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User:Kevtm22/sandbox/Direct Vent Fireplace

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A direct vent fireplace is a prefabricated metal fireplace that vents all gasses from combustion directly to the exterior of the structure in which it is installed. The venting system that is specific to direct vent units makes them about five times more efficient than traditional fireplaces. Since all exhaust gasses are vented outside, they are also much healthier for the users. Unlike traditional fireplaces, direct vent fireplaces do not need additional masonry or foundation work to allow for installation.[1]

Construction

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The preassembled fireplace unit is made up of two main components: the outer housing, and the flue system.

Outer Housing

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The outer housing is the part of the fireplace unit that is installed in the framing of the building. Two of the main operational components are housed inside of it. The first key component within the outer housing is the firebox, which is surrounded on three sides by the outer housing, and on one side by the glass panel that faces in towards the room. This is the space in which the fire burns during operation. Because of this, the gas burners (either natural gas or propane) are located inside of the firebox. To provide a more realistic look, imitation logs and ember material are placed on top of the burners. The ember material, which will not burn, is designed so that it will glow like real embers when heated. The firebox is designed to be smaller than the outer housing so that there is an empty space between the outermost walls of outer housing and the outer walls of the firebox . The empty space in between the firebox and the outer housing is the second important operational component of the outer housing. This space is filled with air from the interior of the room being heated and is used to add hot air to the room without the addition of exhaust gasses from combustion.[2]

Flue System

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The flue system is composed of two flues, the inner flue and the outer flue. The outer flue draws air into the bottom of the sealed firebox to allow for combustion. The inner flue draws hot exhaust gasses from the top of the sealed firebox and vents them directly to the outside of the structure through either an adjacent wall or the roof.[3]

Operation

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To begin the operation of the fireplace unit, the user must turn on the gas supply and ignite the burners. Once this is done, the unit will operate completely autonomously until the gas supply to the burners is shut off. While in operation, convection will cause the hot air in the firebox to rise to the top of the firebox. As the amount of hot exhaust gasses increases from the combustion process, the hot gas at the top of the firebox is eventually pushed out through the inner flue. At the same time, the removal of the exhaust gasses through the inner flue allows for relatively cold air to be drawn into the firebox through the outer flue.[4]

As the firebox heats up due to the operation of the burners, it radiates heat into the room through the porous glass face that separates the firebox from the inside of the room. At the same time, it transfers heat through the surrounding metal walls into the empty space in between itself and the outer housing. This heat transfer creates a convection process inside of the empty space that is very similar to the one that takes place inside of the firebox. Built into the design of the room facing side of the unit are two vents, one at the top and one at the bottom. Once the air in the empty space begins to heat up, convection pushes this heated air further up in the chamber until it is eventually pushed out through the top vent. This phenomenon works in the same way to draw air in through the bottom vent. As the hot air is pushed out, space is emptied in the chamber behind the firebox, which then draws cold air in through the bottom vent.[5]

Both of these convection processes immediately begin to slow down, and eventually stop, as soon as the burners turn off.[6]

Efficiency

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Direct vent fireplaces are extremely efficient compared to a traditional fireplace and can operate at about 85% efficiency. Even a very efficient traditional fireplace only operates at about 15% efficiency. This is because most of the hot air generated by the fire travels up the chimney due to convection. A traditional fireplace can also draw hot air in from the room and expel it through the chimney, further lowering the efficiency. The design of the direct vent fireplace allows for such a high level of efficiency because of the sealed firebox. The sealed firebox only allows combustion gasses to leave the system and exit the building. Since it is sealed, no warm air from the room is able to be drawn into the firebox and expelled out of the building.[7]

Health Concerns

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When wood burns, carbon monoxide and particulates are released into the surrounding area. In high concentrations, carbon monoxide is poisonous. Particulates released during the combustion process are also harmful. These particulates, which are generally composed of carbon and mineral salts, can pass directly into the bloodstream through the lungs. Polycyclic aromatic hydrocarbons (PAH’s) are also found in the particulate that is generated by combustion. Many of these PAH’s are Class A carcinogens. When using a traditional wood burning fireplace, these byproducts of wood combustion are released into the area that is being heated, which, in most cases, is an interior room. This means that the humans inside of the room are subjected to inhaling these toxic substances. Because of this, the United States Environmental Protection Agency encourages homeowners with wood burning fireplaces to install carbon monoxide detectors in their homes. Since direct vent fireplaces operate off of propane or natural gas, and are completely sealed from the interior of the building in which they are installed, no harmful byproducts are released into the room. They also release much less pollution into the atmosphere than a wood burning fireplace.[8]

References

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  1. ^ Kayne, R. "What is a Direct Vent Fireplace?". wiseGEEK.org. Retrieved 10/22/2013. {{cite web}}: Check date values in: |accessdate= (help)
  2. ^ Rumens, Kurt. [(http://www.google.com/patents?hl=en&lr=&vid=USPAT6953037&id=I68TAAAAEBAJ&oi=fnd&dq=direct+vent+fireplace&printsec=abstract#v=onepage&q=direct%20vent%20fireplace&f=false) "Direct vent fireplace installation"]. Patent. Retrieved 10/22/2013. {{cite web}}: Check |url= value (help); Check date values in: |accessdate= (help)
  3. ^ Wilhoite, Murray. "Direct vent fireplace". Patent. Retrieved 10/22/2013. {{cite web}}: Check date values in: |accessdate= (help)
  4. ^ Kelly, John. "How Fireplaces Work". howstuffworks.com. Retrieved 11/10/2013. {{cite web}}: Check date values in: |accessdate= (help)
  5. ^ Wilhoite, Murray. "Direct vent fireplace". Patent. Retrieved 10/22/2013. {{cite web}}: Check date values in: |accessdate= (help)
  6. ^ Kayne, R. "What is a Direct Vent Fireplace?". wiseGEEK.org. Retrieved 10/22/2013. {{cite web}}: Check date values in: |accessdate= (help)
  7. ^ Senf, Norbert. "The Hearth as an Element of the Sustainable House - A Comparison of Emission Test Methods for New Clean Burning Wood Fired Masonry Fireplaces" (PDF). Masonry Stove Builders. Retrieved 10/22/2013. {{cite web}}: Check date values in: |accessdate= (help)
  8. ^ "Health Effects | Burn Wise US EPA". United States Environmental Protection Agency. Retrieved 11/10/2013. {{cite web}}: Check date values in: |accessdate= (help)
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