Systems for water treatment

The different models of our water treatment systems.






  Standard units 800mm x 1200mm x 1500mm


Operation with electric motor - or different hybrid systems (photovoltaic or generator) 

ECO 2001  power input 1000W   distillate  500- 1000 litre/day   264 gal/day
ECO 2002  power input 2000W   distillate 1000- 2000 litre/day   528 gal/day
ECO 2003  power input 3000W   distillate 2000- 3000 litre/day   792 gal/day
ECO 2004  power input 4000W   distillate 3000- 4000 litre/day  1056 gal/day
ECO 2005  power input 5000W   distillate 4000- 5000 litre/day  1320 gal/day

  Containerized units


Operation with electric motor – generator or photovoltaic roof

ECO 200C power input up to 200 KW possible distillate up to 200.000 litre/ day 52800 gal/day

  Stationary large-scale plants


Operation with electricity, gasturbines, combustion engine, steam and/or photovoltaic

ECO - GWW power input depending on distillate output (customized solutions up to “x” millions of gallons/day).

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  Water distillation - Sea water desalination


Outstanding energy efficiency with 41 liter water per kWh. This makes the use of solar energy by photovoltaic for the sea water desalination easy.

Water treatment system Water treatment system
Our 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.


Water treatment system without filter
Filters are expensive and make most trobile at water treatment systems. Our system works without filters.


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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 Lybia: Possibility to solve the Lybian water problem
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 Bahrein: Possibility to solve the Bahreinian water problem
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 Singapore: Possibility to solve the Singaporean water problem
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 Barbados: Possibility to solve the Barbadosean water problem
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 Saudi Arabia: Possibility to solve the Arabian water problem
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 Jordan: Possibility to solve the Jordanian water problem
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 Yemen: Possibility to solve the Yemeni water problem
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 Israel: Possibility to solve the Israeli water problem
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 Algeria: Possibility to solve the Algerian water problem
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 Burundi: Possibility to solve the Burundian water problem
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 Oman: Possibility to solve the Omani water problem
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 Egypt: Possibility to solve the Egyptian water problem
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 Kenya: Possibility to solve the Kenyan water problem
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 Morocco: Possibility to solve the moroccan water problem
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




          Systems for water treatment: The different models of our water treatment systems. https://www.pege.org/clearwater/systems.htm