Steam Boiler and Steam System FAQ
: All drawings are conceptual drawings and may be incomplete. More specific drawings may be required for your application.
When a steam boiler is replaced should it be sized by a heat loss or measuring the radiation.
Steam boilers unlike hot water boiler should never be sized by a heat loss unless you are going to change the size of the radiation. Changing radiator size is not a common practice due to cost. To
Basically it is the amount of pipes connected to a radiator. One pipe steam system will have one pipe connected to the radiator and two pipe systems will have two pipes connected to a radiator. The two pipe systems will normally have what we call traps connected to the return side of the radiator also. See a
I've been told to drain the boiler over the summer or flush the boiler every summer, is this correct?
No! You really never want to completely drain or flush the boiler annually. This would only be done when there is service to be performed that would require draining. Every time you add water to the boiler to add oxygen, minerals and chemicals all of which will shorten the boiler life.
No, all radiator shut-off valves in a one pipe steam system should be closed all the way or wide open. Do not have the valve partially open.
The return piping is the pipe that carries the condensate back to the boiler from the system. The location of the piping determines if it is a wet return. If you look at the steam boiler you will see a sight glass, which gives the water level in the boiler. All the system piping below that water level will also have water in it. We call the return piping below the water level a wet return, as it is full of water. Any return piping above the water level is called a dry return, as it is not full of water all the time
A Hartford loop was first designed to avoid all the water draining out of the boiler if a leak occurred in the wet return line. The old systems long before low water cut offs were invented, were piped at floor level and straight into the boiler. If a leak occurred the water would completely drain from the boiler and the coal fire would keep burning. The iron proceeded to get overheated, with no heat in the building. Someone would go to the basement to add water. The cold water hit the overheated iron and there was an explosion. The Hartford loop will pipe from the boiler end of the wet return and go vertical to 2" below the normal water level. If there is a wet return leak, the water would only drain as low as the Hartford loop and keep a substantial amount of water in the boiler. See a drawing with a
What is the purpose of an equalizing loop?
An equalizer or equalizing loop is to have the same pressure on the supply side of the boiler as the return side of the boiler. As pressure builds on the supply side of the boiler the pressure goes through the header and some goes to the system and some goes into the equalizer. In the equalizer there is water as high as the water level in the boiler. The pressure pushes down on the water. With the same pressure on the supply as return sides of the boiler the water stays in the boiler. See a drawing of an
The "A" dimension is factored in when we have a one pipe steam system and is the vertical distance from the Normal Water Level (NWL) listed by the manufacturer to the lowest horizontal carrying steam main. The steam main will run around the basement and all your radiation will be piped off the steam main. Normally the "A" dimension should be 28" minimum. This 28" measurement is important for getting return water back into the boiler and avoiding a noisy operation. It is important to know that 28" of water in a vertical pipe equals 1 psi. When measuring the "A" dimension, measure down from the ceiling not up from the floor. The ceiling will be more level than the basement floor in most cases.
The boiler will normally operate no more than 2 psi. Some boilers are actually operating in ounces of pressure but the majority is in pounds of pressure. If the boiler is operating at 1.5 lbs which means there is 1.5 pounds of pressure on the supply and 1.5 pounds of pressure on the return sides of the boiler the water from the system will not enter the boiler. The water in the wet return must exceed the pressure in the boiler to allow the return condensate to enter the boiler. This is where the importance of the "A" dimension comes in. Remember the "A" dimension is the vertical distance from the NWL to the lowest point of the horizontal steam carrying main. This is normally the other end of the basement. The wet return will run around the basement and turn up to connect to the steam main. The "A' dimension will occur in the vertical pipe connecting the wet return to the steam main. When the boiler is not running the water level in that vertical pipe should be the same level as the boiler. When we build steam the steam in the radiation and steam main will condense back into water. It will run along the main and collect in the vertical pipe ant the end of the steam main. As the water stacks it will increase the pressure in the return due to water weight.
What is a "B" dimension?
The "B" dimension is similar to the "A" dimension except it is used when we have two pipe steam systems. The "B" dimension as also calculated differently. We are still interested in the distance from the NWL to the lowest steam carrying main. Instead of 28", it is now 30" per pound of steam in a system. If the system were operating on 2 psi we would need to have a vertical distance from the NWL to the lowest point on the steam carrying main of 60" or 5'. Since most basements do not allow that kind of height, we use traps with gravity return or pumped returns.
How important is venting a steam system?
