West Basin’s Water Reliability 2020 program is designed to shift our future water supplies to more locally-controlled and reliable sources of water. Nothing is more reliable and sustainable for the planet than recycled water. West Basin's state-of-the-art water recycling program produces five types of "designer" waters to specifically meet our customers' needs.
The right water for the right use. Water recycling is a major pillar of our Water Reliablity 2020 goals.
We hear a lot about the importance of recycling to preserve the environment. For years, we have been recycling cans, plastic, glass and just about everything else. After all, it’s the right thing to do. But for some reason, people have a hard time accepting the concept of recycling water. Which is odd, because the truth of the matter is, we have been drinking recycled water, and only recycled water, since the dawn of time. We just let nature do all the recycling. Now, we have learned how to do it ourselves – and do it faster.
"All the water that is on Earth today is the same amount which was there yesterday and the same amount which will be there in the future."
The hydrologic cycle, or "the water cycle" as it is more commonly known, is very efficient at purifying water. It just takes time. Rain falls (precipitation) to the earth where the water vaporizes and rises into the sky (evaporation) to form clouds (condensation). When the clouds become heavy with moisture, it rains again, and the cycle repeats itself.Even rainwater, though, has never been absolutely pure. When it fell, it brought with it everything else that was in the sky: smoke, dust, bacteria, acid, etc. Most of the water consumed by animals and humans had been filtered first in streams and rivers by sedimentary action, solids settling out as water flowed downstream.
When that water was not sufficient, we sunk wells to acquire water from under the ground. This water has been absorbed into the ground. It had percolated through the layers of soil and sand to natural underground pockets called aquifers. Over years, water passed through these various layers, was filtered naturally and became clean enough for us to drink. All well water is the result of this process.
As the population grew, nature alone was unable to meet the ever-growing demand for fresh water. With modern technological advancements and extensive research, however, we have learned how to mimic this natural process of cleaning water and to do it at a much faster rate. Water recycling employs the same principle as the hydrologic cycle but with vastly greater efficiency, and results in a much purer end product. At West Basin, we perform advanced water treatments that exceed state and federal drinking water standards. Microfiltration and reverse osmosis are the most advanced phases of water treatment, and the final product is as pure as the bottled water you buy at your local supermarket.
The process begins with a multistep process that mimics nature’s purification process.
See animated process here.
Phase 1: The first phase, or primary treatment, begins when wastewater reaches the sewage treatment plant where solids are removed from the water much as nature does in streams and rivers. Then tiny dirt-loving micro-organisms, like those found naturally in rivers and other bodies of water are added. They eat particles that are too small to see or too light to settle. Once they get full and heavy, they fall to the bottom and cleaner water rises to the surface. Then, during tertiary treatment, the water goes through a filtration process where the water percolates through layers of fine anthracite coal, sand and gravel much as natural underground seepage occurring in aquifers. In addition, disinfectants such as chlorine are added to kill germs. At this point, the water is ready for use in landscape irrigation and various industrial and commercial uses.
Phase 2: But before it is ready to drink, we take nature’s purification even further. In a microfiltration process, water is pressurized through pipes containing straw-like fibers with pores that are 5,000 times smaller than a pinhole. Even though this is equal to the water quality enjoyed by our ancestors, we don’t stop there. We eliminate virtually all impurities though a process called reverse osmosis.
Phase 3: In reverse osmosis, water is pressurized at about 200 pounds per square inch (equivalent to 200 lbs. pressing on every square inch of your body) through tightly wound layers of membranes with pores that are 5 million times smaller than a pinhole! To date, reverse osmosis is the most advanced filtration process, surpassing even the Earth's miraculous natural ability.
Water recycling is a proven natural process that has been occurring for billions of years, and today, we have been able to replicate this cycle and even improve on it to produce the safest and highest quality water available anywhere.
Although 75% of Earth is covered by water, only 1% of that is freshwater available for serving the water needs of more than 6.6 billion people in the world today. Because of drought and pollution, that 1% is dwindling. To make matters worse, the world population continues to grow, further increasing the demand for water. Now, to bring it closer to home, in Southern California, more than 66% of our water supply is imported from outside the region.
During the next 15 years, California must reduce its imported water supply by nearly 1 million acre-feet (one acre-foot equals 326,000 gallons), but our population continues to rise. As the available water supply is decreasing, the demand for water is increasing. To ensure that we have enough water to meet our present and future needs, we need to conserve water and expand the use of recycled water.
In essence, by expanding the use of recycled water, we are actually helping to conserve our drinking water supplies.
There’s also an added big bonus. Recycled water is good for the environment. Without recycling, secondary treated sewage water would be discharged directly into our oceans – affecting the marine life. By recycling, less water is discharged, improving the environmental condition of our coastal waters.