How to efficiently use a gas furnace/boiler
I read a while back that gas powered boilers are most efficient when working at, or close to, full load.
I remember that our old boiler's burner was either on at max or off, the flame could not be adjusted. The only thing that made this old boiler turn on or off was the temperature of the water in the heating system: when it got too low the boiler would turn on and heat the water at full blast until the temperature on the return rose to a set level. I had to manually adjust the return temperature setting almost every day depending on the outdoor temperature. New boilers all have an adjustable burner and reduce the flame size once they have warmed up. A room thermostat controls when the boiler cycles on and off, but the flame size depends on the water temperature. If this is set to a high temperature, then the boiler warms the house quickly then shuts off. Of course, after the initial warmup stage the flame gets smaller as the water temperature rises. If the water temperature is set lower, then the flame gets reduced much quicker and it takes longer to heat the house. So the question is: Does the boiler's efficiency drop when the flame gets smaller? Also, should I set my boiler so that the water temperature is high or low? In other words, should the house heat up quickly at close to full blast, or should the boiler just barely keep the water at a temperature that keeps the house from cooling down. Does the process of heating water to a higher temperature lower efficiency? For a moment let's forget that a 100 watt water pump turns on/off with the boiler. Let's also not take into account that our boiler is a little oversized - it is a 23kW model and was installed before the house's walls were insulated with 5cm of styrofoam and the windows replaced with argon filled windows. A few years from now, after I do a few more renovations, I hope to replace it a much smaller condensing-type boiler. |
I'd tend to think that as the flame gets smaller, the efficiency would increase. Also, as the temperature of the water decreases, the efficiency would increase.
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That's not to suggest you want to cultivate a cold basement or fail to seal your cold air return. To guess at some numbers, maybe your furnace causes a 60°F rise in temperature when it's drawing in 40°F air (output: 100°F), and a 58°F rise in 65°F air (output: 123°F). |
So I'll lower the temperature of the system's water today, that should make the boiler go for longer with a smaller flame (plus the 100W water pump will be on longer, too:(). I've wondered about replacing the burner with one from a smaller model - that way the boiler would be working at higher load (higher efficiency?) to keep the same temperature. In the spring I'll ask the maintenance guy about that.
A good side of lowering the water temperature in our system is that the radiators and pipes won't expand and contract as much (I can hear them creaking and whining shortly after each time the boiler fires up). This may help keep the 40 year old system from springing a leak or two. On the other hand, with the system at a lower temperature there will be less heat radiating, so I might be forced to raise the thermostat's temperature a bit to stay comfortable. |
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I found the boiler's instruction manual, here is some info: Thermal power max/min (kW): 23.1/9.2 Efficiency at nominal power (%): 90.2 Efficiency at 30% of nominal power (%): 87.8 Water temperature max/min (°C): 85/34 So the difference in efficiency between full and 30% of nominal power is only 2%. Not much. On the other hand, the boiler has never been set to more than 60-65°C, so a smaller burner (17kW instead of 23kW) would still work with no problems. |
I searched around and found a EnergySavers.gov page on furnaces and boilers. One of the subpages is about retrofitting and older furnace, and I found this:
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I have seen that same thing on the energysavers site, Piwoslaw, but I couldn't find anything about how to actually do any of it. Finding anyone around here (southern US) with the expertise to help me is next to impossible. The most knowledgeable boiler tech I have spoken to said he had never heard of putting an outdoor reset on a home boiler. *Doph!* He had never done any energy retrofitting on boilers and tried to convince me that retrofitting for efficiency was a bad idea. The nerve! He did show me how to safely de-rate my burner so that it burns around 100k btu instead of 175k. That, along with setting the aquastat to a lower temperature, seems to have saved some gas, thought I don't know how much. Mine is an old coal boiler converted to natural gas, so it could use the smaller burn chamber, better seals, and a more baffles. There is an advantage of having an 80 year old boiler with a 70 year old gas conversion though; it means that there is no chance of voiding the manufacturer's warranty ;).
