Desa FBPS Locating Firebox, AIR for Combustion and Ventilation, Providing Adequate Ventilation

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UNVENTED (VENT-FREE) LOGMATE® FIREBOX

LOCATING

FIREBOX

Planning

Plan where you will install the firebox. This will save time and money later when you install the firebox. Before installation, con- sider the following:

1.Where the firebox will be located. Al- low for wall and ceiling clearances (see Installation Clearances, page 7).

2.Everything needed to complete instal- lation.

3.These models CANNOT be installed in a bedroom or bathroom.

4.Proper air for combustion and ventila- tion.

5.Consider a location where heat output would not be affected by drafts, air con- dition ducts, windows or doors.

6.A location that minimizes modifica- tions on existing framing will make installation easier.

Projected installations can extend any distance into the room. A projection may be ideal as a partition between two otherwise common areas when added to an existing, finished wall (see Figure 2). Optional GT109U firebox top is avail- able (see Accessories, page 15).

Internal wall installation provides a discreet viewing option between two adjacent rooms or within an added wall to subdivide an oversize room.

Figure 2 - Projected Installation

AIR FOR COMBUSTION AND VENTILATION

WARNING: This firebox shall not be installed in a confined space or unusually tight construction unless provisions are provided for adequate combustion and ven- tilation air. Read the following in- structions to insure proper fresh air for this and other fuel-burning appliances in your home.

Today’s homes are built more energy effi- cient than ever. New materials, increased insulation, and new construction methods help reduce heat loss in homes. Home owners weather strip and caulk around windows and doors to keep the cold air out and the warm air in. During heating months, home owners want their homes as airtight as possible.

While it is good to make your home energy efficient, your home needs to breathe. Fresh air must enter your home. All fuel-burning appliances need fresh air for proper com- bustion and ventilation.

Exhaust fans, fireboxes, clothes dryers, and fuel burning appliances draw air from the house to operate. You must provide ad- equate fresh air for these appliances. This will insure proper venting of vented fuel- burning appliances.

PROVIDING ADEQUATE VENTILATION

The following are excerpts from National Fuel Gas Code. NFPA 54/ANS Z223.1, Sec- tion 5.3, Air for Combustion and Ventilation.

All spaces in homes fall into one of the three following ventilation classifications:

1.Unusually Tight Construction

2.Unconfined Space

3.Confined Space

The information on pages 4 through 6 will help you classify your space and provide adequate ventilation.

Unusually Tight Construction

The air that leaks around doors and win- dows may provide enough fresh air for combustion and ventilation. However, in buildings of unusually tight construction, you must provide additional fresh air.

Unusually tight construction is de- fined as construction where:

a.walls and ceilings exposed to the outside atmosphere have a con- tinuous water vapor retarder with a rating of one perm (6 x 10-11kg per pa-sec-m2) or less with open- ings gasketed or sealed and

b.weather stripping has been added on openable windows and doors and

c.caulking or sealants are applied to areas such as joints around window and door frames, be- tween sole plates and floors, be- tween wall-ceiling joints, be- tween wall panels, at penetra- tions for plumbing, electrical, and gas lines, and at other openings.

If your home meets all of the three criteria above, you must provide ad- ditional fresh air. See Ventilation Air From Outdoors, page 6.

If your home does not meet all of the three criteria above, proceed to Deter- mining Fresh-Air Flow for Firebox Location, page 5.

Confined and Unconfined Space

The National Fuel Gas Code (ANS Z223.1, 1992 Section 5.3) defines a confined space as a space whose volume is less than 50 cubic feet per 1,000 Btu per hour (4.8 m3 per kw) of the aggregate input rating of all appliances installed in that space and an unconfined space as a space whose volume is not less than 50 cubic feet per 1,000 Btu per hour (4.8 m3 per kw) of the aggregate input rating of all appliances installed in that space. Rooms communicating directly with the space in which the appliances are in- stalled*, through openings not furnished with doors, are considered a part of the unconfined space.

This heater shall not be installed in a con- fined space or unusually tight construction unless provisions are provided for adequate combustion and ventilation air.

*Adjoining rooms are communicating only if there are doorless passageways or ventila- tion grills between them.

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Contents Unvented VENT-FREE What to do if YOU Smell GASLocal Codes Safety InformationUnpacking Product Features Product SpecificationsBlower Accessory OperationAIR for Combustion and Ventilation Locating FireboxProviding Adequate Ventilation Determining FRESH-AIR Flow for Firebox Location AIR for Combustion VentilationDetermining if You Have a Confined or Unconfined Space Ventilation AIR Ventilation Air From InsideBuilding Ventilation Air From OutdoorsInstallation Installation ClearancesMantel Clearances for Projected Built-In Installation ScreenFraming for Built-In Firebox Installation Top View Installing GAS Line Firebrick Floor Remove Knockout Thick LinerHARD-WIRING Firebox GAS Supply TestingElectrical Installation Optional Blower Assembly Installation Operating Optional Blower GA3500AOperating Guidelines & Maintenance Instructions Heat Deflective Hood InstallationReplacement Parts Technical ServiceParts Under Warranty Parts not Under WarrantyAccessories Polished Brass HoodFirebox TOP Blower GA3500AIllustrated BreakdownParts List KEY Part Number Fbps Description QTYWarranty Information

FBPS specifications

Desa FBPS, or Flexible Building Production System, is an innovative approach to construction that leverages advanced technologies to enhance efficiency, sustainability, and adaptability in building design and construction. This system is gaining traction in the industry due to its versatility and ability to integrate new methodologies suitable for various construction environments.

One of the main features of Desa FBPS is its modular design. This allows for the construction of buildings using pre-fabricated components, which can be assembled on-site with minimal disruption. This modularity not only speeds up the construction process but also reduces waste, as components are manufactured in a controlled environment where precision and quality can be more easily maintained.

Another significant characteristic of Desa FBPS is its use of smart technologies. The system incorporates IoT (Internet of Things) devices, enabling real-time monitoring of building conditions, energy consumption, and other critical parameters. This data-driven approach facilitates timely decision-making and maintenance, improving the overall longevity and functionality of the buildings.

Sustainability is a core principle of Desa FBPS. The system prioritizes eco-friendly materials and energy-efficient designs, often utilizing renewable energy sources and advanced insulation technologies. This focus on sustainability not only lowers the carbon footprint of construction but also results in long-term savings on energy costs for occupants.

Desa FBPS also emphasizes flexibility in design. Buildings constructed using this system can be easily expanded or modified to adapt to changing needs. This flexibility is particularly advantageous in urban areas where space is at a premium and evolving residential or commercial demands necessitate rapid responses from developers.

Additionally, the integration of Building Information Modeling (BIM) technology plays a crucial role in Desa FBPS. BIM allows for the visualization of a building throughout its lifecycle, facilitating better planning, collaboration among stakeholders, and improved project management.

In summary, Desa FBPS represents a paradigm shift in construction practices, characterized by modular design, smart technology integration, sustainability, and design flexibility. Its forward-thinking approach positions it as a leader in modern construction, addressing the growing demands for efficient and adaptable building solutions in a rapidly evolving world.