Desa CSDBN, CSDPBN installation manual General Venting

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GENERAL VENTING

GENERAL VENTING Continued

11

N

N

D

E V

B L

 

C

 

 

Fixed

V

 

Closed

 

 

F

Openable

 

V

 

Openable

B

Fixed

Closed

H

V

B

I

G

B

B

V J X

G

A

M

V

K X

V

G V A

V TERMINATION CAP

X AIR SUPPLY INLET

G

GAS METER

 

RESTRICTED AREA (TERMINATION PROHIBITED)

A= clearance above grade, veranda, porch, deck, or balcony [*12 inches (30.5mc) minimum]

B= clearance to window or door that may be opened

[12 inches (30.5cm) minimum]

C = clearance to permanently closed window [minimum 12 inches (30.5cm) recommended to prevent condensation on window]

D = vertical clearance to ventilated soffit located above the terminal within a horizontal distance of 24 inches (61cm) from the center-line of the terminal [18 inches (45.7cm) minimum]

E= clearance to unventilated soffit [12 inches (30.5cm) minimum]

F= clearance to outside corner (see below)

G= clearance to inside corner (see below)

H= *not to be installed above a meter/regulator assembly within

36 inches (91.4cm) horizontally from the center-line of the regulator

I= clearance to service regulator vent outlet [*72 inches (182.9cm) minimum]

J= clearance to non-mechanical air supply inlet to building or the combustion air inlet to any other fireplace [*12 inches (30.5cm) minimum]

K= clearance to a mechanical air supply inlet [*72 inches (182.9cm) minimum]

L= clearance above paved side-walk or a paved driveway located on public property [*84 inches (213.3cm) minimum]

M= clearance under veranda, porch, deck [*12 inches (30.5cm) minimum ]

N= clearance above a roof shall extend a minimum of 24 inches (61cm) above the highest point when it passes through the roof surface and any other obstruction within a horizontal distance of 18 inches (45.7cm)

vent shall not terminate directly above a side-walk or paved driveway which is located between two single family dwellings and serves both dwellings*

only permitted if veranda, porch, deck or balconey is fully open on a minimum of 2 sides beneath the floor*

*as specified in CAN/CSA B149 (.1 or .2) Installation Codes (1991) for Canada and U.S.A. Note: Local codes or regulations may require different clearances

Termination Clearances for Buildings with Combustible and Noncombustible Exteriors

Inside Corner

A

 

A = 6" (15.2cm)

 

V

Outside Corner

V

B B = 6" (15.2cm)

Recessed Location

D

C

C

E

V

Balcony with No Side Wall

G

V

G = 12" (30.5cm) minimum clearance

Balcony with Perpendicular Side Wall

H

V

J

Combustible &

Noncombustible

H = 24" (61cm)

J = 20" (50.8cm)

C = Maximum depth of 48" (121.9cm) for recessed location

D = Minimum width for back wall of recessed location - Combustible - 38" (965mm) Noncombustible - 24" (61cm)

E = Clearance from corner in recessed location- Combustible - 6" (15.2cm) Noncombustible - 2" (5.1cm)