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Derating boilers or furnaces,or seting them up require a anaylsis of the combustion flue gases. You need to find someone with the proper equiptment.The PCA (portable combustion analyzer) directly measures, displays, and stores the following data:
• Room Temperature in °F or °C (Primary Air/Ambient Temperature) • Flue Gas Oxygen Content in % • Flue Gas Temperature in °F or °C • Flue Gas Carbon Monoxide Content (H2 Compensated) in ppm (For analyzers having a Carbon Monoxide sensor) • Flue Gas Nitric Oxide content in ppm (For analyzers having a Nitric Oxide sensor) • Pressure/Draft in Millibars, Pascals, or Inches of Water Column (For analyzers having a draft sensor) • Differential Pressure in Millibars, Pascals, or Inches of Water Column (For analyzers having a draft sensor) The PCA will compute, display, and store the following data for any of the seven standard fuels: • Combustion Efficiency in % • Excess Air in % • Flue Gas Carbon Dioxide Content in % • Flue Gas Carbon Monoxide Content referenced to Oxygen in ppm (For analyzers having a Carbon Monoxide sensor) • Flue Gas Nitric Oxide Content referenced to Oxygen in ppm I have a Barharach PCA 55 & 65 analyzers. they comes with a wireless printer. It's display is real time and sample info can be stored in memory or printed on site to a wireless infared printer. The NOX (nitrates of oxide) isn't needed for residental set up but used in reports of large commercial equiptment. I cut some of the above/below info from the pdf that can be found here: Sorry I had to remove the link since this is my first post. Go to Bacharach dot com & read about PCA 55 & 65 (the pca 55 doesn't have a NOX sensor,but it can be upgraded to a 65)combustion analyzers for some insight of what is required to do this work properly..... There are pdf manuals there to give you some idea of whats required. I cut & pasted the important measurments and calculations that these combustion analyzers provide to the user. Combustion flue gas analysis is essential for safe operation. If you look around the Bachrach site or google "combustion analysis" I think you'll be headed in the right direction to understanding the process. The only down side is they cost about $3,000.00 and the oxygen sensors expire about every 2 years if you use it or not. They cost $175.00, just replaced one. Calibration is another $175.00 so the equiptment is expensive,unfortunately. The seven standard types of fuels that can be selected are: • Natural Gas • Oil #2 • Oil #4 • Oil #6 • Kerosene • Propane • Coal The PCA continuously monitors flue gas exhaust conditions and updates the above displayed values during a combustion test. If the analyzer is equipped with an optional pressure sensor, then draft measurements can be made simultaneously with the combustion test, or made separately. The analyzer has the capability of storing data that was collected during a combustion test or draft measurement. The stored data can then at a later date be either viewed on the PCA’s display, printed using an optional printer, or downloaded to a computer. Be Green,but also Be Safe Walt |
Walt's links:
Bacharach • Products • Combustion Analyzers Bacharach ? Products ? Combustion Analyzers ? PCA® 3 - Affordable, Best-In-Class Portable Combustion Analyzer It sounds like you recommend having an HVAC professional help you derate your burner. |
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My only reason to be here is to share/aquire knowdlege freely. BTW the op mentioned he had a coal boiler converted to gas. The combustion efficiency can be as low as 40% to 60%. thats means he's loosing 40 to 60 percent of the heat out the flue. Thats not good when modern boiler efficiency for gas is around 90%. A slight change in the fuel /air ratio can drop combustion efficiency 10% or even 20%. A burner properly burning the fuel can have 0 to no more than 5 ppm CO output. Just a slight change in the fuel or air can send carbon monoxide readings to 500,1000 or more ppm and that can't be preceived without the proper equiptment. Thats incomplete combustion. Not only is it dangerious but wastes fuel also. All furnaces/boilers also require "Excess air" 5% to 15% for oil and 5% to 10% for gas. Now excess air is just as is sounds,air above what complete combution requires........so why is it needed,well atmospheric conditions change. It's essential for safe operation. As your excess air percentages goes higer,your combustion efficiency drops. So there are trade offs. But no one wants to sacrifce their safety for a couple percentage points of efficiency. Walt |
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Thank you for making sure that safety doesn't get omitted. Quote:
EDIT: I've replaced 'furnace' with 'boiler' in my previous posts. As for "excess air", the boiler is in the basement which is more than drafty - there is a fist-sized hole in the wall for fresh air, plus the garage next to the basement has cracks in the door that you can easily see through. I have no plans to seal up the drafts until the boiler is replaced with higher efficiency model with a closed combustion chamber in a few years. *************************** I posted the original questions on a local forum and someone told me that the difference between heating high and fast vs low and slow won't be measureable, but didn't say which is better in theory. Also, it was remarked that reducing the burner size won't help much without reducing the size of the exchanger. I answered that in many cases (though I'm not sure if this also true for gas boilers) a larger heat exchanger improves efficiency, so reducing the burner would be similar to having a smaller model with a larger exchanger. The answer was that a heat exchanger that is too large may cause condensation, which is bad for normal gas boilers (but good for condensing models). I have yet to find any hard evidence on how heat exchanger size effects boiler efficiency. When does 'larger' become 'too large'? |
If a larger heat exchanger is causing condensing you are definitely pulling more energy from the exhaust which is exactly what you want. I think having the pro resize the system is probably the best way to go as he can size it appropriately. You may not even get close to 'too large' based on his calculations.
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Piwoslaw-
I think Walt was replying to me - I have the coal conversion boiler. "Boiler" is used to describe a heating system that heats water while a "furnace" heats air. Walt- Thanks for your response. Thanks for pointing out the risks of derating the boiler. I have a couple of CO monitors in the house (one near the boiler and the other near the wood stove). When I calculate energy costs, I assume about 50% efficiency for my coal conversion which seems about right. Instead of replacing the boiler (which needs to be done) I opted to first insulate and weatherize which cut the heating bills by a third to a half. Going from R-1 in the attic (just the plaster and lathe) to R-20 made a huge difference (ROI of about 2 years). The estimates I got for replacement were about $6000, a greater than 10 year ROI, and since I won't have the house much longer I couldn't afford to do it. The combustion analyzer is a nifty (if expensive) toy. I guess it is a portable version of what the DMV uses to check my car exhaust every year. I'd likely have to find someone who works on commercial boilers to help with that, but I'm not well connected to the commercial boiler community. Probably the best thing that I could do at this point is remove all of the old, cracked furnace cement and replace it with refractory cement to better seal the combustion chamber and set it back to it's original burn settings. |
Hi Ben
Yep it was you I was refering too about the coal to gas conversion. I orginally wanted to post a link to another pdf file that actually gave a good explanation of combustion analysis. A lot of information like many guys here seek falls under copyrighted material and is hard to come buy on forums or even the net in general. I wish I could freely digitize and post a library built over 30 years. There is another condition known as "cold firing" . The internal flame temperature inside the heat exchanger is not hot enough for complete combustion. In coal or fuel oil this produces a noticable increase in soot. But gas is so clean you don't have the soot as a indicator,only the increased CO. Also its the stack temperature heat that induces the draft,cold fire a boiler and the draft can be reduced to a point where ventilation of flue gases is a issue in some flues depenging on size and configuration.. Walt |
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I'll start looking for a smart and helpful technician. Quote:
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Buring any fossil fuel produces Co2 and H20 (water) during the combustion process.
Here read this about combustion analysis. http://www.tsi.com/uploadedFiles/Pro...ic-2980175.pdf |
I found a page on boiler efficiency:
How a boiler works – boiler efficiency It has a few tips, of which two seem contradictory (to me at least): Quote:
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I don't think that short run time is desireable. If your boiler/furnace can modulate itself down to match the BTU loss of the house, thats great. It is using just enough fuel to maintain the temperature you want.
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