Desa SBVBN(C), SBVBP(C) Local Codes, Product Features, PRE-INSTALLATION Preparation

Page 4

LOCAL CODES

4 PRODUCT FEATURES

Operation

Piezo Ignitor

PRE-INSTALLATION PREPARATION

Location and Space Requirements

LOCAL CODES

Install and use stove and burner system with care. Follow all local codes. In the absence to local codes, use the current National Fuel Gas Code ANSI Z223.1/NFPA 54* (USA) or the current CAN/CGA- B149[.1 or .2] Installation Codes (Canada).

*Available from:

American National Standards Institute, Inc.

1430 Broadway

New York, NY 10018

National Fire Protection Association, Inc.

Batterymarch Park

Quincy, MA 02269

PRODUCT FEATURES

OPERATION

This B-vent cast iron stove with burner system is clean burning and vents vertically. Heat is generated by both realistic flames and glowing embers. When used without the blower accessory, the stove with burner system requires no electricity making it ideal for emergency backup heat.

PIEZO IGNITOR

This burner system has a piezo ignitor. This system requires no matches, batteries, or other sources to light burner system.

PRE-INSTALLATION

PREPARATION

WARNING: A qualified installer or service person must install stove and burner system. Follow all local codes.

CAUTION: This stove with burner system creates warm air currents. These currents move heat to wall surfaces next to stove. Installing stove next to vinyl or cloth wall coverings or operating stove with burner system where impurities (such as, but not limited to, tobacco smoke, aromatic candles, cleaning fluids, oil or kerosene lamps, etc.) in the air exist, may discolor walls or cause odors.

LOCATION AND SPACE REQUIREMENTS

Determine the safest and most efficient location for your DESA B-vent cast iron stove. Make sure that rafters and wall studs are not in the way of the venting system. Choose a location where the heat output is not affected by drafts, air conditioning ducts, windows, or doors. Figure 2 shows some common locations. Read all venting information in this manual. Be aware of all restrictions and precautions before deciding the exact location for your stove.

When deciding the location of your stove, follow these rules:

1.Do not connect this stove and burner system to a chimney flue serving a separate solid-fuel burning fireplace or appliance.

2.Due to high temperatures, do not locate this stove in high traf- fic areas or near furniture or draperies.

3.Proper clearances must be maintained, see Figure 3 below and Figure 4 on page 5.

4.This stove is a freestanding unit designed to set directly on the floor. If your stove is to be installed directly on carpeting, vi- nyl tile, or any combustible material other than wood, it must be installed on a metal or wood panel extending the full width and depth of the stove. See Figure 5, page 5.

On Wall with Vertical

Corner Installation with Vertical

Termination Through Ceiling

Termination Through Ceiling

Figure 2 - Common Stove Locations

Ceiling

42"

36"

 

 

 

 

 

 

 

 

 

 

 

4"

from

 

 

 

 

 

 

 

 

 

 

 

from

Front

 

 

 

 

 

 

Back

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Wall

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Floor

29"

4"

6"

