| Water treatment systemOur new model of the new water conditioning plant in January 2003. At present about 6 weeks of delivery time onto our new water processing system. |
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| Water treatment systemOur new model of the new water conditioning plant in January 2003. At present about 6 weeks of delivery time onto our new water processing system. |
| PEGE - Planetary Engineering Group Earth | 
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| Since 1991, striving to lead humanity into the solar age. A civilization has tasks that can be clearly recognized with the game theory of mathematics. | |||
| Support for a better future | |
| Please enhance PEGE's ability to lead humanity into solar age with your support. | |
| Archive of the PEGE - Planetary Engineering Group Earth | |
| Since 1991, a goal, but increasingly better ways to be able to implement this goal. The technology is getting better, the production of required technology is increasing. | |
| Water distillation - Sea water desalination |
| Water treatment system without filter | |
| Filters are expensive and make most trobile at water treatment systems. Our system works without filters. | |
| Systems for water treatment | |
| The different models of our water treatment systems. | |
| Gold miner with responsibility: the blue gold | |
| We search for businessmen with responsibility. It should not only be a business for you, but also a contribution for a better future for everybody. | |
| Malta: Possibility to solve the Maltese water problem | |
| 1995 had been 82 cubic meters of water for each of the 0.37 million inhabitants. 2050, 0.42 million inhabitants are expected. Supply can be solved with solar water distillation | |
| Qatar: Possibility to solve the Qatarese water problem | |
| 1995 had been 91 cubic meters of water for each of the 0.55 million inhabitants. 2050, 0.86 million inhabitants are expected. Supply can be solved with solar water distillation | |
| Kuwait: Possibility to solve the Kuwaitese water problem | |
| 1995 had been 95 cubic meters of water for each of the 1.69 million inhabitants. 2050, 3.41 million inhabitants are expected. Supply can be solved with solar water distillation | |
| Lybia: Possibility to solve the Lybian water problem | 
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| 1995 had been 111 cubic meters of water for each of the 5.41 million inhabitants. 2050, 19.11 million inhabitants are expected. Supply can be solved with solar water distillation | |||
| Bahrein: Possibility to solve the Bahreinian water problem | 
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| 1995 had been 162 cubic meters of water for each of the 0.56 million inhabitants. 2050, 0.94 million inhabitants are expected. Supply can be solved with solar water distillation | |||
| Singapore: Possibility to solve the Singaporean water problem | 
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| 1995 had been 180 cubic meters of water for each of the 3.33 million inhabitants. 2050, 4.19 million inhabitants are expected. Supply can be solved with solar water distillation | |||
| Barbados: Possibility to solve the Barbadosean water problem | 
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| 1995 had been 192 cubic meters of water for each of the 0.26 million inhabitants. 2050, 0.31 million inhabitants are expected. Supply can be solved with solar water distillation | |||
| Saudi Arabia: Possibility to solve the Arabian water problem | 
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| 1995 had been 249 cubic meters of water for each of the 18.26 million inhabitants. 2050, 59.81 million inhabitants are expected. Supply can be solved with solar water distillation | |||
| Jordan: Possibility to solve the Jordanian water problem | 
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| 1995 had been 318 cubic meters of water for each of the 5.37 million inhabitants. 2050, 16.67 million inhabitants are expected. Supply can be solved with solar water distillation | |||
| Yemen: Possibility to solve the Yemeni water problem | 
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| 1995 had been 346 cubic meters of water for each of the 15 million inhabitants. 2050, 61.12 million inhabitants are expected. Supply can be solved with solar water distillation | |||
| Israel: Possibility to solve the Israeli water problem | 
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| 1995 had been 389 cubic meters of water for each of the 5.52 million inhabitants. 2050, 9.14 million inhabitants are expected. Supply can be solved with solar water distillation | |||
| Tunisia: Possibility to solve the Tunisian water problem | |
| 1995 had been 434 cubic meters of water for each of the 8.99 million inhabitants. 2050, 15.91 million inhabitants are expected. Supply can be solved with solar water distillation | |
| Algeria: Possibility to solve the Algerian water problem | 
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| 1995 had been 527 cubic meters of water for each of the 28.1 million inhabitants. 2050, 59 million inhabitants are expected. Supply can be solved with solar water distillation | |||
| Burundi: Possibility to solve the Burundian water problem | 
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| 1995 had been 594 cubic meters of water for each of the 6.06 million inhabitants. 2050, 16.94 million inhabitants are expected. Supply can be solved with solar water distillation | |||
| Oman: Possibility to solve the Omani water problem | 
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| 1995 had been 874 cubic meters of water for each of the 2.21 million inhabitants. 2050, 10.93 million inhabitants are expected. Supply can be solved with solar water distillation | |||
| United Arab Emirates: Possibility to solve UAE water problem | |
| 1995 had been 902 cubic meters of water for each of the 2.21 million inhabitants. 2050, 5 (?) million inhabitants are expected. Supply can be solved with solar water distillation | |
| Egypt: Possibility to solve the Egyptian water problem | 
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| 1995 had been 936 cubic meters of water for each of the 62.1 million inhabitants. 2050, 115.5 million inhabitants are expected. Supply can be solved with solar water distillation | |||
| Kenya: Possibility to solve the Kenyan water problem | 
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| 1995 had been 1112 cubic meters of water for each of the 27.15 million inhabitants. 2050, 66 million inhabitants are expected. Supply can be solved with solar water distillation | |||
| Morocco: Possibility to solve the moroccan water problem | 
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| 1995 had been 1131 cubic meters of water for each of the 26.52 million inhabitants. 2050, 50 ? million inhabitants are expected. Supply can be solved with solar water distillation | |||
