURBINES
SOLAR PANELS
WIND CATCHER MAX (HIGH EST.)
WIND CATCHER MAX (LOW EST.)
COST for annual power production of 60 GWh
COST for annual power production of 60 GWh
OUR SYSTEM COMPARED TO OTHERS

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

138. HOW DOES OUR SYSTEM WORK?
As the air passes through the tower
the pressure is decreased and wind
velocity is increased to generate
energy.

139. WHY DOES OUR SYSTEM WORK?
It works because of the curved
surfaces and the cooling effect of
the cold water

140. HOW IS OUR WATER USED?
75% Recycled
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.

141. DRY, HOT, AND WINDY AREAS
WHERE DOES OUR SYSTEM WORK BEST?

142. 12%
59%
6%
57%
0% 10% 20% 30% 40% 50% 60% 70%
WIND CATCHER MAX (HIGH COST
EST.)
WIND CATCHER MAX (LOW COST
EST.)
Savings compared to Solar and Wind
Wind Solar
Cost varies based on location and climate

143. 27,600,000
29,000,000
26,000,000
12,000,000
0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000
WIND TURBINES
SOLAR PANELS
WIND CATCHER MAX (HIGH EST.)
WIND CATCHER MAX (LOW EST.)
COST for annual power production of 60 GWh
COST for annual power production of 60 GWh
OUR SYSTEM COMPARED TO OTHERS

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

146. HOW DOES OUR SYSTEM WORK?
As the air passes through the tower
the pressure is decreased and wind
velocity is increased to generate
energy.

147. WHY DOES OUR SYSTEM WORK?
It works because of the curved
surfaces and the cooling effect of
the cold water

148. HOW IS OUR WATER USED?
75% Recycled
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.

149. DRY, HOT, AND WINDY AREAS
WHERE DOES OUR SYSTEM WORK BEST?

150. 12%
59%
6%
57%
0% 10% 20% 30% 40% 50% 60% 70%
WIND CATCHER MAX (HIGH COST
EST.)
WIND CATCHER MAX (LOW COST
EST.)
Savings compared to Solar and Wind
Wind Solar
Cost varies based on location and climate

151. 27,600,000
29,000,000
26,000,000
12,000,000
0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000
WIND TURBINES
SOLAR PANELS
WIND CATCHER MAX (HIGH EST.)
WIND CATCHER MAX (LOW EST.)
COST for annual power production of 60 GWh
COST for annual power production of 60 GWh
OUR SYSTEM COMPARED TO OTHERS

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

154. HOW DOES OUR SYSTEM WORK?
As the air passes through the tower
the pressure is decreased and wind
velocity is increased to generate
energy.

155. WHY DOES OUR SYSTEM WORK?
It works because of the curved
surfaces and the cooling effect of
the cold water

156. HOW IS OUR WATER USED?
75% Recycled
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.

157. DRY, HOT, AND WINDY AREAS
WHERE DOES OUR SYSTEM WORK BEST?

158. 12%
59%
6%
57%
0% 10% 20% 30% 40% 50% 60% 70%
WIND CATCHER MAX (HIGH COST
EST.)
WIND CATCHER MAX (LOW COST
EST.)
Savings compared to Solar and Wind
Wind Solar
Cost varies based on location and climate

159. 27,600,000
29,000,000
26,000,000
12,000,000
0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000
WIND TURBINES
SOLAR PANELS
WIND CATCHER MAX (HIGH EST.)
WIND CATCHER MAX (LOW EST.)
COST for annual power production of 60 GWh
COST for annual power production of 60 GWh
OUR SYSTEM COMPARED TO OTHERS

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

162. HOW DOES OUR SYSTEM WORK?
As the air passes through the tower
the pressure is decreased and wind
velocity is increased to generate
energy.

