Osburn 1700 Wood Stove - OB01700
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Osburn 1700 Wood Stove – OB01700

Osburn

$1,899.00

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Osburn 1700 Wood Stove - OB01700
Osburn 1700 Wood Stove - OB01700 $1,899.00
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1700 WOOD STOVE

Fuel type : Dry cordwood (16″ recommended)
Heating area : 500 – 1,800 Ft2
Maximum heat output : 65,000 BTU/h (19 kW)

Designed to meet the needs of smaller spaces, the Osburn 1700 combines robustness and elegance to allow you to enjoy your heating experience with confidence. This unit is equipped with high-density bricks, a stainless steel heat shield added to the C-Cast firestop, a cast iron door, a built-in ash pan, a top heat deflector that redirects heat to the front of the unit, and side panels to reduce its clearances.

Choose your favorite version by customizing the unit to suit your style: refined door overlays, new leg designs, glass ash lip; significant innovations for the most seasoned experts.

GUIDES

Wood insert manual | Safety notifications & general information
(PDF – 3.7 Mo)Osburn 1700 wood stove installation & operation requirements
(PDF – 8.7 Mo)Osburn 1700 dimensions
(PDF – 0.8 Mo)

APPLIANCE PERFORMANCE (1)

Fuel type : Dry cordwood (16″ recommended)
Recommended heating area-ft² : () 500 – 1,800
Overall firebox volume-ft³ : 1.86
EPA loading volume-ft³ : 1.44
Maximum burn time : () 7 h
Maximum heat output-dry cordwood : (2) 65,000 BTU/h (19 kW)
Overall heat output rate < : (2) (3) 9,800 BTU/h (2.87 kW) to 52,200 BTU/h (15.3 kW)
Average overall efficiency (dry cordwood) : (3) 68 % (HHV) (4) 73 % (LHV) (5)
Optimum overall efficiency : (6) (7) 76 %
Optimum heat transfer efficiency : (8) 75 %
Average particulate emissions rate : (9) 1.26 g/h
Average CO : (10) 103 g/h

(1) Values are as measured per test method, except for the recommended heating area, firebox volume, maximum burn time and maximum heat output.

(2) The maximum heat output (dry cordwood) is based on a loading density varying between 15 lb/ft³ and 20 lb/ft³ and reloading intervals ranging from 60 to 120 minutes. Other performances are based on a fuel load prescribed by the standard without any reloading between start and finish. The specified loading density varies between 7 lb/ft³ and 12 lb/ft³. The moisture content is between 19% and 25%.

(3) As measured per CSA B415.1-10 stack loss method.

(4) Higher Heating Value of the fuel.

(5) Lower Heating Value of the fuel.

(6) Performances based on a fuel load prescribed by the standard at 7 lb/ft³ and with a moisture content between 19% and 25%.

(7) Optimum overall efficiency at a specific burn rate (LHV).

(8) The optimum heat transfer efficiency is for the low burn rate (using HHV) and represents the appliance’s ability to convert the energy contained in the wood logs into energy transferred to the room in the form of heat and does not take into account the chemical losses during combustion.

(9) This appliance is officially tested and certified by an independent agency.

(10) Carbon monoxyde.

GENERAL FEATURES

Combustion technology Non-catalytic
High-efficiency certified appliance Yes, EPA 2020 approved
Maximum log length 18″
Log positioning Loading over width
Chimney diameter 6″
Flue outlet diameter 6″
Type of chimney CAN/ULC S629, UL 103 HT (2100 °F)
Minimum chimney height (feet) 15′
Baffle type C-Cast or equivalent
Approved for an alcove installation Yes
Approved for a mobile home installation Yes, with fresh air intake
Shipping Weight 336 lb (153 kg)
Door type Single, glass with cast iron frame
Glass type Ceramic glass
Glass surface – dimensions (Width X Height) 15 3/4″ x 9 3/8″
Glass air-wash system Yes
Overall dimension (Height) 30 3/8″
Overall dimension (Width) 24 7/8″
Overall dimension (Depth) 23 1/4″
Door opening – dimension (Height) 8 3/4″
Door opening – dimension (Width) 17 1/4″
Firebox – dimension (Height) 11 7/8″
Firebox – dimension (Width) 19 5/8″
Firebox – dimension (Depth) 13 1/2″
Firebox lined with refractory bricks for better heat distribution Yes
Stainless-steel secondary-air system improving gas combustion Yes
Model Legs or pedestal
Steel thickness – body 3/16″
Steel thickness – top 5/16″
USA standard (emissions) EPA
Canadian Standard (emissions) CSA B415.1-10
USA standard (safety) UL 1482, UL 737
Canadian standard (safety) ULC S627
Tested and listed as per applicable standards By an accredited laboratory (CAN/USA)
Warranty Limited lifetime
Minimum clearances to combustibles*
(Data expressed in inches. 1 inch = 25.4 mm)
Canada United-States
Single wall pipe Double wall pipe Single wall pipe Double wall pipe
Clearance – back wall 14 1/2″ 6″ 13″ 6″
Clearance – corner 12″ 6″ 12″ 6″
Clearance – side wall 10″ 10″ 10″ 10″
Clearance – top (measured from the platform on which the appliance is installed)** 84″ 84″ 84″ 84″
Clearance – minimum floor protection in front of the appliance 18″ 16″

