Reverse Osmosis:
The most common
use of present Reverse Osmosis methods entail mechanical and electrical production of heat through the
use of oil and gas as the driving engine. Such methods are mostly used in desert climates
(Saudi Arabia, UAE and Kuwait in particular). Northern climates are not required to consider such method
due to the availability of ample clean water. In some climates brackish water is recycles and used for
irrigation (Saudi Arabia in particular). The challenge would be to device a method for which desalination could be made more economically
and ecologically friendly and by allowing the distribution of thousands of such tents and liquid membranes for the purpose
of natural cycle desalination. One method being developed would be to allow liquid to heat up through Wind Solar + Water
Cones (WSW) and to elevate the temperature to a boiling point for which condensation is allowed and therefore controlled evaporation
and will be transformed into fresh water.
Condensation: The vision would
be to allow to heat sea water up to a boiling point in a semi membrane container with another liquid on the inside acting
as an heat insulation zone between regular sea water and soon to be desalinated sea water.
The process involves heating up a Hot Rod with octopus like shape and through the process of heating up
the enclosed sea water inside the membrane; condensed evaporation would then be circulated into narrowing tubes and thus
allowing for condensation to accumulate and eventual delivery of fresh water. This process is slightly different form present
Reverse Osmosis methods as it allows for continuous non stop desalination to take place throughout day and night time by allowing
Solar Energy to simultaneously heat sea water via metal tubing and pumped into an enclosed volume with the Hot Rod (resembles
a concrete mixer / vibrator) as main agent of heating and by utilizing wind, solar and water tidal movement to harness heat
as a form of energy and thus allowing the process to continue non stop day and night. The
material / liquid between the outer sea water membrane and interior shall retain heat and allow for passive heating of the
membrane to occur during nighttime.