163. WHY DOES OUR SYSTEM WORK?
It works because of the curved
surfaces and the cooling effect of
the cold water

164. HOW IS OUR WATER USED?
75% Recycled
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.

165. DRY, HOT, AND WINDY AREAS
WHERE DOES OUR SYSTEM WORK BEST?

166. 12%
59%
6%
57%
0% 10% 20% 30% 40% 50% 60% 70%
WIND CATCHER MAX (HIGH COST
EST.)
WIND CATCHER MAX (LOW COST
EST.)
Savings compared to Solar and Wind
Wind Solar
Cost varies based on location and climate

167. 27,600,000
29,000,000
26,000,000
12,000,000
0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000
WIND TURBINES
SOLAR PANELS
WIND CATCHER MAX (HIGH EST.)
WIND CATCHER MAX (LOW EST.)
COST for annual power production of 60 GWh
COST for annual power production of 60 GWh
OUR SYSTEM COMPARED TO OTHERS

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

170. HOW DOES OUR SYSTEM WORK?
As the air passes through the tower
the pressure is decreased and wind
velocity is increased to generate
energy.

171. WHY DOES OUR SYSTEM WORK?
It works because of the curved
surfaces and the cooling effect of
the cold water

172. HOW IS OUR WATER USED?
75% Recycled
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.

173. DRY, HOT, AND WINDY AREAS
WHERE DOES OUR SYSTEM WORK BEST?

174. 12%
59%
6%
57%
0% 10% 20% 30% 40% 50% 60% 70%
WIND CATCHER MAX (HIGH COST
EST.)
WIND CATCHER MAX (LOW COST
EST.)
Savings compared to Solar and Wind
Wind Solar
Cost varies based on location and climate

175. 27,600,000
29,000,000
26,000,000
12,000,000
0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000
WIND TURBINES
SOLAR PANELS
WIND CATCHER MAX (HIGH EST.)
WIND CATCHER MAX (LOW EST.)
COST for annual power production of 60 GWh
COST for annual power production of 60 GWh
OUR SYSTEM COMPARED TO OTHERS

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

178. HOW DOES OUR SYSTEM WORK?
As the air passes through the tower
the pressure is decreased and wind
velocity is increased to generate
energy.

179. WHY DOES OUR SYSTEM WORK?
It works because of the curved
surfaces and the cooling effect of
the cold water

180. HOW IS OUR WATER USED?
75% Recycled
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.

181. DRY, HOT, AND WINDY AREAS
WHERE DOES OUR SYSTEM WORK BEST?

182. 12%
59%
6%
57%
0% 10% 20% 30% 40% 50% 60% 70%
WIND CATCHER MAX (HIGH COST
EST.)
WIND CATCHER MAX (LOW COST
EST.)
Savings compared to Solar and Wind
Wind Solar
Cost varies based on location and climate

183. 27,600,000
29,000,000
26,000,000
12,000,000
0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000
WIND TURBINES
SOLAR PANELS
WIND CATCHER MAX (HIGH EST.)
WIND CATCHER MAX (LOW EST.)
COST for annual power production of 60 GWh
COST for annual power production of 60 GWh
OUR SYSTEM COMPARED TO OTHERS

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

186. HOW DOES OUR SYSTEM WORK?
As the air passes through the tower
the pressure is decreased and wind
velocity is increased to generate
energy.

187. WHY DOES OUR SYSTEM WORK?
It works because of the curved
surfaces and the cooling effect of
the cold water

188. HOW IS OUR WATER USED?
75% Recycled
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.

189. DRY, HOT, AND WINDY AREAS
WHERE DOES OUR SYSTEM WORK BEST?

190. 12%
59%
6%
57%
0% 10% 20% 30% 40% 50% 60% 70%
WIND CATCHER MAX (HIGH COST
EST.)
WIND CATCHER MAX (LOW COST
EST.)
Savings compared to Solar and Wind
Wind Solar
Cost varies based on location and climate

191. 27,600,000
29,000,000
26,000,000
12,000,000
0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000
WIND TURBINES
SOLAR PANELS
WIND CATCHER MAX (HIGH EST.)
WIND CATCHER MAX (LOW EST.)
COST for annual power production of 60 GWh
COST for annual power production of 60 GWh
OUR SYSTEM COMPARED TO OTHERS

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

194. HOW DOES OUR SYSTEM WORK?
As the air passes through the tower
the pressure is decreased and wind
velocity is increased to generate
energy.