* The information given on the certification label affixed to the appliance always overrides the information published in any other media (owner’s manual, catalogues, flyers, magazines and/or web sites).

** Some appliances have been tested with a low ceiling. Before setting up your unit, refer to the installation manual.

FAQS

Do I need an EPA certified or CSAB415.1-10 certified heater?

You first have to identify what your needs are. If you are looking for ambiance, a temporary heat source in a cottage or a camp, or a simple back-up heat source in case of power failure, you do not necessarily need to invest more money in order to buy an EPA or CSAB415.1-10 certified wood heater. However, if your goal is to heat on a regular basis, the extra dollars will prove to be a good investment. Furthermore, it must be noted that certified heaters release up to 90% less particles into the atmosphere, which makes wood a renewable and clean source of heat. As a result, if the style and size of the heater you are looking for is available in a certified version, it is highly recommended that you invest in this advanced combustion technology. You will help the environment and reduce your wood consumption by up to 30%.

NOTE: If you live in the United Sates, British Columbia, Ontario, Quebec, Nova Scotia, New Brunswick or Newfoundland, EPA certified wood heaters are mandatory. Exceptions apply for certain categories of products, such as decorative fireplaces. Certain municipalities may also have by-laws that require the installation of an EPA or CSAB415.1-10 wood heater, even though the province does not have an official regulation on wood heating. It must also be noted that in Canada, the CSAB415.1-10 Standard is equivalent to the EPA Standard. A wood heater that meets this Standard will generally comply with the regulation in place.

How do I determine the size of heater I need and where should I install it?

Before answering this question, it is very important that you clearly identify what your needs are. Some people will buy a heater simply to enhance the ambiance of a room, while others will buy a heater as their main source of heat. There is no good or bad reason for buying a wood-heat system. If you simply want to enhance the ambiance of a room, most small to medium size heaters will suit your needs. Simply chose the style you like best, and put the unit in the room where you spend the most time. The heat and look of a glowing fire will create an atmosphere of warmth and coziness.

If your primary need is to heat, you must verify the heating capacity of your heater based on the technical data provided by the manufacturer. For instance, if you want to heat an 800-square-foot area on one floor, you need to buy a heater with a minimum capacity of 800 sq. ft.

If you need to heat more than one floor, keep in mind that heat rises. Therefore, a heater located in your basement will help you heat the main floor as well. However, the contrary is not true; a heater located on the main floor (ground floor) will not heat the basement. Keep in mind also that the more divisions there are in the house, the harder it will be to distribute the heat evenly.

If you need to heat two floors, calculate the surface of the lower floor. Then, add 50% of the surface of the upper floor. For instance, if you install a wood-heating system in the basement and you have 800 sq.ft., you will need a heater with a minimum capacity of 1,200 sq.ft. (800 + 400 = 1,200.

If you need to heat more than two floors, calculate the surface of the lower floor (where the wood-heating system is located). Then, add 50% of the surface of the middle floor, and 25% of the surface of the upper floor. For instance, if you install a heater in the basement and you have 800 sq.ft., you will need a heater with a minimum capacity of 1,400 sq.ft. (800+400+200= 1,400). Consult the drawing below. It will help you understand the explanations provided in this section.

