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Boilers used for space heating loads are often oversized, with their capacity chosen to meet total building heat losses plus heating of ventilation and infiltration air under extreme or design-basis temperature conditions. No credit is taken for thermal contributions from lights, equipment, or people. Excess capacity is also added to bring a facility to required settings quickly after a night setback.
CYCLING LOSSESA boiler cycle consists of a firing interval, a post-purge, an idle period, a pre-purge, and a return to firing. Boiler efficiency is the useful heat provided by the boiler divided by the energy input (useful heat plus losses) over the cycle duration. This efficiency decreases when short cycling occurs or when multiple boilers are operated at low firing rates.
This decrease in efficiency occurs, in part, because fixed losses are magnified under lightly loaded conditions. For example, if the radiation loss from the boiler enclosure is 1 percent of the total heat input at full-load, at half-load the losses increase to 2 percent, while at one-quarter load the loss is 4 percent. In addition to radiation losses, pre- and post-purge losses occur. In the pre-purge, the fan operates to force air through the boiler to flush out any combustible gas mixture that may have accumulated. The post-purge performs a similar function. During purging, heat is removed from the boiler as the purged air is heated.
A 1,500 horsepower (hp) (1 hp = 33,475 Btuh) boiler with a cycle efficiency of 72.7 percent (E1) is replaced with a 600 hp boiler with a cycle efficiency of 78.8 percent (E2). Calculate the annual cost savings.
Fractional Fuel Savings = (1 – E1/E2) = (1 – 72.7/78.8) x 100 = 7.7 percent
If the original boiler used 200,000 MMBtu of fuel annually, the savings from switching to the smaller boiler (given a fuel cost of $8.00/MMBtu) are:
Annual Savings = 200,000 MMBtu x 0.077 x $8.00/MMBtu = $123,200
MULTIPLE BOILER OPERATIONSThe most efficient boilers should be brought on-line as loads increase, with less-efficient units taken off-line first as loads drop. Subject to emissions, operations, or firing rate limits, shift loads from a boiler where steam production is expensive to one where it is less expensive.
Use automatic controllers that determine the incremental costs (change in steam cost/change in load) for each boiler in the facility, and then shift loads accordingly. This maximizes efficiency and reduces energy costs. If possible, schedule loads to help optimize boiler system performance. Facilities containing multiple boilers that are simultaneously operated at low-fire conditions offer energy-saving opportunities for using proper boiler allocation strategies.
BOILER DOWNSIZINGFuel savings can be achieved by adding a smaller boiler sized to meet average loads at your facility, or by re-engineering the plant to consist of multiple small boilers. Multiple small boilers offer reliability and flexibility to operators to follow load swings without over-firing and short cycling. Facilities with large seasonal variations in steam use operate small boilers when demand drops rather than operating their large boilers year-round.
Suggested Actions• Determine the efficiency and operating cost of each of your boilers and adopt a control strategy for maximizing overall efficiency of multiple boiler operations.
• Avoid short cycling by purchasing a burner with a high turndown ratio, or by adding a small boiler to your boiler room to provide better flexibility and high efficiency at all loads.
ResourcesU.S. Department of Energy (DOE) - DOE’s software, the Steam System Assessment Tool and Steam System Scoping Tool, can help you evaluate and identify steam system improvements. In addition, refer to Improving Steam System Performance: A Sourcebook for Industry for more information on steam system efficiency opportunities.
Visit the BestPractices Website at www.eere.energy.gov/industry/bestpractices to access these and other efficiency resources.
Reprinted from Steam Tip Sheet #16, “Minimize Boiler Short Cycling Losses,” from the U.S. Department of Energy’s Office of Energy Efficiency and Renewable Energy. For more information, visit www.eere.energy.gov.
Publication date: 03/24/2007