195. WHY DOES OUR SYSTEM WORK?
It works because of the curved
surfaces and the cooling effect of
the cold water

196. HOW IS OUR WATER USED?
75% Recycled
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.

197. DRY, HOT, AND WINDY AREAS
WHERE DOES OUR SYSTEM WORK BEST?

198. 12%
59%
6%
57%
0% 10% 20% 30% 40% 50% 60% 70%
WIND CATCHER MAX (HIGH COST
EST.)
WIND CATCHER MAX (LOW COST
EST.)
Savings compared to Solar and Wind
Wind Solar
Cost varies based on location and climate

199. 27,600,000
29,000,000
26,000,000
12,000,000
0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000
WIND TURBINES
SOLAR PANELS
WIND CATCHER MAX (HIGH EST.)
WIND CATCHER MAX (LOW EST.)
COST for annual power production of 60 GWh
COST for annual power production of 60 GWh
OUR SYSTEM COMPARED TO OTHERS

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

202. HOW DOES OUR SYSTEM WORK?
As the air passes through the tower
the pressure is decreased and wind
velocity is increased to generate
energy.

203. WHY DOES OUR SYSTEM WORK?
It works because of the curved
surfaces and the cooling effect of
the cold water

204. HOW IS OUR WATER USED?
75% Recycled
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.

205. DRY, HOT, AND WINDY AREAS
WHERE DOES OUR SYSTEM WORK BEST?

206. 12%
59%
6%
57%
0% 10% 20% 30% 40% 50% 60% 70%
WIND CATCHER MAX (HIGH COST
EST.)
WIND CATCHER MAX (LOW COST
EST.)
Savings compared to Solar and Wind
Wind Solar
Cost varies based on location and climate

207. 27,600,000
29,000,000
26,000,000
12,000,000
0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000
WIND TURBINES
SOLAR PANELS
WIND CATCHER MAX (HIGH EST.)
WIND CATCHER MAX (LOW EST.)
COST for annual power production of 60 GWh
COST for annual power production of 60 GWh
OUR SYSTEM COMPARED TO OTHERS

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

210. HOW DOES OUR SYSTEM WORK?
As the air passes through the tower
the pressure is decreased and wind
velocity is increased to generate
energy.

211. WHY DOES OUR SYSTEM WORK?
It works because of the curved
surfaces and the cooling effect of
the cold water

212. HOW IS OUR WATER USED?
75% Recycled
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.

213. DRY, HOT, AND WINDY AREAS
WHERE DOES OUR SYSTEM WORK BEST?

214. 12%
59%
6%
57%
0% 10% 20% 30% 40% 50% 60% 70%
WIND CATCHER MAX (HIGH COST
EST.)
WIND CATCHER MAX (LOW COST
EST.)
Savings compared to Solar and Wind
Wind Solar
Cost varies based on location and climate

215. 27,600,000
29,000,000
26,000,000
12,000,000
0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000
WIND TURBINES
SOLAR PANELS
WIND CATCHER MAX (HIGH EST.)
WIND CATCHER MAX (LOW EST.)
COST for annual power production of 60 GWh
COST for annual power production of 60 GWh
OUR SYSTEM COMPARED TO OTHERS

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

218. HOW DOES OUR SYSTEM WORK?
As the air passes through the tower
the pressure is decreased and wind
velocity is increased to generate
energy.

219. WHY DOES OUR SYSTEM WORK?
It works because of the curved
surfaces and the cooling effect of
the cold water

220. HOW IS OUR WATER USED?
75% Recycled
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.

221. DRY, HOT, AND WINDY AREAS
WHERE DOES OUR SYSTEM WORK BEST?

222. 12%
59%
6%
57%
0% 10% 20% 30% 40% 50% 60% 70%
WIND CATCHER MAX (HIGH COST
EST.)
WIND CATCHER MAX (LOW COST
EST.)
Savings compared to Solar and Wind
Wind Solar
Cost varies based on location and climate

223. 27,600,000
29,000,000
26,000,000
12,000,000
0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000
WIND TURBINES
SOLAR PANELS
WIND CATCHER MAX (HIGH EST.)
WIND CATCHER MAX (LOW EST.)
COST for annual power production of 60 GWh
COST for annual power production of 60 GWh
OUR SYSTEM COMPARED TO OTHERS

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

226. HOW DOES OUR SYSTEM WORK?
As the air passes through the tower
the pressure is decreased and wind
velocity is increased to generate
energy.

