The Hydrophasec Solution

Water demand and supply have become an international issue due to several factors: global warming (droughts are more often in arid areas), low annual rainfall, a rise in population, high living standards, and the expansion of industrial and agricultural activities. Fresh water from rivers and groundwater sources are becoming limited. Therefore, it has turned into a competition to get this vital liquid and to find more feasible and economical sources that can quench the great demand that the world requires and avoid water restrictions and service interruptions to domestic water supply.

The oceans represent the earth’s major water reservoir. About 97% of the earth’s water is seawater while another 2% is locked in icecaps and glaciers. Available fresh water accounts for less than 0.5% of the earth’s total water supply. So even though seawater is not suitable for human use and agricultural purposes, desalination can provide a potential solution by removing salt from seawater such that seawater becomes a quasi-unlimited source of fresh water. This can occur while conventional water supplies are turning very expensive due to the over exploitation of aquifers and the high costs related to wastewater treatment. Desalination also has the great advantage that it does not depend on climate conditions and the storage of rainfall.

Desalination is an excellent alternative for getting fresh water, especially in dry places such as the Middle East and North Africa, and in regions which are surrounded by seawater at their boundaries, such as Australia.

The Solarphasec Solution

The demand for electrical energy in the world is increasing at an exponential rate.  As current energy sources reach capacity, alternative sources of electrical power generation must be developed.  While innovations with fossil fuels have provided short term solutions to meet current demands, they are limited and costly to the environment.  Sustainable energy production methods are being developed, yet a true breakthrough technology is yet to emerge. 

Solar power generation, as part of the overall sustainable energy strategy is growing, but with the inefficient methods currently being used, solar energy may never represent a significant amount of the total global energy production.  The current methods for generating electrical power with solar energy are done either by using photovoltaic cells that convert sunlight directly to electricity or by using concentrated sunlight to heat a fluid which in turn drives a steam turbine generator, similar to a traditional power plant.  This discussion focuses on solar photovoltaic power generation, covering the current market growth, current limitations, and the solutions to these limitations provided by the introduction of Solarphasec Technology.