Gas water heater stack economizer

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Tom R

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I'm looking to save some energy costs on water heating in my home and thought of an idea. In the plant I work in, we are looking at adding stack economizers to the steam boilers to preheat the feed water by preheating the incoming city water with the boiler exhaust stack before it hits the boiler.

Has anyone seen one of these for a residential gas water heater? I am throwing away a ton of heat out the exhaust stack on my water heater and would like to recover some of it to preheat the incoming water.

Replacement is not an option I'm persuing right now. The water heater is only three years old and in very good shape. I can't justify replacement at this point.
 

Doherty Plumbing

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I'm looking to save some energy costs on water heating in my home and thought of an idea. In the plant I work in, we are looking at adding stack economizers to the steam boilers to preheat the feed water by preheating the incoming city water with the boiler exhaust stack before it hits the boiler.

Has anyone seen one of these for a residential gas water heater? I am throwing away a ton of heat out the exhaust stack on my water heater and would like to recover some of it to preheat the incoming water.

Replacement is not an option I'm persuing right now. The water heater is only three years old and in very good shape. I can't justify replacement at this point.

Preheat the water with a preheating tank... you could have it just heat up by the temperature of the room. Pipe the 2 tanks in series.
 

hj

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preheat

There are units that do that, (there are some that also use the dryer vent, or tub/shower drain), but since the water heater usually starts heating AFTER the water is turned off at the faucet, except for baths and showers, the effect is limited, and the "trapped" water in the coil can get overheated and turn to steam causing other problems, such as "banging" in the pipes while the burner is on. And the banging can cause cavitation erosion in the pipes leading to premature failure.
 

Tom R

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Preheat the water with a preheating tank... you could have it just heat up by the temperature of the room. Pipe the 2 tanks in series.
Thats one of the things I'm working on right now. If I can pick up a little extra heat from the room, that would certainly help. I think I can pick up about 10 degrees F.

There are units that do that, (there are some that also use the dryer vent, or tub/shower drain), but since the water heater usually starts heating AFTER the water is turned off at the faucet, except for baths and showers, the effect is limited, and the "trapped" water in the coil can get overheated and turn to steam causing other problems, such as "banging" in the pipes while the burner is on. And the banging can cause cavitation erosion in the pipes leading to premature failure.

I've seen the tub/shower drain units, and plan to install one when I remodel the basement bath and can access the pipe work for it. I'm excited to see how well one of these will work!
I will have to take some stack temperatures to see what I'm looking at. You bring up a very good point about steaming the water inside the pipes. Our boilers at work never shut down so this is how they get by this problem. Something I didn't think about with my water heater. Hmmm. I'll have to think about this one and see if I can somehow circulate the water in the coil through the water heater or even preheat tank so it doesn't have a chance to steam.
Thanks for your input!!


Thanks for the link! That's pretty much what I'm looking to do, but at a fraction of the cost with my current water heater. :D
 
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Doherty Plumbing

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Thats one of the things I'm working on right now. If I can pick up a little extra heat from the room, that would certainly help. I think I can pick up about 10 degrees F.



I've seen the tub/shower drain units, and plan to install one when I remodel the basement bath and can access the pipe work for it. I'm excited to see how well one of these will work!
I will have to take some stack temperatures to see what I'm looking at. You bring up a very good point about steaming the water inside the pipes. Our boilers at work never shut down so this is how they get by this problem. Something I didn't think about with my water heater. Hmmm. I'll have to think about this one and see if I can somehow circulate the water in the coil through the water heater or even preheat tank so it doesn't have a chance to steam.
Thanks for your input!!



Thanks for the link! That's pretty much what I'm looking to do, but at a fraction of the cost with my current water heater. :D

What ever you do don't chill the flue gases so much that you start to condense them. This will give you lots of nasty problems.
 

Redwood

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What ever you do don't chill the flue gases so much that you start to condense them. This will give you lots of nasty problems.

Yea you don't want to go there!