227. WHY DOES OUR SYSTEM WORK?
It works because of the curved
surfaces and the cooling effect of
the cold water

228. HOW IS OUR WATER USED?
75% Recycled
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.

229. DRY, HOT, AND WINDY AREAS
WHERE DOES OUR SYSTEM WORK BEST?

230. 12%
59%
6%
57%
0% 10% 20% 30% 40% 50% 60% 70%
WIND CATCHER MAX (HIGH COST
EST.)
WIND CATCHER MAX (LOW COST
EST.)
Savings compared to Solar and Wind
Wind Solar
Cost varies based on location and climate

231. 27,600,000
29,000,000
26,000,000
12,000,000
0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000
WIND TURBINES
SOLAR PANELS
WIND CATCHER MAX (HIGH EST.)
WIND CATCHER MAX (LOW EST.)
COST for annual power production of 60 GWh
COST for annual power production of 60 GWh
OUR SYSTEM COMPARED TO OTHERS

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

234. HOW DOES OUR SYSTEM WORK?
As the air passes through the tower
the pressure is decreased and wind
velocity is increased to generate
energy.

235. WHY DOES OUR SYSTEM WORK?
It works because of the curved
surfaces and the cooling effect of
the cold water

236. HOW IS OUR WATER USED?
75% Recycled
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.

237. DRY, HOT, AND WINDY AREAS
WHERE DOES OUR SYSTEM WORK BEST?

238. 12%
59%
6%
57%
0% 10% 20% 30% 40% 50% 60% 70%
WIND CATCHER MAX (HIGH COST
EST.)
WIND CATCHER MAX (LOW COST
EST.)
Savings compared to Solar and Wind
Wind Solar
Cost varies based on location and climate

239. 27,600,000
29,000,000
26,000,000
12,000,000
0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000
WIND TURBINES
SOLAR PANELS
WIND CATCHER MAX (HIGH EST.)
WIND CATCHER MAX (LOW EST.)
COST for annual power production of 60 GWh
COST for annual power production of 60 GWh
OUR SYSTEM COMPARED TO OTHERS

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

242. HOW DOES OUR SYSTEM WORK?
As the air passes through the tower
the pressure is decreased and wind
velocity is increased to generate
energy.

243. WHY DOES OUR SYSTEM WORK?
It works because of the curved
surfaces and the cooling effect of
the cold water

244. HOW IS OUR WATER USED?
75% Recycled
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.

245. DRY, HOT, AND WINDY AREAS
WHERE DOES OUR SYSTEM WORK BEST?

246. 12%
59%
6%
57%
0% 10% 20% 30% 40% 50% 60% 70%
WIND CATCHER MAX (HIGH COST
EST.)
WIND CATCHER MAX (LOW COST
EST.)
Savings compared to Solar and Wind
Wind Solar
Cost varies based on location and climate

247. 27,600,000
29,000,000
26,000,000
12,000,000
0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000
WIND TURBINES
SOLAR PANELS
WIND CATCHER MAX (HIGH EST.)
WIND CATCHER MAX (LOW EST.)
COST for annual power production of 60 GWh
COST for annual power production of 60 GWh
OUR SYSTEM COMPARED TO OTHERS

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

250. HOW DOES OUR SYSTEM WORK?
As the air passes through the tower
the pressure is decreased and wind
velocity is increased to generate
energy.