Figure 23 - Minimum Clearances for Vent Terminations

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111739-01A

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Contents For Your Safety What to do if YOU Smell GAS OWNER’S Operation and Installation ManualFor Your Safety Safety Information Table of ContentsON/OFF Product IdentificationGlossary of Terms PRE-INSTALLATION Preparation Product FeaturesLocal Codes Unpacking Stove PRE-INSTALLATION PreparationStove and Burner System Assembly REMOVING/REPLACING Doors and Glass Installing Optional Blower AccessoryPlace the green ground wire between the bottom hole on Thermostat Blower Only Attach thermal switch and bracketAngle see . This will allow thermal switch to be Operating modeBurner, Main Burner Orifice, and Pilot Orifice Conversion Installing PROPANE/LP Conversion KITGas Control Valve Conversion Conversion Labeling and PlacementLocation of Vent Termination Installing Rear CoverGeneral Venting General Venting Installation Planning Venting InstallationInstallation Precautions Installing Vent System in a Chase Installation for Horizontal TerminationInstalling Horizontal Vent Cap Noncombustible Exterior Venting with Two 90 Elbows Horizontal Termination ConfigurationsHorizontal Venting Flat Ceiling Installation Installation for Vertical TerminationVenting with One 90 Elbow Cathedral Ceiling InstallationVertical Termination Configurations Elbows Vertical Venting Configuration Using Two 90 ElbowsNumber Description High Altitude InstallationParts Lists for Venting Kits and Components Vertical VentingCheck GAS Type Stove and Burner System InstallationInstalling GAS Piping to STOVE/ Burner System Location Installation Items NeededChecking GAS Connections Connecting STOVE/BURNER System to GAS SupplyPressure Testing Gas Supply Piping System Pressure Testing Burner System Gas Connections Installing Optional Wall Mount Switch GWMS2Installing Remote Receiver and 9-volt Alkaline Battery Installing Optional Wall Mounted Thermostat GWMT1Remove glass door. See Removing/Replacing Glass Door, Installing LOGS, Lava Rock and Glowing EmbersLighting Instructions For Your Safety Read Before LightingOperating Stove with Burner System Shutting Off Burners Only pilot stays lit Manual Lighting ProcedureTo Turn OFF GAS To Appliance Optional HAND-HELD Remote OperationON/OFF Series Model Ghrcb Manual ModeAuto Thermostatic Mode Safety FeaturesOperating Optional GWMT1 Wall Mounted Thermostat Operating Optional Blower AccessoryPilot Assembly Inspecting BurnersLogs Cleaning and MaintenanceGlass Door Pilot and BurnersObserved Problem Possible Cause TroubleshootingCompany Improper vent configurationOrifice Inlet gas pressure is too lowAbove Gas leak. See Warning statementParts Under Warranty SpecificationsWiring Diagram Replacement PartsModel Sdvbnc Illustrated Parts BreakdownKEY Part Number Description Parts ListStove Chassis Models Csdbn and Csdpbn KEY Part Number Csdbn Csdpbn Description QTY Stove ChassisAccessories Technical ServiceService Hints Owners Registration Form Postage Required 111739-01A Warranty Information

CSDBN, CSDPBN specifications

Desa CSDPBN and CSDBN represent cutting-edge advancements in the realm of community-driven development and data-centric governance. These initiatives are designed to empower local communities by integrating technology with robust administration strategies to enhance public service delivery, economic development, and social welfare.

One of the main features of Desa CSDPBN is its focus on participatory governance, allowing community members to actively engage in decision-making processes. This framework encourages transparency and accountability, enabling citizens to voice their needs and priorities while fostering a sense of ownership over local projects. Such involvement helps create tailored solutions that effectively address the specific challenges faced by the community.

Technologically, Desa CSDPBN leverages an array of digital tools that facilitate real-time data collection and analysis. This includes geographic information systems (GIS) and mobile application development to gather insights on resource allocation, infrastructure needs, and demographic information. By employing data analytics, local governments can make informed decisions that enhance resource distribution and service delivery.

The characteristics of CSDPBN and CSDBN systems also extend to their adaptability and scalability. These frameworks are designed to be flexible, allowing them to be replicated across different regions with varying socio-economic contexts. This scalability ensures that diverse communities can benefit from the same foundational principles while customizing aspects to suit their unique environments.

Further enhancing their effectiveness, both initiatives incorporate capacity-building efforts aimed at training local leaders and stakeholders in the use of technology and project management. Such educational components empower communities to sustain development initiatives while fostering local expertise.

Additionally, the integration of social media and online platforms within the Desa CSDPBN framework promotes civic engagement and collaboration among community members. This connectivity nurtures a sense of unity and collective responsibility while improving communication between citizens and local authorities.

Ultimately, Desa CSDPBN and CSDBN embody a holistic approach to community development by harmonizing technology, governance, and citizen participation. They represent a transformative model that not only addresses immediate development needs but also lays the groundwork for sustainable growth and resilience in local communities. As these practices gain traction, they pave the way for a more equitable and inclusive future, where every voice contributes to the narrative of progress.