Front

Figure 3 - Clearances for Standard Installation

For..com

106828-01C

Image 4
Contents For Your Safety For Your Safety What to do if YOU Smell GASTable of Contents Safety InformationProduct Identification To operating burner systemPRE-INSTALLATION Preparation Product FeaturesLocal Codes Cast Iron Stove and B-VENT Burner System Assembly Stove Body AssemblyAttaching Stove Legs Installing B-VENT Burner System Into Stove Body Installing Optional Blower AccessoryInstalling Rear Cover ON/OFFVenting Installation Installation PrecautionsInstallation of Listed B-1 Vent Installing Vent System in a ChaseHigh Altitude Installation Checking Vent CapacityChimneys Relining SystemsTroubleshooting Venting Problems Cast Iron Stove and B-VENT Burner System InstallationFlue GAS Spillage Causes of Spillage and Corrective ActionInstalling GAS Piping to Stove Location Installation Items NeededPressure Testing Gas Supply Piping System Connecting STOVE/BURNER System to GAS SupplyChecking GAS Connections Installing Optional Wall Mounted Thermostat GWMT1 Installing Optional Wall Mount Switch GWMS2Pressure Testing Burner System Gas Connections Installing Remote Receiver Installing Battery in ReceiverInstalling 9-Volt Battery in Hand-Held Remote Control Unit REMOVING/REPLACING Glass DoorInstalling LOGS, Lava ROCK, and Glowing Embers Remove glass door. See Removing/Replacing Glass Door,For Your Safety Read Before Lighting Manual Lighting ProcedureOperating Stove with B-VENT Burner System Lighting InstructionsOptional Remote Thermostat Series Operation Operating Stove with Vent Burner SystemON/OFF Series Models Ghrcb and Cghrcb Operating Optional Blower Accessory Pilot AssemblyInspecting Burners Operating Optional GWMT1 Wall Mounted ThermostatCleaning Maintenance Glass DoorPilot and Burners LogsTroubleshooting Observed Problem Possible CauseObserved Problem Possible Cause Remedy Gas leak. See Warning statement Replacement Parts Technical ServiceWiring Diagram Service HintsSpecifications Sbvbnc SbvbpcIllustrated Parts Breakdown Models Sbvbnc and SbvbpcParts List KEY Part Number Description QTYAmity SCIVFC* Series PSCIVFC* Series Indicates Color Suffix DesignationAmity SCIVFC* Series and PSCIVFC* Series Indicates Color Suffix DesignationReceiver and HAND-HELD Remote Control KIT Ghrcb and Cghrcb AccessoriesTHERMOSTATICALLY- Controlled Blower KIT CDA3620TB Owners Registration Form Postage Required 106828-01C Warranty Information

SBVBP(C), SBVBN(C) specifications

Desa SBVBP(C) and SBVBN(C) are two advanced models in the landscape of environmental and energy-efficient technologies. These innovative designs are at the forefront of sustainable construction, showcasing a plethora of features and characteristics that make them stand out.

One of the main features of Desa SBVBP(C) is its emphasis on bioclimatic architecture, which ensures that buildings harmonize with their surrounding environment. This model incorporates passive solar design principles, allowing natural light to penetrate efficiently while minimizing energy loss. High-performance thermal insulation is another significant characteristic, which helps maintain comfortable indoor temperatures regardless of external weather conditions.

Desa SBVBN(C) complements its counterpart with its remarkable integration of renewable energy technologies. Equipped with photovoltaic panels and wind turbine systems, this model harnesses natural energy sources to reduce reliance on non-renewable energy. The energy generated can be used for lighting, heating, and powering appliances, making the building self-sufficient and cost-effective over time.

Both models utilize smart technology for enhanced operational efficiency. Internet of Things (IoT) devices allow for real-time monitoring and control of energy consumption, promoting sustainable living practices among residents. Automated systems adjust lighting, heating, and cooling based on occupancy and time of day, further contributing to energy savings.

Water conservation is another crucial aspect of Desa SBVBP(C) and SBVBN(C). Both designs implement rainwater harvesting systems and greywater recycling technologies, ensuring that water usage is minimized and reused effectively. This not only lowers utility bills for occupants but also contributes to environmental sustainability by reducing the strain on local water resources.

The construction materials used in both models emphasize sustainability, utilizing recycled, locally sourced, and eco-friendly materials whenever possible. This commitment to green building practices ensures that the overall environmental footprint of the structures is minimal.

In summary, Desa SBVBP(C) and SBVBN(C) represent a paradigm shift towards eco-conscious living. Through the integration of advanced technologies, renewable energy sources, and smart systems, these models provide a blueprint for sustainable development that addresses the pressing challenges of climate change and environmental degradation. As cities around the world seek innovative solutions to improve urban living, models like these shine as beacons of hope and progress.