251. WHY DOES OUR SYSTEM WORK?
It works because of the curved
surfaces and the cooling effect of
the cold water

252. HOW IS OUR WATER USED?
75% Recycled
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.

253. DRY, HOT, AND WINDY AREAS
WHERE DOES OUR SYSTEM WORK BEST?

254. 12%
59%
6%
57%
0% 10% 20% 30% 40% 50% 60% 70%
WIND CATCHER MAX (HIGH COST
EST.)
WIND CATCHER MAX (LOW COST
EST.)
Savings compared to Solar and Wind
Wind Solar
Cost varies based on location and climate

255. 27,600,000
29,000,000
26,000,000
12,000,000
0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000
WIND TURBINES
SOLAR PANELS
WIND CATCHER MAX (HIGH EST.)
WIND CATCHER MAX (LOW EST.)
COST for annual power production of 60 GWh
COST for annual power production of 60 GWh
OUR SYSTEM COMPARED TO OTHERS

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

258. HOW DOES OUR SYSTEM WORK?
As the air passes through the tower
the pressure is decreased and wind
velocity is increased to generate
energy.

259. WHY DOES OUR SYSTEM WORK?
It works because of the curved
surfaces and the cooling effect of
the cold water

260. HOW IS OUR WATER USED?
75% Recycled
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.

261. DRY, HOT, AND WINDY AREAS
WHERE DOES OUR SYSTEM WORK BEST?

262. 12%
59%
6%
57%
0% 10% 20% 30% 40% 50% 60% 70%
WIND CATCHER MAX (HIGH COST
EST.)
WIND CATCHER MAX (LOW COST
EST.)
Savings compared to Solar and Wind
Wind Solar
Cost varies based on location and climate

263. 27,600,000
29,000,000
26,000,000
12,000,000
0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000
WIND TURBINES
SOLAR PANELS
WIND CATCHER MAX (HIGH EST.)
WIND CATCHER MAX (LOW EST.)
COST for annual power production of 60 GWh
COST for annual power production of 60 GWh
OUR SYSTEM COMPARED TO OTHERS

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

266. HOW DOES OUR SYSTEM WORK?
As the air passes through the tower
the pressure is decreased and wind
velocity is increased to generate
energy.

267. WHY DOES OUR SYSTEM WORK?
It works because of the curved
surfaces and the cooling effect of
the cold water

268. HOW IS OUR WATER USED?
75% Recycled
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.

269. DRY, HOT, AND WINDY AREAS
WHERE DOES OUR SYSTEM WORK BEST?

270. 12%
59%
6%
57%
0% 10% 20% 30% 40% 50% 60% 70%
WIND CATCHER MAX (HIGH COST
EST.)
WIND CATCHER MAX (LOW COST
EST.)
Savings compared to Solar and Wind
Wind Solar
Cost varies based on location and climate

271. 27,600,000
29,000,000
26,000,000
12,000,000
0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000
WIND TURBINES
SOLAR PANELS
WIND CATCHER MAX (HIGH EST.)
WIND CATCHER MAX (LOW EST.)
COST for annual power production of 60 GWh
COST for annual power production of 60 GWh
OUR SYSTEM COMPARED TO OTHERS

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

274. HOW DOES OUR SYSTEM WORK?
As the air passes through the tower
the pressure is decreased and wind
velocity is increased to generate
energy.

275. WHY DOES OUR SYSTEM WORK?
It works because of the curved
surfaces and the cooling effect of
the cold water

276. HOW IS OUR WATER USED?
75% Recycled
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.

277. DRY, HOT, AND WINDY AREAS
WHERE DOES OUR SYSTEM WORK BEST?

278. 12%
59%
6%
57%
0% 10% 20% 30% 40% 50% 60% 70%
WIND CATCHER MAX (HIGH COST
EST.)
WIND CATCHER MAX (LOW COST
EST.)
Savings compared to Solar and Wind
Wind Solar
Cost varies based on location and climate

279. 27,600,000
29,000,000
26,000,000
12,000,000
0 5,000,000 10,000,000 15,000,000 20,000,000 25,000,000 30,000,000 35,000,000
WIND TURBINES
SOLAR PANELS
WIND CATCHER MAX (HIGH EST.)
WIND CATCHER MAX (LOW EST.)
COST for annual power production of 60 GWh
COST for annual power production of 60 GWh
OUR SYSTEM COMPARED TO OTHERS