INSTALLATION OF THE VENT TERMINATION COMBUSTION AIR TEE

 

1. Assemble the combustion air tee assembly body to the vent

 

termination outer pipe, and rotate to the desired position. Attach the

 

tee assembly body to the vent termination outer pipe with at least 3

 

sheet metal screws evenly spaced apart (not included).

 

2. After completing assembly of the vent pipe to the termination inner

 

pipe (Fig. 4), apply the supplied high temperature sealant to the

 

cover pan around the inner pipe, around the joint between the collar

 

and the Tee assembly, and seal or tape the joint from the FDVS

 

Termination to the Tee assembly.

 

NOTE: The tee may be rotated into any position so that the collar is in a

 

convenient orientation.

 

CLEARANCE TO COMBUSTIBLES: FDVS Termination: 0", FOVP

 

Flexible Oil Vent Pipe: 1". These clearances are to maintained unless

 

superceded by the appliance manufacturer's installation instructions or by

Figure 3 – Top View

National and/or local codes (see Step 3).

CONNECTING THE VENT PIPE FROM THE FDVS TO THE APPLIANCE

1.The venting system should be installed and supported in accordance with the latest version in the USA of the National Fuel Gas Code ANSI Z223.1, UL-726, National Fire Protection Association NFPA31, and in Canada CSA B140, CSA B139 Installation Code or in accordance with any other local codes or the authority having jurisdiction. Where requirements for venting differ the most stringent standard requirements shall apply. A vent pipe connector, designed for positive pressure venting, shall be supported for the design and weight of the material employed, to maintain clearances, prevent physical damage and separation of joints. All joints MUST be sealed, for positive vent pressure, to prevent flue gas leakage into the structure.

2.Route the vent pipe from the appliance to the vent termination using the minimum number of bends as possible. The last horizontal section of the vent pipe should have a slight downward slope from the appliance to the vent termination. For clearances to combustible materials and other installation requirements, refer to the National Fuel Gas Code ANSI Z223.1, UL-726, NFPA31, CSA B140, CSA B139 and/or any applicable local codes or appliance manufacturer's installation instructions.

3.Refer to the appliance manufacturer’s specifications for maximum length of vent pipe run. Unless otherwise specified by the appliance manufacturer, use the same size diameter pipe as the exhaust outlet on the appliance to connect to the vent termination inlet. Use a reducer or increaser, if necessary, at the vent termination to connect the vent pipe.

4.Support the Flexible Oil Vent Pipe (FOVP) at regular intervals of maximum 36" spacing with appropriate strapping or hangers, per National and local code requirements. Do not install screws into or otherwise penetrate any part of the vent pipe under any circumstances.

CONNECTING THE COMBUSTION AIR INTAKE PIPE FROM THE FDVS TO THE APPLIANCE

1.Refer to the appliance manufacturer’s specifications for maximum run length of combustion air intake pipe. Unless otherwise specified by the appliance manufacturer, use the same size diameter pipe from the FDVS terminal combustion air tee collar to the appliance oil burner combustion air inlet (or Air boot, if applicable.) Use a reducer or increaser, if necessary at the burner combustion air inlet to connect the combustion air intake pipe.

2.The VRV should be installed close to the air inlet of the burner. To install the VRV, refer to the Installation Instructions included with the VRV.

GENERAL INSTALLATION INSPECTION

Recommended procedures for safety inspection of an appliance should be in accordance with the latest version of the National Fuel Gas Code ANSI Z 223.1, UL 726, and the National Fire Protection Association NFPA 31 in the USA, CSA B140 and CSA B139 Installation Code in Canada. The following procedure will help evaluate the venting system. It is intended as a guide to aid in determining that the venting system is properly installed and is in a safe condition for continuous use. This procedure should be recognized as a generalized procedure which cannot anticipate all situations. Accordingly, in some cases, deviation from this procedure may be necessary to determine safe operation of the equipment. If it is determined that a condition exists which could result in unsafe operation, the appliance should be shut off and the owner advised of the unsafe condition. Corrections must be made before the appliance is put into continuous operation. The following steps should be followed in making a safety inspection.

1.Visually inspect the venting system for proper size and determine that there is no flue gas spillage, blockage, restriction, leakage, corrosion, or other deficiency which could cause an unsafe operation.

2.Place in operation the appliance being inspected. Follow the lighting instructions and adjust thermostat so appliance will operate continuously.

3.Determine that the burner is operating properly and that the burner ignition operates satisfactorily by interrupting and re- establishing the electrical power of the appliance in any convenient manner. Test the burner safety device to determine if it is operating properly by disconnecting the flame safety circuit.

4.Test for spillage at the burner inlet air location around the VRV after 5 minutes of operation. Use a draft gauge, flame of a match or candle, or smoke from a cigarette, cigar or pipe. Shut off appliance thermostat and check for spillage around the VRV. If a flow reversal is noticed, house depressurization is occurring and make up air is required.

MAINTENANCE

Inspect all vent connections annually for looseness, evidence of corrosion, or flue gas leakage. Replace, seal, or tighten pipe connections if necessary.

As part of the yearly maintenance schedule, remove the Intake Access Panel on the exterior of the FDVS vent termination (See Figure

2)and remove any debris or foreign material. Be sure to properly replace the panel.

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Field Controls FDVS installation instructions General Installation Inspection

FDVS specifications

The Field Controls FDVS (Field Digital Ventilation System) is a sophisticated solution designed to enhance indoor air quality while promoting energy efficiency in residential and commercial spaces. This innovative system utilizes advanced technologies to control ventilation effectively and ensure optimal air circulation.

One of the main features of the FDVS is its smart control interface, which allows users to program and monitor the system remotely via a mobile application or web portal. This connectivity enables real-time adjustments and diagnostics, providing users with the ability to optimize their ventilation settings based on current air quality conditions and occupancy levels.

The FDVS employs a range of sensors to monitor indoor air quality parameters, including temperature, humidity, and levels of airborne pollutants. This data-driven approach allows the system to dynamically adjust airflow to maintain a healthy indoor environment, mitigating the effects of indoor air pollution, allergens, and excessive humidity. By intelligently regulating ventilation, the FDVS not only improves comfort but also reduces energy consumption and operating costs.

Another significant characteristic of the FDVS is its variable speed fans, which enable precise control over airflow. This feature allows the system to operate quietly and efficiently, providing sufficient ventilation without causing draughts or disruptive noise. Users can customize the fan speed according to their specific needs, ensuring an optimal balance between air quality and energy use.

Field Controls has also incorporated advanced filtration options into the FDVS, including HEPA filters and activated carbon filters. This two-stage filtration system not only captures larger particles such as dust and pollen but also adsorbs odors and volatile organic compounds (VOCs), further enhancing the air quality in indoor spaces.

The FDVS is designed with a focus on user-friendly operation and maintenance. The system includes easy-to-access filter compartments for straightforward replacement, and the intuitive interface provides reminders for regular maintenance checks. Additionally, the compact design of the FDVS makes it suitable for installation in various environments, including tight spaces where conventional ventilation systems might not fit.

In summary, the Field Controls FDVS is an advanced digital ventilation solution that combines smart technology with effective air quality monitoring and advanced filtration. Its main features, such as remote control capabilities, variable speed fans, and comprehensive sensing technologies, position it as a leading choice for anyone looking to optimize their indoor air quality while promoting energy efficiency.