Steam system efficiency is affected by venting. All the vents must work. On a one pipe steam system you should have a main line steam vent about 6" from the end of the steam main. The vent should not be located at the very end of the main. The purpose of a main line steam vent is to vent the main as rapidly as possible. This will aid in balancing the steam system. The idea of a main steam vent is to get steam to the end of the main as quickly as possible. This may require more than one main steam vent. After the steam gets to the end of the main the vent closes and the radiator vents now have to vent the radiator and vertical piping. Any radiator larger than 25 to 30 sq. ft. should have 2 automatic air vents installed. The slower the system vents the slower the system heats. Good operating vents saves fuel dollars
The main line vent is to vent the main piping on a one pipe system (one pipe to the radiator). It is important as far as fuel efficiency and even heating of the steam system. The main line vent must vent the main rapidly to allow the radiator vents to vent the radiators evenly. If all the air is removed from the main piping and the radiator vent has to vent only the vertical piping and the radiator it is easier to balance the system. I have installed 2 or even 3 main line vents on a single main. Absolutely. The main line vent must work well for an efficient steam system. It is wise to add more than one if the main pipe is venting poorly. They should be a minimum of 12"-15" from the end of the main, never in a tee at the end of the main. See a drawing of
When I have a steam boiler installed should the main line vents be replaced and where should they be located?
The main line vent is to vent the main piping on a one pipe system (one pipe to the radiator). It is important as far as fuel efficiency and even heating of the steam system. The main line vent must vent the main rapidly to allow the radiator vents to vent the radiators evenly. If all the air is removed from the main piping and the radiator vent has to vent only the vertical piping and the radiator it is easier to balance the system. I have installed 2 or even 3 main line vents on a single main.
Absolutely. The main line vent must work well for an efficient steam system. It is wise to add more than one if the main pipe is venting poorly. They should be a minimum of 12"-15" from the end of the main, never in a tee at the end of the main. See a drawing of
Yes, the vent should be located half way up the steam radiator. The vent on a hot water radiator should be at the top. Since the steam vent will close when steam get into the vent, it would not vent as much air if it was at the top. When steam enters a radiator it wants to go to the top of the radiator immediately, thus closing the valve.
I have a few air vents that will release steam during the boiler operation. Is this OK?
No, the vent is supposed to close when steam hits the vent. If the vent is venting steam you are losing water from the boiler. This would mean that when you need to add more water that you are adding oxygen, minerals and chemicals all which are bad for the boiler. The more water you have to add to the boiler the shorter the boiler life.
I am a firm believer that all the vents be replaced at the time of the installation. I realize it is expensive to do but, it does make the system work more efficiently. The vent on a steam radiator should be about 1/2 the distance from top to bottom of the radiator. I would double vent that radiator if the radiator is larger than 25-30 sq ft of steam. The second vent should be lower than the original vent. You may hear a radiator vent hissing somewhat but not real loud. If you can hear it 5 or 6 feet away I would wonder if the main line vent was working properly or is large enough.
The entire horizontal steam main should be insulated. We need to keep steam in a steam state as long as possible. Many years ago homeowners removed some insulation from the steam main to get heat in the laundry room or family room. At today's fuel costs this is no longer acceptable. We need to insulate all of the main steam line. I also believe we should insulate all steam line in unconditioned spaces as well as around the boiler.
We pay to create steam. We must keep it in a vapor state as long as possible. The steam must go up to the radiators to heat the home. If the steam main is not insulated the black pipe gives off the heat generated by the steam. A first this may not sound like a bad idea until we look a little deeper. We create the steam and the steam leaves the boiler and goes into the steam main. If there is no insulation the piping gives off about 212 btu's per foot of 2" black pipe. The steam cools down and condenses into water. The condensate works its way back into the boiler. We must re-heat the water to 212f. We than have to change state from a liquid back into a vapor. It takes 970 btu's to convert 212f water to 212f steam. That is about 5 times more energy than it would take to heat water from 32f to 212f. Someone has had the main pipe insulation removed to heat a certain part of the basement. All this steam is condensing back to water, which needs to be brought back to 212f water, and then converted back to steam. Insulate those pipes and keep the steam as a vapor as long as we can.
Another problem that can happen with removing pipe insulation from steam mains is a condition we call water hammer. This sounds as if there is actually someone beating the pipes with a hammer. It occurs when there is too much water in the horizontal mains and steam glides across it. Insulate those horizontal main steam pipes for fuel savings and quieter operation.
Heat the room with condensate or boiler water. Have the contractor add a section of baseboard in the area you want heated. He can put it on a thermostat so you can use it as needed or maintain a room temperature. This will cost more money to install but you have the control. It will also operate much cheaper than removing insulation. Basement areas are very easy to heat as they are normally below grade. This drawing shows heat and hot water being made by the boiler water.
How does a two pipe system vent?
A two pipe steam system uses traps which open when cooler and closes when steam hits them. The air in the radiators are vented very rapidly right through the radiator trap. There is normally a larger trap at the end of the main to vent the main and a large vent on a dry return or an open pipe at the condensate pump.
How do you balance a one pipe steam system?
Many people believe a one pipe steam system is balanced by adjusting the vents on the radiators closest to the boiler vent slower than the vents on the further radiators from the boiler. This could not be further from the truth. The location in the system has very little to do with balancing of the system. Balancing is done by the radiator size. First verify the main has good venting. Next adjust the larger radiators to vent faster than the smaller radiators. This makes more sense as the larger radiators have more air to vent. Remember if the radiator is too large, usually larger than 30 EDR, double venting may be required.
After a steam boiler is installed does the water require cleaning even if it looks clean?
