Oakleaf Woodburning Stove
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| The Chimney Connector Shall Not Pass Through an | |
Chimneys and Venting |
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| Attic or Roof Space, Closet or Similar Concealed | ||
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| Space, a Floor or Ceiling. |
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A. Draft |
| wall; if you must, use an approved wall | |||
Draft is widely misunderstood. It is important that you, | described later in this section. | ||||
the stove operator, realize that draft is a variable effect, |
| Assemble the connector beginning at the flue collar, | |||
not a given quantity. Stoves and chimneys do not have | with the crimped ends pointing towards the stove (to | ||||
draft, yet draft is the key to your stove’s performance. | keep debris or residue inside the system). Each joint, | ||||
Draft is a force, produced by an operating stove and | including the one to the stove’s flue collar and the one | ||||
the chimney to which it is attached. It is created by hot | to the chimney itself should be secured with at least | ||||
gases rising up the chimney, creating a pressure differ- | three sheet metal screws. Screws may be a maximum | ||||
ence between the inside of your home and the outside | of 3 inches apart. A | ||||
air. It continually moves fresh combustion air into the | at each joint, including the flue collar attachment. No | ||||
stove, and hot exhaust gases out of the stove; without | more than two 90 degree elbows should be used, and | ||||
this constant flow, the fire will go out. |
| the total length of connector should not exceed 10 feet | |||
Other factors, such as barometric pressure, winds, | (3 m). All horizontal runs of connector must have a | ||||
the airtightness of the home, the total inside chimney | minimum upward slope of 1/4"(6 mm) per foot (20 mm | ||||
volume, chimney height and the presence of venting | per meter). | ||||
devices such as exhaust fans also play a role in main- |
| The chimney connector diameter should correspond | |||
taining an adequate draft. Low barometric pressures, | to the size of the flue collar opening. Do not use make- | ||||
super insulated homes and exhaust fans can reduce | shift compromises. No part of the chimney connector | ||||
draft; winds can play havoc with draft; and too large or | may pass through an attic or roof cemented in place | ||||
too small a chimney volume can cause reduced draft | with refractory cement. | ||||
due to the excessive cooling or not enough room to | C. Wall | ||||
vent exhaust gases. Introducing outside air | directly to |
| Depending on your local building codes, and the | ||
the stove may help remedy a low draft problem. Some | pertinent provincial or national codes, there are sev- | ||||
signs of inadequate draft are smoking, odor, difficulty in | eral choices for passing the chimney connector safely | ||||
maintaining the fire, and low heat output. Overdraft can | through a wall. Before beginning your installation, con- | ||||
be caused by a very tall chimney even if it is the recom- | tact local officials, and also the chimney connector and | ||||
mended size, and can cause overfiring of your stove. | chimney manufacturer for specific requirements. | ||||
Signs of an overdraft include rapid fuel consumption, in- |
| Canada. Three methods are approved by the Cana- | |||
ability to slow the fire, and parts of the stove or chimney | dian Standards Association. The diagram on the next | ||||
connector glowing red. It is important that you follow the | page shows one method requiring an 18"(450 mm) air | ||||
chimney guidelines in this manual, including size, type, | space between the connector and the wall. It allows use | ||||
and height to avoid draft problems. |
| of one or two covers as described in the diagram. The | |||
When installed and operated according to this man- | two other methods are described in detail in the current | ||||
ual, the Oakleaf will produce enough hot gases to keep | issue of CAN/CSA B365, the national standard. | ||||
the chimney warm so that adequate draft is maintained |
| United States In the U.S., the national code is NFPA | |||
throughout the burn cycle. |
| 211. While many localities adopt this standard, be sure | |||
B. Chimney Connectors |
| to check with local authorities before beginning your | |||
In general, following these guidelines will ensure | installation. | ||||
compliance with all national and provincial codes; prior |
| The NFPA (National Fire Protection Agency) permits | |||
to beginning your installation, check with your local build- | four methods for passing through a combustible wall. A | ||||
ing code official to check on additional local regulations | commonly used method to pass through a wall directly | ||||
which may influence the design and placement of your | to a masonry chimney is to clear a minimum 12"(300 | ||||
venting system. |
| mm) around the entire chimney connector, and fill it | |||
The Harman Oakleaf may be installed with a mini- | with brick masonry which is at least 3.5"(90 mm) thick. | ||||
mum (.6 mm) 24 gauge chimney connector pipe. The | A fireclay liner, minimum 3/8" (9 mm) wall thickness | ||||
size of the connector should correspond to the size of | must run through the brick wall to the chimney liner (but | ||||
the flue collar opening. Do not use makeshift compro- | not beyond the inner surface of the liner). It must be | ||||
mises. No part of the chimney connector may pass | cemented in place with refractory cement. This method | ||||
through an attic or roof space, closet or other concealed | is illustrated on the next page. For details on the other | ||||
space, or through a floor or ceiling. Whenever possible, | three options, refer to the most recent edition of the | ||||
avoid passing the connector through a combustible | NFPA 211 code. |
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Save These Instructions | Dry Seasoned Wood Only! 13 | ||||