These condensing units have a lot of special design considerations that go into them that deal with corrosive condensation inside the unit, and draft inducers to move the cooled off flue gases out safely.

Along with some serious controls to make sure its working okay....
 

Jadnashua

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The condensate created when you cool the exhaust is acidic, and would quickly ruin normal galvanized flue pipe. Heating devices designed to run cool enough to condense the exhaust are either SS or plastic. Plus, if it dripped back down to the burner, corrode the insides and the burner as well. If you used a tank without any insulation, it would use some room heat to take the chill off the incoming water. It will also cool the room, which may not be acceptable.
 

Dana

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What they said. Don't send condensing or near-condensing temp exhaust up a flue not designed for it, or without a system for collecting & disposing of the condensate. The condensation temp of atmospheric-drafted stack gases after the dilution vent is quite low compared to before the dilution, but not so low that it won't condense on the flue liner after you wring another 50-100F out of it with a stack heat exchanger. (The whole point of the diluting the exhaust prior to the flue is to reduce flue condensation!)


And tempering tanks in series with the HW heater only run at the efficiency of your heating system, since they pull heat from the air. In many instances that's no better than the efficiency of the HW heater (EF, and AFUE test number notwithstanding.) The savings, if any are very marginal indeed, but it will give you slightly quicker recovery and a modest increase in first-hour gallons. It's generally not worthwhile in heating dominated climates, but can be reasonable in cooling-dominated climates if local energy prices are high enough.

The amount of energy you're sending up the stack when firing is ~20% of the energy released by the fuel, the rest goes into the water. (A steady-state combustion efficiency of ~80%). And to run a stack economizer safely/efficiently you'd have to run a circulation pump to keep the temp/pressure in the heat exchanger below boiling. How much complexity/money are you willing throw at collecting MAYBE half of the stack energy if you've designed it right?

Another another 20-25% of the fuel energy is typically lost from the water via the combined standby loss of air convection through the tanks heat exchanger (not much you can do there), and the conducted losses from the near-tank plumbing and sides (about which you can do a LOT!). If you're competent to do it without restricting the dilution air at the stack or the combustion air at the burner, a retrofit HW blanket puts a big dent in the standby loss. And adding R4+ (5/8" + wall) pipe insulation on the near-tank plumbing (anything within 6' of the tank, including the pressure/temperature valve and cold water inlet plumbing) is often an even bigger cut.

Of the heat that remained in the water, typically 15% of that is lost in the homes HW distribution plumbing, mostly the abandoned BTUs of small draws of water, where you run a gallon of water to get the hot to the tap, then use a quart. Insulating the distribution plumbing to R2 (the cheap 3/8"- wall stuff found at box stores) buys you ~15-20 minutes between draws to where the water remains at a useful temp. Insulating it to R4+ buys you more. That 15% distribution loss can represent as much as a 25-30% of the fuel used to heat water.

The tank standby & distribution losses end up heating the house if it's all inside of conditioned space, so in heating-dominated climates the loss is less than in cooling dominated climates (where you pay to actively pump that heat out), but it shouldn't necessarily be ignored even in heating dominated climates.

If you're running 3 or more showers/day off this tank it may be worthwhile to recover a heluva lot more heat than any stack-economizer could by preheating the incoming water with a drainwater heat-recovery heat exchanger. (But expect to pay north of $500 for one of worthwhile size=performance.) It only works for shower draws, not baths, since the water has to flow simultaneously with the drain, but it's worth ~25-35KBTU/h while it's running, if plumbed optimally, which is as much as the output of the tank's burner itself when firing. The return is on the order of 50% during shower-length draws, so if the typical HW use is 40% for showers (as is commonly estimated), that's a 20% reduction in HW heating fuel use. If your shower use is more (as is often the case), it's an even larger fraction, and the net-benefit is greater than swapping the tank for a highest-efficiency condensing water heater(!).

But if your total HW fuel use is only 200-250therms/year, at $1/therm, it's hard to make a financial case for anything more complicated than $50 of heater blanket & pipe insulation.
 
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