Quadra-Fire CUMPGAP-PMH, CUMBGAP-MBK warranty Negative Pressure, Windward

Page 6

R

Cumberland Gap Wood Stove

C. Negative Pressure

Draft is the pressure difference needed to vent appliances successfully. Considerations for successful draft include:

Preventing negative pressure

Location of appliance and chimney

Negative pressure results from the imbalance of air avail- able for the stove to operate properly. Causes for this imbal- ance include:

Exhaust fans (kitchen, bath) etc.)

Range hoods

Combustion air requirements for furnaces, water heaters and other combustion appliances

Clothes dryers

Location of return-air vents to furnace or air condi- tioning

Imbalances of HVAC air handling system

Upper level air leaks

Recessed lighting

Attic hatch opening

Duct leaks

To minimize the affects of negative air pressure the follow- ing must be considered:

Install the outside air kit. Install the intake on the side of the house towards prevailing winds during the heating season.

Ensure adequate outdoor air is supplied for combus- tion appliances and exhaust equipment.

Ensure furnace and air conditioning return vents are not located in the immediate vicinity of the appliance,

Avoid installing the appliance near doors, walkways or small isolated spaces.

Recessed lighting should be of “sealed can” design; attic hatches weather stripped or sealed; and attic mounted ductwork and air handler joints and seams taped or sealed.

WARNING

Asphyxiation Risk.

Negative pressure can cause spillage of combustion fumes, soot and carbon mon- oxide.

Appliance needs to draft properly for safety.

 

Recommended Location:

Recommended Location:

Above peak

• Above peak

Inside heated space

Marginal Location:

• Below peak

Marginal Location:

• Wind loading possible

Location NOT recommended:

Not the highest point of the roof

Wind loading possible

Windward

Recommended: Outside Air Intake on windward side

Recommended:

Insulated exterior chase in cooler climates

Multi-level Roofs

Location NOT recommended:

Too close to tree

Below adjacent structure

Lower roof line

• Avoid outside wall

Leeward

NOT recommended: Outside Air Intake on leeward side

Figure 6.1

Page 6

7006-188G

November 5, 2010

Page 5 Page 7
Image 6
Page 5 Page 7
Contents Cumberland Gap Non-Catalytic, Front/Side Load, Wood HeaterSerial Number Testing LabCumberland Gap Wood Stove Model NameTable of Contents BTU & Efficiency Specifications Cumberland Gap Wood Stove Listing and Code ApprovalsAppliance Certification Mobile Home ApprovedGetting Started Cumberland Gap Wood Stove Fire SafetyDesign, Installation & Location Considerations Asphyxiation RiskNegative Pressure WindwardTools And Supplies Needed Flue Draft ConsiderationsVenting Systems Inspect Appliance & Components and Pre-Burn Check ListTypical Stove Systems Stove system with masonry chimney consists of FigureDimensions and Clearances Appliance DimensionsClearances To Combustibles UL And ULC Single Wall-USADouble Wall-USA Installation Considerations Hearth Protection RequirementsCalculating Alternate Floor Protection Material USA Required Canada RecommendedReversible Flue Collar and Horizontal Flue Heat Shield Completed ViewFire Risk Baffle DiverterBaffle Diverter Slanted corner Straight end to the backBaffle Diverter Is shipped Inside firebox Cumberland Gap Wood StoveCut Ends Hand Bend #1 Hand bend #2 Straight End Leg Leveling System Side Fuel-Loading-Door Locking MechanismInstructions To Unlock Side Fuel Door Outside Air Kit Installation Installation Of Optional Blower Cumberland Gap Wood Stove Chimney Requirements Venting ComponentsChimney Systems Components Air ClearancesInstructions Masonry Chimney Liner Chimney Height / Rise and RunInstalling Chimney Components Masonry Chimney Liner ContdChimney Termination Requirements RuleCumberland Gap Wood Stove Mobile Home Installation 629M, Standard for Factory Built ChimneysDoor Handle Assemblies Adjusting The Blower Speed ControlCumberland Gap Wood Stove Appliance Set-Up Needs to move smoothlyHardwood vs Softwood Cumberland Gap Wood Stove Operating InstructionsOver-Firing Your Appliance Wood Selection and Storage Processed Solid Fuel Fire LogsSeasoned Wood Burning ProcessMoisture Storing WoodFinal Stage Air ControlsCombustible/Non-Combustible Materials Start-Up Air SystemHigh Burn Rate Maximum Heat* 30,000+ BTU/hr Heat Output Settings Building a FireBurn Rates Medium-Low Burn Rate* 10,000 to 15,000 BTU/hrOptional Blower Operating Instructions Opacity SmokeFrequently Asked Questions Clear SpaceCorrect Baffle & Blanket Placement Incorrect PositionsAsh Removal System ARS Operating and Cleaning General MaintenanceCreosote Chimney Cleaning Injury RiskWhen cleaning glass Glass Cleaning Frequency As desiredCleaning Plated Surfaces Disposal of AshesAppliance Inspection Routine Inspect Firebrick & Replacement InstructionsGlass Replacement Fire Risk Injury RiskBaffle Removal & Installation Quick Reference Maintenance Guide MonthlyCumberland Gap Wood Stove Troubleshooting Guide Start Fire Problems Possible Cause SolutionService Parts Service Parts StockedAt Depot Stocked at Depot #20 Brick SetCumberland Gap Warranty Policy November 5 7006-188G Contact Information

CUMBGAP-MBK, CUMPGAP-PMH specifications

The Quadra-Fire CUMPGAP-PMH and CUMBGAP-MBK are established models in the realm of high-efficiency wood stoves, combining modern technology with traditional heating methods to provide an effective and environmentally friendly heating solution.

One of the standout features of the CUMPGAP-PMH and CUMBGAP-MBK models is their impressive heating efficiency. Both stoves exceed industry standards, ensuring that more heat is produced from less fuel, which not only helps in saving on heating costs but also reduces the environmental impact. Their efficient combustion technology means that these stoves produce minimal emissions, making them a responsible choice for eco-conscious consumers.

The construction of these stoves is designed with durability and robustness in mind. Made from high-quality materials, they assure longevity and reliability, which are crucial elements in heating appliances. The intelligently engineered airflow dynamics facilitate efficient burning, allowing these models to maintain optimal performance under various conditions.

Another significant feature of both models is the incorporation of advanced catalytic combustors. These catalysts improve the combustion process, resulting in cleaner burning and enhancing overall efficiency. The catalytic technology functions by allowing smoke and gases to pass through the catalyst, where they undergo additional burning before being released into the atmosphere. This process not only maximizes heat generation but also significantly lowers the emissions of harmful pollutants.

User convenience is also a top priority with these wood stoves. They feature large ash pans and simple loading mechanisms, making it easy to maintain and use them regularly. Their stylish design allows them to fit seamlessly into any home décor, and with variable heating capacities, they can effectively warm spaces of different sizes.

Safety features are another vital characteristic of the CUMPGAP-PMH and CUMBGAP-MBK models. With built-in heat shields and thermal protection, they provide peace of mind to homeowners while promoting safer operation. Additionally, they comply with various safety and efficiency standards set by regulatory bodies.

In conclusion, the Quadra-Fire CUMPGAP-PMH and CUMBGAP-MBK models stand out for their efficiency, design, advanced combustion technology, and safety features. They offer a modern solution to traditional wood heating, ensuring warmth and comfort while taking care of the environment. These stoves represent the perfect synergy of innovation and effectiveness in home heating solutions.
Top Page Image Contents