Explanation of cleanroom water systems

Cleanrooms manufacturing processes require some of the cleanest water in the world. The most demanding applications are semiconductor manufacturing and pharmaceutical manufacturing which require “ultra pure” water. The cleanroom water systems use multiple steps to create the water.

The typical cleanroom water system uses both reverse osmosis and deionizing systems.

Most cleanroom water systems start with sediment filter to remove the largest particles, then carbon filter to remove volatile organics.

The next step is the reverse osmosis system which removes up to 98% of impurities/contaminants in the cleanroom water. Reverse osmosis systems push water the semipermeable membrane to filter out contaminants. Often there is UV lamp in water line to kill bacteria. Cleanroom use liquid monitoring systems that count particles in in water to measure cleanliness after the reverse osmosis step.

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Following reverse osmosis, the next step is deionizing system to remove ions (minerals and salts) ed by passing the water over charged resin beds. The effectiveness of ion contaminant removal is measured by the resistivity of the water which can reach megaohms/cm. By comparison tap water is typically 1000-5000 ohms/cm. In some cases the cleanroom water is purified even further by running over other chemical beds.

Another method of purifying water for cleanrooms is distilling water. By converting water into steam, you can remove the minerals and organic contaminants. Typical resistance of distilled water is 500,000 ohm/cm. It is an extremely energy intensive process. This is a less common cleanroom water systems than reverse osmosis and deionization.

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