Pipe Thermal Insulation: How Much Heat (and Money) You Lose Without It
June 13, 2026Boiler Safety Valve Testing: Malaysian Requirements & How Often to Test
June 13, 2026Pipe Thermal Insulation: How Much Heat (and Money) You Lose Without It
June 13, 2026Boiler Safety Valve Testing: Malaysian Requirements & How Often to Test
June 13, 2026Boiler Feedwater Treatment: Why pH and TDS Control Protect Your Boiler
pH measures how acidic or alkaline the boiler water is — kept slightly alkaline, it protects steel from corrosion. TDS (total dissolved solids) measures how concentrated the dissolved impurities are — kept in range by blowdown, it prevents scale, foaming, and carryover. Controlling both is the core of feedwater treatment and the key to a boiler that lasts and runs efficiently.
Two numbers tell you most of what you need to know about your boiler's water health: pH and TDS. Get them right and your boiler resists corrosion, stays free of scale, and produces clean steam. Let them drift and you invite the exact damage that shortens boiler life and drives up costs. Here's what each measures, why it matters, and how it's controlled.
Understanding pH in Boiler Water
pH is the measure of acidity or alkalinity on a scale from 0 (very acidic) to 14 (very alkaline), with 7 being neutral. Boiler water is deliberately kept slightly alkaline, because that's the condition in which steel is most protected from corrosion.
Why it matters:
- Too acidic (low pH) — the water aggressively corrodes the boiler's steel, thinning tubes and pressure parts.
- Too alkaline (high pH) — risks caustic attack and embrittlement of the metal.
- Correct range — forms a protective condition that keeps corrosion in check.
pH is managed through alkalinity-building treatment chemicals, dosed to hold the water in its safe band.
Understanding TDS in Boiler Water
Total dissolved solids (TDS) measures the total concentration of dissolved substances in the boiler water. As the boiler turns feedwater into steam, the steam leaves but the dissolved solids stay behind — so they steadily concentrate over time.
If TDS climbs too high:
- Scale forms more readily as dissolved solids reach saturation.
- Foaming and carryover occur, sending water and solids into the steam and downstream equipment.
- Steam quality drops, harming processes and risking water hammer.
The main way to control TDS is blowdown — periodically removing some concentrated boiler water and replacing it with fresh treated feedwater. Monitoring TDS tells you how much blowdown is needed: too little and solids build up, too much and you waste heat and treated water.
The Balancing Act
Good feedwater treatment is about balance. You want pH high enough to protect against corrosion but not so high it causes caustic problems. You want TDS low enough to avoid scale and carryover but not so low that you're wasting energy through excessive blowdown. Hitting both targets consistently is what protects the boiler.
Why Monitoring Matters
pH and TDS don't stay constant — they shift with feedwater quality, load, and how the boiler is run. That's why regular testing is essential. Routine monitoring lets you:
- Catch a drift before it causes corrosion or scale.
- Set blowdown correctly — neither wasteful nor insufficient.
- Confirm your treatment program is working.
- Maintain records that support JKKP compliance.
You can't manage what you don't measure. A boiler running without regular pH and TDS testing is operating blind — corrosion or scale may be developing silently, only revealing itself as leaks, failures, or rising fuel bills later on.
The Bottom Line
pH and TDS are the two vital signs of boiler water. Keep pH slightly alkaline to protect against corrosion, keep TDS in range through proper blowdown to prevent scale and carryover, and monitor both regularly. Master these two numbers and you've mastered the core of feedwater treatment — protecting your boiler's efficiency, reliability, and lifespan.
Feedwater Control Questions
Is Your Feedwater Under Control?
We set up monitoring and treatment that keep your pH and TDS in range — protecting your boiler from corrosion and scale.
