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.
Natural ventilation and air movement could-be considered under the heading of 'structural controls’ as it does not rely on any form of energy supply or mechanical installation, but due to its importance for human comfort, it deserves a separate section.
CPD Presentation: Key considerations when specifying weather louvresColt UK
The purpose of our presentation is to highlight areas of consideration for both Architects and Service Engineers to ensure that specifications adequately reflect design requirements and performance expectations.
building materilas-1_architecture_Straw as a building material-physical aspects - Basics, Fire, moisture, insects and pests proof.
Plastering straw bale walls, straw bale roof.
Natural ventilation and air movement could-be considered under the heading of 'structural controls’ as it does not rely on any form of energy supply or mechanical installation, but due to its importance for human comfort, it deserves a separate section.
CPD Presentation: Key considerations when specifying weather louvresColt UK
The purpose of our presentation is to highlight areas of consideration for both Architects and Service Engineers to ensure that specifications adequately reflect design requirements and performance expectations.
building materilas-1_architecture_Straw as a building material-physical aspects - Basics, Fire, moisture, insects and pests proof.
Plastering straw bale walls, straw bale roof.
Papercrete is a construction material which consists of re-pulped paper fiber with Portland cement or clay and/or other soil added. First patented in 1928, it was revived during the 1980s. Although perceived as an environmentally friendly material due to the significant recycled content, this is offset by the presence of cement. The material lacks standardisation, and proper use therefore requires care and experience. Eric Patterson and Mike McCain, who have been credited with independently "inventing" papercrete (they called it "padobe" and "fibrous cement"), have both contributed considerably to research into machinery to make it and ways of using it for building
OSI Steel Pvt Ltd (OSI) was incorporated as a private limited company for steel trading. The company then entered into a 50:50 Joint venture with a Japanese Steel Trading House, for promoting Japanese Steel Mills to the Indian customers. In the year 2011 OSI was fortunate to become the direct Trading house for Hyundai Steel, Korea.
Papercrete is a construction material which consists of re-pulped paper fiber with Portland cement or clay and/or other soil added. First patented in 1928, it was revived during the 1980s. Although perceived as an environmentally friendly material due to the significant recycled content, this is offset by the presence of cement. The material lacks standardisation, and proper use therefore requires care and experience. Eric Patterson and Mike McCain, who have been credited with independently "inventing" papercrete (they called it "padobe" and "fibrous cement"), have both contributed considerably to research into machinery to make it and ways of using it for building
OSI Steel Pvt Ltd (OSI) was incorporated as a private limited company for steel trading. The company then entered into a 50:50 Joint venture with a Japanese Steel Trading House, for promoting Japanese Steel Mills to the Indian customers. In the year 2011 OSI was fortunate to become the direct Trading house for Hyundai Steel, Korea.
You can't control me! Throttling blowers and with valves and VFDsBrian Gongol
Aeration is achieved by getting the right amount of oxygen into the water for the capacity of the water to handle it. How best to achieve that complicated, multi-variable outcome?
2nd CSP Training series : solar desalination (1/2)Leonardo ENERGY
* Solar desalination technologies.
* Multi-Effect Distillation with solar energy
* Double Effect Absorption Heat Pump use in solar MED desalination
* Hybrid solar-gas desalination systems
* Thermal storage to 24 h operation
The Reliable Renewable - Geothermal HVACPantherHVAC
The reliable renewable when it comes to heating and cooling your home is geothermal. This presentation explores the benefits and costs of geothermal heating and cooling systems.
It designed for an Econet system especially for the use in the greenhouses of nurseries or the farms to protect the plants from excess of sunlight. It is one of the energy saving product which works on the process of adiabatic cooling.
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
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
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
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
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
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
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
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
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
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
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
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
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
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
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
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
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
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
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
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
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
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
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
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
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
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
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
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
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
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
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
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
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
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
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