After the installation of a steam boiler there will be plenty of oil in the water between manufacturing the boiler, pipes and installation. This will cause surging of the water which is a violent bouncing of the water while steaming. This causes the water to leave the boiler out of the supply tapings. This is resolved by skimming the boiler. Skimming will remove the oil from the surface of the water. The oil is lighter than the water so it floats on top of the water. The steam has a difficult time breaking through the oil but when it does it leaves at a rapid speed. The velocity increases as it finds the supply tapping and heads up the pipe. This creates a suction and pulls boiler water up with it. Some water goes to the header and a lot of it falls back into the boiler thus the rise and falling of the water level. Usually what you see in the gage glass is not as bad as what is actually happening in the boiler.
Skimming is getting the water warm but not steaming, and draining the surface of the water off to a bucket or drain. A small amount of water will need to be added back in while skimming. Do not skim too fast. I suggest the skim steam on a residential product to be no larger than a wooden pencil. The slower the better. Normally this does not require any chemicals. If the use of chemicals is required see manufacturer's suggestions.
The water glass on the side of the boiler has two valves, should they both be open?
Yes, they both need to be all the way open to see the water level as it changes. It is a good idea to verify both the tapping's are clear of debris as they will block occasionally. The level of the water should always be maintained at the normal water level (NWL) suggested by the manufacturer.
I have an automatic water feeder on my steam boiler. Do I still need to check the water level?
Yes, the automatic water feeder does not maintain the water level at the suggested
Do the newer electronic low water cut-offs need maintained as the old float type did?
They do not require draining as the older float type did. The older float type needed to have water drained from them about every two weeks to keep the float chamber clean. This verified the float would be able to move and shut down the boiler if the water level dropped too much. The water should be drained until it ran clear. Do not drain any more water than needed. The newer electronic probe type still requires annual maintenance. They should be pulled out every year and the probe, the part that is submersed in the boiler water, should be cleaned, reinstalled and tested.
What should the pressure be on my steam boiler?
Most residential cast iron radiator systems will be operated at a cut-out pressure of 2 psi and a cut-in pressure of 0.5 psi. This means the boiler will run until it meets the cut-out pressure of 2 psi and the burners shut down. As the steam condenses the pressure drops in the system to the cut-in pressure of 0.5 psi the burners will fire back on. When adjusting steam pressure you must check the control. Some of the differential pressures are added differentials and others are subtractive differentials.
It is becoming more common today to work with lower pressures. Some systems will work on ounces of pressure. The higher the pressure the more fuel it takes. Residential systems with cast iron radiation should never need to be operated above 2 psi. The higher the pressure the greater the fuel bill. The fuel bill will grow in exponential growth. If more pressure is required to heat the radiators check the venting.
I hear you should always replace wet returns when the steam boiler is replaced. Why
The wet return is always full of water to the height of the water level in the boiler, so there is a lot of rust buildup. This slows down the returning condensate to the boiler. If the boiler has an automatic water feeder it could cause the boiler to overfill. When the old boiler is disconnected have the installing contractor check the return lines. If the water can't get back to the boiler in the proper time frame the auto feeder will add more water and may flood the boiler. This could also end up with water backing up into the horizontal mains which will cause water hammer. The worst case scenario is the water backs up into the system and leaks out of your radiator vents and onto your beautiful floor.
If you do not have an automatic water feeder the boiler will shut down on a low water condition. As the water slowly works its way back to the boiler through all the rust in the return piping it will come back on. This will create very uneven heating.
What about dry returns? Do they need to be replaced with the boiler?
Normally not. They are not full of water and normally are very clean many years after they were originally installed. They do not need to be insulated.
I have heard that steam systems are supposed to be noisy. Is that true?
No, steam systems should be quiet. The pounding noise is called water hammer which is normally caused by steam finding puddled water in a horizontal pipe. This can be remedied. It just takes proper
I hear the term dry steam. What does that mean and why is it important?
Dry steam just means that most of the excess moisture has been removed by the steam. This happens when the steam goes vertical out of the boiler at least 24" to drop out the heavy moisture. As the steam travels through the near boiler piping elbows and piping it removes as much moisture as possible.
What is the importance of dry steam?
When we talk about dry steam it usually is 98+% dry. We have removed most of the excess moisture. Dry steam moves much faster in the system than wet steam. Wet steam also gives up the latent heat quicker which means it turns back into condensate sooner. This will cost you more to reheat it and turn it back into steam again. Wet steam uses more fuel to heat the home, takes longer to satisfy the thermostat, causes water hammer (noises) in the system and the boiler to short cycle.
Can I connect an indirect water heater to my steam boiler?
Yes, although this is simpler on newer equipment than older equipment. Most manufacturers’ offer the tapings for the indirect water heater supply and control. The tank return will normally just return back to the boiler return taping. I would suggest the contractor follows the manufacturer’s instructions when this is done. Their installation manual will normally show how to do this. Here is a general piping diagram showing baseboard and an
The control would utilize the taping "L" and the indirect supply pipe would utilize the "K" taping.