How Does a Purified Water System Work?

November 24, 2025

ข่าว บริษัท ล่าสุดเกี่ยวกับ How Does a Purified Water System Work?

Pharmaceutical purified water is a critical ingredient in drug manufacturing. Its production relies on a sophisticated and validated system to ensure it meets strict quality standards.

The Journey of Water: A Step-by-Step Process

The system works by removing impurities step-by-step. Here is a simplified process flow:

1. Pretreatment: The First Line of Defense

This stage protects the main system.

  • Multi-media Filters: Remove sand, rust, and suspended solids.

  • Carbon Filters: Adsorb chlorine and organic compounds, which can damage the Reverse Osmosis membrane.

  • Water Softener: Removes calcium and magnesium ions to prevent scaling.

2. Primary Purification: The Heart of the System

This is where most impurities are removed.

  • Reverse Osmosis: High-pressure water is forced through a semi-permeable membrane. This membrane blocks over 99% of dissolved salts, bacteria, and organic molecules, producing very pure water.

3. Polishing: Achieving Ultimate Purity

This final step ensures the highest quality.

  • Electrodeionization: A chemical-free process that uses electricity to remove the last traces of ions. Alternatively, Mixed-Bed Ion Exchange can be used.

  • The Polishing Loop: Pure water is stored in a tank and constantly circulated through a loop. This loop includes UV Sanitizers to control microbes and filters to remove any final particles.

Beyond Technology: Ensuring Quality and Compliance

A reliable system requires more than just equipment.

  • Water System Validation: For GMP compliance, the entire system must undergo a rigorous qualification process (DQ, IQ, OQ, PQ) to prove it consistently produces water that meets pharmaceutical purified water standards.

  • Continuous Monitoring: The water quality is constantly checked for parameters like conductivity and TOC (Total Organic Carbon).

In summary, a Purified Water System is a multi-barrier process. It combines physical filtration, membrane separation, and electrical polishing to safely and reliably produce high-purity water for pharmaceutical manufacturing.