Enviro 50-029 owner manual General Venting Information, Canadian Installations, A. Installations

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Initial Installation

GENERAL VENTING INFORMATION:

Canadian Installations

The venting system must be installed in accordance with the current CSA B149 installation code and/or local codes having jurisdiction.

U.S.A. Installations

The venting system must be installed in accordance with the current National Fuel Gas Code, ANSI Z223.1, and/or local codes having jurisdiction.

The minimum clearance to combustibles is 6” (150 mm) when using single wall venting and 1” (25 mm) when using “B-vent” venting.

We strongly recommend installing an approved chimney liner in an existing brick chimney. This will maximize the potential draft of the chimney and lessen the effects of slow chimney start-up.

VENTING OF A FIREPLACE FITTED WITH THE DRAFTHOOD ADAPTOR:

Note: Please refer to the chimney manufacturer’s installation instructions prior to commencing the installation.

This unit may be vented to an existing masonry chimney, or where no masonry chimney is available, an approved “B-vent” chimney, or any other approved constructed chimney/vent system (see Figure 24 & 25).

 

In either case, the fireplace may be connected to

 

the chimney/vent using a 4” (10 cm) single wall vent

 

connector.

 

When an existing masonry chimney

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is utilized for the venting, we

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recommend the vent connector be

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connected to an approved 4” (10

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cm) diameter flue liner running the

full height of the chimney. In many

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jurisdictions this flue liner may be

 

mandatory.

If 4” (10 cm) single wall vent is

 

used, a minimum of 6” (15 cm) must

 

be maintained between the vent

 

connector and any combustibles.

Figure 25: Unit rear

Figure 24: Unit top venting styles.

venting style.

 

If 4” (10 cm) “B-vent” is used a minimum of 1” (25 mm) must be

 

maintained between the vent connector and any combustibles.

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CAUTION: A minimum vent height of 12’ (3.6 m) from the floor is

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required to effectively vent this fireplace.

 

SPILLAGE TEST:

 

A spillage test must be performed prior to leaving the installed fireplace

 

with the customer. Perform this test in the following manner:

 

1. Close all windows and doors in the room.

 

2. Start all exhaust fans in the house and the furnace blower.

 

3. Light the fireplace and set to maximum flame adjustment.

 

Figure 26: Draft test place.

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Contents What to do if YOU Smell GAS Safety Precautions GeneralTable of Contents This Enviro Ascot Fireplace Codes And ApprovalsVented GAS Fireplace Heater Ascot DV NG/LPG Specifications Dimensions of the AscotFor Your Safety Read Completely Before Operating Operating InstructionsMaintenance And Service To Replace Removing inner glass doorTo be Installed by a Qualified Service Agency only Initial Installation Qualified Installers onlyAre Permitted to Reach the Outside Vent Termination Vent Restrictor Setting Round Support High temperature silicone on Installing Vent Cap with Vinyl Siding Stand-Off Straight Through Wall Installation Vertical Installation Material overlaps the top edge of the flashing Step InstallationWiring Diagram Canadian Installations A. InstallationsGeneral Venting Information Venting of a Fireplace Fitted with the Drafthood AdaptorOptional Finishing Automatic Safety Shut DownSpill Switch Replacement Hearth Mount Installation GAS Line Connection To Test Valve PressuresControls Wiring Errors Can Cause Improper Secondary Installation Ascot Burner TrayEmber Placement Trouble Shooting Problem Possible Cause SolutionParts List Reference Description Part NumberCast Description Reference Cast Description Part Number Parts Diagram Warranty To the DistributorInstallation Data Sheet

50-029 specifications

Enviro 50-029 is an innovative environmental monitoring device designed to provide comprehensive data collection and analysis for various ecological parameters. With its cutting-edge features, the device has garnered attention in industries such as agriculture, environmental science, and urban planning.

One of the cornerstone features of the Enviro 50-029 is its multi-sensor capability. This device is equipped with a suite of sensors that can measure a wide range of environmental variables. These include temperature, humidity, air quality, soil moisture, and light intensity. The integration of multiple sensors allows users to gather detailed insights into the ecosystem, enabling better decision-making and resource management.

The Enviro 50-029 also utilizes advanced wireless communication technologies, such as LoRaWAN and Zigbee. This allows for real-time data transmission without the need for extensive wiring or infrastructure. The device can connect to a central hub or cloud-based platform, facilitating remote monitoring and accessibility of data from anywhere in the world. This feature is particularly valuable for researchers and environmental agencies monitoring remote or hard-to-reach areas.

Power efficiency is another significant characteristic of the Enviro 50-029. Utilizing low-power design protocols, the device can operate for extended periods on minimal battery power. This sustainability aspect is crucial, particularly for long-term environmental monitoring projects where replacing batteries frequently can be logistically challenging.

Moreover, the Enviro 50-029 is built to withstand various environmental conditions. Its robust, weather-resistant casing ensures durability in extreme temperatures and harsh weather environments. This makes it suitable for outdoor deployments, whether in agricultural fields, forests, or urban areas, without compromising performance.

The device also supports customizable settings, enabling users to define specific thresholds and alerts for different environmental parameters. This feature allows for proactive monitoring and notifications on critical changes, providing essential data needed to respond to environmental concerns swiftly.

Overall, the Enviro 50-029 stands out as a versatile and reliable tool for environmental monitoring. Its multi-sensor capabilities, advanced communication technologies, power efficiency, and robust design make it an excellent choice for research, conservation efforts, and smart farming applications. By integrating such a sophisticated device into their operations, users can gain actionable insights and contribute to a more sustainable future.