REMEMBER: We are talking about “zone” heating, not central heating. The room where the heater is located and the rooms directly above it will always reach higher temperatures than the rooms distant from the unit. If you want an even temperature throughout the house, you need to consider a central heating system, such as a warm air wood furnace. Furthermore, you must keep in mind that the size of the heater you need may vary based on the insulation of your house, its exposure to wind, and the number of windows. It will always be prudent to buy a heater with a capacity that is slightly higher than the minimum capacity that you need. For instance, if you need a minimum capacity of 1,400 sq.ft., it will be more prudent to buy a heater with a capacity of 1,600 sq.ft., if not 1,800 sq.ft. There are three main advantages in buying a larger appliance: the increased heating capacity, the ease of loading more and larger logs (as a result of the greater firebox volume), and the increased combustion time (given the higher loading capacity).

The drawing above gives an example of the minimum heating capacity required for a wood-heating system installed in a house with three floors of 800 sq.ft. each. We assume that the house is well insulated and that air can circulate between each floor through an open stairway and/or floor traps.

Do I need a floor protection under and around my heater?

Yes, floor protection is required for any wood appliance unless the unit already sits on a non-combustible surface. You have many choices, such as stone, brick, cement board, or tile. You need to consult your owner’s manual in order to know the dimensions of the floor protection specific to your model. In Canada, the floor protection must extend in front of the unit by at least 18 inches and by at least 8 inches on each side. In the USA, the floor protection must extend at least 8 inches on each side of the appliance (measured from the door opening) and at least 16 inches in front of the door opening.

What type of exhaust system do I need?

Your exhaust system is comprised of two main elements: a chimney and a connector (commonly called “stove pipe”).

 

Connectors

Connectors are simply steel pipes that connect the appliance to the insulated chimney. They are normally needed unless the appliance is already inserted into an enclosure (for instance, in the case of a zero-clearance wood fireplace). Connectors do not pass through combustible materials. The term “black pipe” is also often used in the industry. There are two types of connectors:

– Single-wall pipes

– Double-wall pipes

As their name indicates, single-wall pipes have just one wall. A minimum of 18 inches is required between the pipe and a combustible wall. In general, single-wall pipes provide less insulation than double-wall pipes do and therefore require more clearance. This is the main drawback of single-wall pipes. Their advantage is in their cost; they are nearly three times less expensive than double-wall pipes.

As their name indicates, double-wall pipes have a second wall, i.e., an interior one made of stainless steel. The cushion of air between the two walls provides thermal insulation allowing the appliance to be installed much closer to walls. This is the main advantage of double-wall pipes. The required distance for each heater model is based on the safety tests conducted with each type of connector. You therefore need to properly consult the appliance’s owner’s manual in order to know the prescribed clearances from combustible materials.

Chimney

There are two types of chimneys: an insulated (or prefabricated) chimney or a masonry chimney. If you have a masonry chimney, it must meet the local building code. It must be lined with refractory bricks or tiles joint together with refractory cement. The chimney diameter should be the same as the appliance’s flue outlet (6 inches for most models). It is rarely the case with masonry chimneys. Their diameter is often bigger than the appliance’s flue outlet. The way to deal with this is to insert inside the masonry chimney a stainless steel liner that has the same diameter as the appliance’s flue outlet. Unless a liner is installed, serious draft problems can occur.

An insulated chimney (or prefab chimney) is a stainless steel flue that has been tested to resist temperature as high as 2100F. It has a double wall filled with insulating wool. The majority of insulated chimneys have 2 inches of insulation, while some have just 1 inch. Others are air-insulated and have 3 walls; they are referred to as “triple-wall air-cooled chimneys.

When we speak of a 6-inch chimney, we are referring to its interior diameter. If the chimney has 2 inches of insulation, the flue will have an exterior diameter of 10 inches.

In wood-heat system installations, we must use an insulated chimney for any flue that passes through walls, ceilings, attics and closets (i.e., all combustible surfaces in general). This chimney must also be installed outside the house.

Why should I install a blower on my wood heater?

A blower can be installed at the back of most models. This option enables you to redistribute the heat from the back of your heater to the front of it and into the room. By forcing hot air toward the front of the heater, the blower extends the radiation power of your unit. Most appliances can also have a thermodisc installed. A thermodisc is a heat sensor connected to the back of the appliance and wired-up to the blower. It will start the blower automatically when the air temperature in the back heat shield reaches approximately 115 °F. Likewise, it will turn the blower off when the temperature in the back heat shield goes below 100 °F.

