Desa HDCFTN Installation, Ventilation AIR, Ventilation Air From Inside Building

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AIR FOR COMBUSTION

AND VENTILATION

Continued

If the actual Btu/Hr used is less than the maximum Btu/Hr the space can support, the space is an un- confined space. You will need no additional

WARNING: If the area in which the heater may be oper- ated is smaller than that defined as an unconfined space or if the building is of unusually tight construction, provide adequate combustion and ventilation air by one of the methods described in the National Fuel Gas Code, ANSI Z223.1/NFPA54 Section 5.3 or applicable local codes.

VENTILATION AIR

Ventilation Air From Inside Building

This fresh air would come from an adjoining un- confined space. When ventilating to an adjoining unconfined space, you must provide two perma- nent openings: one within 12" of the ceiling and one within 12" of the floor on the wall connecting the two spaces (see options 1 and 2, Figure 5). You can also remove door into adjoining room (see option 3, Figure 5). Follow the National Fuel Gas Code, ANSI Z223.1/NFPA 54, Section 5.3, Air for Combustion and Ventilation for required size of ventilation grills or ducts.

 

12"

 

Ventilation Grills

Ventilation

Into Adjoining Room,

Option 2

Grills

Or

into Adjoining

Remove

Room,

Door into

Option 1

Adjoining

 

Room,

 

Option 3

12"

Figure 5 - Ventilation Air from Inside Building Shown with Optional Mantel

Ventilation Air From Outdoors

Provide extra fresh air by using ventilation grills or ducts. You must provide two permanent openings: one within 12" of the ceiling and one within 12" of the floor. Connect these items directly to the outdoors or spaces open to the outdoors. These spaces include attics and crawl spaces. Follow the National Fuel Gas Code, ANSI Z223.1/NFPA 54, Section 5.3, Air for Combustion and Ventilation for required size of ventilation grills or ducts.

IMPORTANT: Do not provide openings for inlet or outlet air into attic if attic has a thermostat- controlled power vent. Heated air entering the attic will activate the power vent.

 

Outlet

Ventilated

 

Attic

 

Air

 

 

Outlet

 

 

Air

 

To Attic

 

 

 

 

To

 

 

Crawl

Inlet

 

Space

 

 

Air

 

 

 

Inlet Air

Ventilated

 

Crawl Space

 

 

Figure 6 - Ventilation Air from Outdoors

Shown with Optional Mantel

INSTALLATION

NOTICE: This heater is intended for use as supplemental heat. Use this heater along with your primary heating system. Do not install this heater as your pri- mary heat source. If you have a central heating system, you may run system’s circulating blower while using heater. This will help circulate the heat throughout the house. In the event of a power outage, you can use this heater as your primary heat source.

WARNING: A qualified ser- vice person must install fire- place. Follow all local codes.

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Contents 14,000 to 26,000 Btu/Hr with Thermostat Shown with Optional Cabinet Mantel/Hearth Base AccessoryHDCFTP, HDCFTN, Cgcftp and Cgcftn Table of Contents Safety Information Provide adequate clearances around air openings Local CodesProduct Information Unpacking Product FeaturesAssembly Providing Adequate Ventilation Assembling HoodAIR for Combustion Ventilation Determining FRESH-AIR Flow for Heater LocationConfined and Unconfined Space Determining if You Have a Confined or Unconfined SpaceInstallation Ventilation AIRVentilation Air From Inside Building Ventilation Air From OutdoorsLocating Fireplace Installation ItemsCheck GAS Type BUILT-IN Fireplace Installation Rough Opening for Installing WallIf you have not assembled firebox, follow instructions on Attaching Fireplace to Wall StudsMantel Clearances for BUILT- in Installation Optional Mantel InstallationInstalling Blower Accessory Removing Upper Louver AssemblyInstalling Blower Assembly Models Cgcftp and Cgcftn Removing Valve Cover ShieldFor Built-In Installation Close lower louver doorExtension Cord Connecting to GAS SupplyAttaching Wood Base to Solid Floor Connecting Equipment Shutoff Valve to Heater Control Installation Items NeededTest Pressures Equal To or Less Than 1/2 Psig 3.5 kPa Checking GAS ConnectionsTest Pressures In Excess Of 1/2 Psig 3.5 kPa For Your Safety Read Before LightingEquipment Shutoff Valve Propane/LPOperating Fireplace Lighting InstructionsTo Turn OFF GAS To Appliance Shutting Off FireplaceManual Lighting Procedure Inspecting BurnerThermostat Control Operation Burner Flame PatternCleaning Maintenance Burner Injector Holder and Pilot AIR Inlet HoleCabinet Air PassagewaysTroubleshooting Observed Problem Possible Cause RemedyOut when control knob is re Delayed ignition of burner Manifold pressure is too lowODS/pilot lights but flame goes Press in control knob fullyBurner orifice Clean burner see Cleaning Gas regulator defective Nance, Replace gas regulatorAir in gas line Minute Operate burner until air is Air passageways on fireplaceGas leak. See Warning Specifications Replacement PartsService Hints Technical ServiceIllustrated Parts Breakdown Models CGCFTP, CGCFTN, Hdcftp and HdcftnParts List Part Number KEY Hdcftp Hdcftn Cgcftp Cgcftn Description QTYAccessories Parts Centrals FBDLimited Warranty VENT-FREE Compact Fireplace Warranty InformationKeep this Warranty

CGCFTP, CGCFTN 14, HDCFTN specifications

Desa HDCFTN, CGCFTP, and CGCFTN 14 represent a significant advancement in the landscape of modern digital architecture. These entities are characterized by their unique blend of features, technologies, and characteristics that cater to various applications and industries.

At the core of these systems is the high-density computing and flexible trading network (HDCFTN) structure, which allows for scalable operations and enhanced processing capabilities. This architecture is designed to efficiently handle large volumes of data transactions, making it ideal for sectors such as finance, telecommunications, and research institutions. By incorporating distributed computing, HDCFTN can optimize resource allocation and significantly reduce latency compared to traditional centralized systems.

CGCFTP, or the Cloud-based Grid Computing for Financial Transactions Platform, serves as a robust framework that integrates real-time data processing and analysis. Its cloud-native design ensures seamless connectivity and scalability, enabling organizations to operate in a flexible environment. The platform utilizes microservices architecture, which allows for independent deployment and scaling of different components, leading to improved performance and resilience.

Meanwhile, CGCFTN 14 focuses on providing end-to-end solutions for trading and financial operations. It incorporates advanced security protocols and compliance features, addressing the increasing regulatory demands prevalent in the financial sector. Utilizing blockchain technology, CGCFTN 14 ensures data integrity and transparency, creating trust among users while minimizing the risk of fraud or misconduct.

The combination of artificial intelligence (AI) and machine learning (ML) within these frameworks enhances predictive analytics and decision-making processes. With algorithms that learn from historical data, organizations can anticipate market trends and adjust their strategies accordingly. The integration of big data analytics further fuels real-time insights, empowering businesses to respond swiftly to market changes.

Moreover, these innovative systems embrace interoperability, connecting with various existing technologies and platforms. This flexibility allows organizations to leverage their current investments while still benefiting from new technological advancements. In summary, Desa HDCFTN, CGCFTP, and CGCFTN 14 exemplify the future of digital infrastructure, characterized by high density, cloud integration, advanced security, and intelligent analytics, driving efficiency and innovation across industries.
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