Lifebreath 1000RHCAC, 1200DDPOOL Pitot Tube Air Flow Balancing, Prior to balancing, ensure that

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Place pitot tube a minimum of 18" from blower or elbows
HRV must be in ventilate mode when balancing proceedure is performed
Pitot
tube

Pitot Tube Air Flow Balancing

It is necessary to have balanced air flows in an HRV. The volume of air brought in from the outside must equal the volume of air exhaust- ed by the unit. If the air flows are not properly balanced, then;

The HRV may not operate at its maximum efficiency

A negative or positive air pressure may occur in the house

The unit may not defrost properly

Failure to balance HRV properly may void warranty

Excessive positive pressure may drive moist indoor air into the external walls of the building where it may condense (in cold weather) and degrade structural components. May also cause key holes to freeze up.

Excessive negative pressure may have several undesirable effects. In some geographic locations, soil gases such as methane and radon gas may be drawn into the home through basement/ground contact areas. Excessive negative pressure may also cause the backdrafting of vented combustion equipment.

Read the Application Warning on the front of this manual!

Prior to balancing, ensure that:

1.All sealing of the ductwork system has been completed.

2.All of the HRV's components are in place and functioning properly.

3.Balancing dampers are fully open.

4.Unit is on HIGH speed.

5.Air flows in branch lines to specific areas of the house should be adjusted first prior to balancing the unit. A smoke pencil used at thegrilles is a good indicator of each branch line's relative air flow.

6.After taking readings of both the stale air to the HRV duct and fresh air to the house duct, the duct with the lower CFM ([L/s] velocity) reading should be left alone, while the duct with the higher reading should be dampered back to match the lower reading.

7.Return unit to appropriate fan speed for normal operation

Balancing Procedure

Insert the Pitot tube into the duct; pointing the tip into the airflow.

For general balancing it is sufficient to move the pitot tube around in the duct and take an average or typical reading. Repeat this proce- dure in the other (supply or return) duct. Determine which duct has the highest airflow (highest reading on the gauge). Then damper that air- flow back to match the lower reading from the other duct. The flows should now be balanced. Actual airflow can be determined from the gauge reading. The value read on the gauge is called the velocity pressure. The Pitot tube comes with a chart that will give the air flow velocity based on the velocity pressure indicated by the gauge. This velocity will be in either feet per minute or metres per second. To determine the actual airflow, the velocity is multiplied by the cross sectional area of the duct being measured.

This is an example for determining the airflow in a 6" duct. The Pitot tube reading was 0.025 inches of water.

From the chart, this is 640 feet per minute.

The 6" duct has a cross sectional area of = [3.14 x (6"÷12)2]÷4 = 0.2 square feet

The airflow is then:

640 ft./min. X 0.2 square feet = 128 cfm

For your convenience, the cross sectional area of some common round duct is listed below:

DUCT DIAM. (inches)

CROSS SECTION AREA (sq. ft.)

5

0.14

6

0.20

7

0.27

The accuracy of the air flow reading will be affected by how close to any elbows or bends the readings are taken. Accuracy can be increased by taking an average of multiple readings as outlined in the literature supplied with the Pitot tube.

Pitot tube and gauge

The following is a method of field balancing an HRV using a Pitot tube, advantageous in situations when flow stations are not installed in the ductwork. Procedure should be performed with the HRV on high speed.

The first step is to operate all mechanical systems on high speed, which have an influence on the ventilation system, i.e. the HRV itself and the forced air furnace or air handler if applicable. This will provide the maximum pressure that the HRV will need to overcome, and allow for a more accurate balance of the unit.

Drill a small hole in the duct (about 3/16"), three feet downstream of any elbows or bends, and one foot

DUCT

AIR FLOW

Pitot tube

Magnehelic gauge

MAGNEHELIC

Pitot Tube Air Flow Balancing Kit

c/w magnehelic gauge, Pitot tube, hose and carry case.

PART NO. 99-167

upstream of any elbows or bends. These are recommended distances but the actual installation may limit the amount of straight duct.

Outdoors

The Pitot tube should be connected to a magnehelic gauge or other manometer capable of reading from 0 to 0.25 in. (0-62 Pa) of water, prefer- ably to 3 digits of resolution. The tube coming out of the top of the pitot is connected to the high pressure side of the gauge. The tube coming out of the

Magnehelic

gauge

MAGNEHELIC

Magnehelic

gauge

Pitot tube

side of the pitot is connected to the low pressure or reference side of the gauge.

Note: Duct connections may vary,

MAGNEHELIC

depending on model.

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Contents For Models 1000RHCTable of Contents IntroductionModel 700DD Pool PerformanceSpecifications Model 1200DD PoolModel 1000RHC Model 1000RHCAC Hydronic Reheat CoilSizing your Pool Heat Recovery Ventilator Moisture removal capabilitiesSystem Installation CalculationEvaporation Rate Flowrate Factor Installation Diagrams Typical Duct Layout Sketch #1Typical Duct Layout Sketch #2 Location for Mounting Ductwork SystemOutside Weatherhoods Ducting from WeatherhoodsWarmside Ducting General Stale Air Return SystemFresh Air Supply System Various Installation Types Saddle InstallationElectrical Connections Automatic Self Test of Defrost SystemsOperation of the HRV OperationDucting Requirements & Mode of Operation Ventilation ModeRecirculation Mode Defrost ModeHydronic Reheat Coil Speed Selection and ControlsAir Conditioning DX Coil Pitot Tube Air Flow Balancing Prior to balancing, ensure thatService/Maintenance MotorGeneral Maintenance FiltersTroubleshooting Your HRV System Symptom Cause SolutionStyle Units only Commercial Lifebreath Heat Recovery Ventilators Two Year Limited Warranty 15 Year Core Warranty

1200DDPOOL, 700DDPOOL, 1000RHCAC, 1000RHC specifications

Lifebreath is a brand renowned for its commitment to energy-efficient indoor air quality solutions. Among their offerings, the Lifebreath 700DDPOOL, 1200DDPOOL, 1000RHCAC, and 1000RHC stand out as exemplary products designed for various residential and commercial settings. These units leverage cutting-edge technologies to provide superior ventilation, heat recovery, and air quality management.

The Lifebreath 700DDPOOL is specifically designed for indoor pools and similar environments. This model boasts dual-flow ventilation, which simultaneously circulates fresh air into the space while expelling stale air. The 700DDPOOL features a built-in dehumidistat, ensuring optimal humidity levels are maintained, which is vital for preventing mold and preserving air quality. Its energy recovery capabilities make it an eco-friendly choice, reclaiming heat from exhaust air to pre-condition incoming air, thus significantly reducing heating costs.

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The Lifebreath 1000RHCAC and 1000RHC models shift focus towards whole-home ventilation and air conditioning solutions. The 1000RHCAC combines heat recovery with air conditioning capabilities, allowing for year-round climate control. The unit’s heat exchanger efficiently recovers heat from the outgoing air and transfers it to the incoming air, ensuring that energy is conserved even during cooling seasons.

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Overall, Lifebreath’s 700DDPOOL, 1200DDPOOL, 1000RHCAC, and 1000RHC models provide exceptional performance, versatility, and user-friendly features. These air management systems represent the future of sustainable indoor air quality solutions, meeting diverse ventilation needs while prioritizing energy efficiency and comfort. With Lifebreath, users can breathe easier knowing they have invested in cutting-edge technology designed for health and efficiency.