Why is the efficiency as per the EPA’s test data smaller than the publicized optimum efficiency?

EPA refers to the CSAB415.1-10 standard for the calculation of the appliance’s efficiency. The efficiency reported as per EPA’s directives consists of an average between four different burn rates, ranging from the lowest burn rate (air intake completely closed) to the highest burn rate (air intake completely open). The optimum efficiency that we publicize is the efficiency obtained according to the same test data, but for the low burn rate only. This efficiency is more realistic for a majority of users whose heating needs require that the unit be used to maximize burn times.

Can I vent my heater using an existing masonry chimney?

It is possible to install a heater using your existing masonry chimney. The chimney must comply with the building code of your country, state or province. It usually needs to be lined with refractory bricks, metal, or clay tiles sealed together with fire cement. The diameter of the chimney must be the same as the appliance’s flue outlet. If your masonry chimney does not have the same diameter as the appliance’s flue outlet, you need to insert a stainless steel liner having the proper diameter. Otherwise, you may face draft problems. There are two types of liners: rigid and flexible liner. Both types are made of stainless steel. They must be certified for venting solid-fuel burning appliances. Flexible liner is particularly useful when the masonry chimney has one or more deviations.

Can I cook on the top of my wood stove?

It is definitely possible to cook on the top of your stove. This can be very useful in case of power failure. A stove fully loaded with wood will easily reach 500 to 700 °F on top. This is sufficient to cook. The use of a pan or other cookware may scratch the paint. An option is to use a cast iron cooking grid or simply lay a piece of stainless steel on top of the stove.

Can I remove the legs or pedestal of my stove and convert it into a fireplace insert?

Unfortunately, there is a major design difference between a freestanding wood stove and a wood insert. The wood insert (like all other inserts) has an extra steel jacket that covers about 2/3 of its firebox on the sides and all of its back. This serves to accumulate the heat radiated by the firebox. The heat is then pushed in front of the unit and into the room by a blower. Without this feature, the heat radiated by the insert would be lost into the masonry cavity. Hence, a stove inserted into a masonry fireplace would not have the same efficiency. Furthermore, its clearances to combustible materials could vary. If the stove has not been tested for this type of installation, it cannot be inserted into a masonry opening.

Why is there smoke when I use my heater?

Possible causes and solutions

Your heater is new and thin smoke is coming out of the unit’s surface.

Solution: This is normal when your heater is new and has never been used. The paint needs to be “cured”. You need to heat your appliance two or three of times before the curing process is completed. Simply open a window in the room where the unit is located. The amount of smoke produced by the curing process should be very limited. If the area is well ventilated, there is no health hazard.

The chimney in under negative pressure.

Solution#1: The chimney may simply be too cold. Light-up a small quantity of newspaper in the appliance, as close as possible to the flue outlet. Leave the door slightly ajar. This small fire will slowly heat-up the chimney, until it is hot enough to create a normal draft inside the exhaust system. If needed, slowly increase the quantity of newspaper. When you realize that smoke is being evacuated normally through the exhaust system, you can build a normal fire. If your chimney runs along the outside wall of your house, it is possible to cover it up in order to protect it from the wind and the cold. A covered chimney will heat-up faster.

Solution #2: Negative pressure may be caused by air-moving devices, such as a range hood, a bathroom fan, or an air exchanger. Check if smoking problems occur when those devices are working. If it is the case, make sure you turn them off when you use your heater. Otherwise, you need to make sure that the air leaving the room is replaced by air from outside the house. For instance, you can open a window slightly (by one or two inches). Ideally, the source of fresh air should be located as close as possible to the heater. A good, permanent solution is the installation of a fresh air intake. It should be located as close as possible to the unit. The appliance will draw its combustion air from this nearby supply. It will prevent the house from falling into negative pressure. Some units are designed to receive an adapter on which the fresh air supply pipe can be directly connected. This way, the appliance will always draw its combustion air from outside the house.

Solution #3: Negative pressure may be caused by wind, due to the interference from a nearby structure. In order to eliminate such interference, the extremity of your chimney should be at least two feet higher than any structure located within a ten-foot radius.

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