How Scale Impacts Boiler Performance

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Scale Affects Boiler Performance

Remove Scale From Boilers for Better Performance

Maintaining a scheduled cleaning program for boilers is essential to reduce costs and increase equipment life. dirty boiler tubes – whether the firetube or watertube type – cause more fuel to be used and drive up heating costs. Inefficiency caused by dirty tubes also results in more frequent cycling of motors, blowers and other heating system components and can lead to costly repairs and replacements.

Remove Scale From Boilers for Better PerformanceA firetube boiler has tubes that carry hot gases. The tubes are surrounded by water that is heated. The hot gases flowing through the tubes carry the by-products of combustion, primarily soot and scale, which are deposited on the inside surfaces of the tubes. The greater the amount of deposit, the lower the heat transfer to the water will be and the harder the boiler must work.

No matter what type of fuel is used (gas, oil, coal), soot quickly accumulates in the firetubes. Because soot has five times the insulating value of asbestos, the heat transfer loss in a dirty boiler rises dramatically as the layer of soot builds up. For example, 1/8" of soot – which can build up in only two weeks – results in a heat loss of 47%, with an increased fuel consumption need of 8-1/2%.

Scale builds up over a longer period of time and also contributes to boiler inefficiency. Heat loss of 8% and increased fuel consumption of 2% will result from only 1/32" (0.8mm) of scale in the boiler tubes.

In a watertube boiler, water runs through tubes that are surrounded by the heating source. Because the water is heated to very high temperatures in this type of boiler, the solids in the water tend to accumulate quickly on the tubes’ inside surfaces, causing the same heat transfer problem and related cost increases as occur in firetube boilers.

Cleaning firetubes has traditionally called for putting a brush on the end of a rod, manually pushing the brush through each tube and then later vacuuming the tubes. In the case of watertube boilers, chemical tube cleaning solutions have been used to clean the insides of the tubes.

An alternative to manual or chemical methods is automation of the entire cleaning operation. One unit automatically sends the cleaning tool, such as a steel brush or spring-loaded scale scraper, the full distance of the tube. Soot and scale are removed by vacuuming, or by water flow with watertube boilers. For severely scaled tubes, equipment is available that rotates a flexible shaft with a cleaning tool and vacuum (or water flow) attachment through the tubes.

Every boiler maintenance program should include regular efficiency testing. Testing equipment is available that reveals certain trends that indicate it is time to clean the boiler.

For example, an increase in stack temperature frequently signals soot or scale buildup. An electronic combustion efficiency tester should be considered standard for the maintenance program. It analyzes flue gas and displays oxygen content, stack temperature and combustion efficiency. Comparison data from test to test will help pinpoint maintenance requirements.

Regular boiler maintenance that includes thorough cleaning of the boiler tubes will result in lower operating costs and fuel consumption, greater efficiency and longer life for your heating system.

Reprinted with permission from Cleaning & Maintenance Management Magazine