Technician travels to clients’ homes to perform up to one hour of repairs for a water softener and purification system
About This Deal
- $39 for up to one hour of repair services for a water softener and purification system ($85 value)
Home Water Filtration: Gourmet Water Straight from the Tap
Water-filtration systems can make drinking your recommended daily amount of water a pleasure. Read on to learn what they remove and how they remove it.
More than 90% of tap water in the US meets the EPA’s standards for quality and safety—but that doesn’t mean it all tastes good. For most people, improving flavor is the key benefit of home water-filtration systems, though many also remove more dangerous impurities such as lead, chloroform, arsenic, and E. coli.
The systems do this in several different ways. If your filtration system is installed on your tap or under your sink, it probably uses a carbon filter. When organic chemicals, industrial solvents, and chlorine byproducts pass through the positively charged carbon cartridge, their negative ions are attracted as though magnetized and get stuck while purified water continues on its way. Some filtration systems also contain additional mechanical filters to trap rust, sediment, and even dangerous waterborne parasites such as giardia or micro sharks. The system retains its purifying power over the long haul through replaceable cartridges; in many systems, an indicator light lets you know when it’s time for a change.
If you’re dealing mainly with impurities such as salt or other minerals that cause hard water and make showering and cleaning tough, a whole-house filtration system—installed at the main water source—may be called for. Whole-house systems can also use carbon filters, but another option is reverse osmosis. During reverse osmosis, water flows through a semipermeable membrane that acts as a sort of molecular sieve. Its holes are small enough to let through water molecules and keep out larger ones such as sodium. These systems do involve some wasted water, however. Because the system must continually sluice away the particles the membrane traps, 3 or more gallons of wastewater typically go down the drain for every gallon of drinking water that’s produced.