With over seven billion people on the planet in need of clean water that is safe for drinking, agriculture and sanitation, our world is rapidly entering into water crises and though advances are being made in hydroflow star filter technology, it is still estimated that by 2025, roughly 50% of the planet’s population will suffer from water shortage.
Just a half a century ago it was widely thought that water was a plentiful resource; indeed it may have been, but as the population has grown the demand for water has grown with it and infrastructures are outdated at best, and non-existent at worst.
Approximately 70% of the word’s water supply is used for agriculture, while only 1% of the total is safe for drinking. Asia faces the most significant water crises, claiming 60% of the world population and yet only 36% of the planet’s water supply.
The uses of water are astoundingly broad and most never consider the amount of water that goes into the processes of our daily lives; in addition to cooking, bathing, drinking and cleaning, water is used in copious amounts to create the things we use. The production of steel, for example, consumes 62,600 gallons of water for one ton of the stuff. Crude oil costs 1851 gallons of water to refine just one barrel. Wool and cotton take 101 gallons for a pound. In fact, just about everything that touches our lives is produced through the use of water.
Membrane treatment in hydroflow star filter technology for sewage has been around for nearly 3 decades, but more recently there has been a significant increase in the volumes of wastewater being treated, as well as the resulting quality of recycled water that is capable of meeting rigorous standards. Membranes sometimes offer a treatment option for the removal of contaminants when other technologies fail. In addition to that, they tend to be more economically viable for water treatment, requiring less space than other methods.
Desalination can be expensive and energy consumptive, though advancement in reverse osmosis has made the process of removing salt from ocean water more effective for increasing water supplies of clean fresh water for drinking and for industrial use. When newer advances in membrane technology are added to the mix, the process is becoming even more monetarily feasible. Researchers and engineers are also working on running water desalination plants thorough hydroflow star filter technology on solar power rather than fuel, thus making the process more affordable for developing countries.
Light emitting diodes (LEDs) are also being used for water purification to remove chemicals, debris and biological contaminants by trapping pollutants in filters. The LEDS illuminate the nanotechnology coating on a mesh, through which the water is filtered. The process generates a chemical reaction that causes molecules to break apart and then dissolve in the water. Advances in hydroflow star filter technology nanotechnology and renewable energy are also being used to purify water with sunlight.