Energy efficiency tip of the day (Energy-Efficient Burners)

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Energy efficiency tip of the day (Energy-Efficient Burners)

Tip: Advanced boiler controls with energy efficiency burners can provide 3% savings in boiler energy consumption.

Background

  • The purpose of the burner is to mix molecules of fuel with molecules of air. A boiler will run only as well as the burner performs.
  • A poorly designed boiler with an efficient burner may perform better than a well-designed boiler with a poor burner.
  • Burners are designed to maximize combustion efficiency while minimizing the release of emissions.
  • A power burner mechanically mixes fuel and combustion air and injects the mixture into the combustion chamber. All power burners essentially provide complete combustion while maintaining flame stabilization over a range of firing rates.
  • Different burners, however, require different amounts of excess air and have different turndown ratios. The turndown ratio is the maximum inlet fuel or firing rate divided by the minimum firing rate.
  • An efficient natural gas burner requires only 2% to 3% excess oxygen, or 10% to 15% excess air in the flue gas, to burn fuel without forming excessive carbon monoxide.
  • Most gas burners exhibit turndown ratios of 10:1 or 12:1 with little or no loss in combustion efficiency. Some burners offer turndowns of 20:1 on oil and up to 35:1 on gas.
  • A higher turndown ratio reduces burner starts, provides better load control, saves wear and tear on the burner, reduces refractory wear, reduces purge-air requirements, and provides fuel savings.
  • Efficient Burner Technologies An efficient burner provides the proper air-to-fuel mixture throughout the full range of firing rates, without constant adjustment.
  • Many burners with complex linkage designs do not hold their air-to-fuel settings over time. Often, they are adjusted to provide high levels of excess air to compensate for inconsistencies in the burner performance.
  • An alternative to complex linkage designs, modern burners are increasingly using servomotors with parallel positioning to independently control the quantities of fuel and air delivered to the burner head.
  • Controls without linkage allow for easy tune-ups and minor adjustments, while eliminating hysteresis, or lack of re-traceability, and provide accurate point-to-point control.
  • These controls provide consistent performance and repeatability as the burner adjusts to different firing rates.
  • Alternatives to electronic controls are burners with a single drive or jackshaft.
  • Avoid purchasing standard burners that make use of linkages to provide single-point or proportional control.
  • Linkage joints wear and rod-set screws can loosen, allowing slippage, the provision of suboptimal air-to-fuel ratios, and efficiency declines.

Applications:

  • Consider purchasing a new energy-efficient burner if your existing burner is cycling on and off rapidly.
  • Rotary-cup oil burners that have been converted to use natural gas are often inefficient.
  • Determining the potential energy saved by replacing your existing burner with an energy-efficient burner requires several steps.
  1. First, complete recommended burner-maintenance requirements and tune your boiler.
  2. Conduct combustion efficiency tests at full- and part-load firing rates. Then, compare the measured efficiency values with the performance of the new burner.
  3. Most manufacturers will provide guaranteed excess levels of oxygen, carbon monoxide, and nitrous oxide.

References:

US Department of energy, EEC

Magdy Aly

Energy manager, Energy efficiency consultant Passionate to help others to save Energy and Environment.

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