A whole house water filtration system is the best way to clean and refine the water that’s supplied to every faucet in your home. A modern system relies on four vital components to work effectively and efficiently. When you choose a modern whole house filter system for your home, ensure that these components are present.

1. A Multi-Step Filtration Process

The whole house water filter system should treat the water by passing it through multiple filtration media. This will ensure that the water is thoroughly cleaned and softened before it’s delivered to your faucets and fittings. The most advanced systems will include four specific filtration methods to get the best results.

A Granular Activated Carbon Filter: This will trap and absorb any organic molecules and microscopic particles, such as chlorine, disinfection byproducts, and bleach. These materials are often left over from the water treatment plant, and they can affect the taste and odor of your water supply.

An Ion Exchanger: These resin beads are electrically charged to attract the mineral ions that cause hard water, such as calcium and magnesium. This will make the water softer, easier to use around the home and kinder to your water using appliances.

A Bacteria Inhibitor: This filtration media uses an electrochemical reaction to control contaminants, such as bacteria, algae, fungi, and scale. If these contaminants are left unchecked, they can grow throughout the entire system affecting your water supply.

Garnet Filtration: This is a hard and high density filter media that will remove any remaining sediment to ensure that your water is clear.

2. Computerized Control Systems

The modern, whole house water filter system should be controlled automatically by a computer that is programmed to meet your specific water needs. This will ensure that the water quality and the required capacity is optimized and as efficient as possible. A computer control system will be able to manage any contaminant levels and deliver a consistently high level of cleaning performance. This will include self cleaning functions and eco flow regeneration to manage the regenerate strength and maximize the cleaning efficiency.

3. An Automated Cleaning Sequence

The system should have an advanced automated cleaning sequence to ensure that the optimum level of water filtration is taking place at all times. A low level electrical current may be used to produce a molecular reaction that leads to the production of an inherent cleansing solution. This will inhibit the growth of any bacteria in the system along with a seven step automatic cleaning process.

4. A Backup Capacitor

If the power is lost to your system, it’s essential that you still have access to your cleaned and filtered water supply. A backup capacitor will ensure that your system continues to run even if there is a loss of power. A less sophisticated system may use a battery backup system to provide similar functionality, but these systems must be checked and recharged annually to ensure that they work correctly.