Dwyer M200.5 Durablock Solid Plastic Stationary Gage Instructions
- August 16, 2024
- Dwyer
Table of Contents
Test Equipment Depot – 800.517.8431 – TestEquipmentDepot.com Bulletin D-3
Inclined and Vertical Stationary Manometers
Operating Instructions and Parts List
Parts list. Contact factory for ordering information.
(-1) Panel
(-2) Gage Body
(-3) Scale
(-4) Scale Screw and Washer
(-5) Leveling Screw, Nut and Washer
(-6) Mounting Screw and Washer
(-7) Molded Nylon Connector - Rapid shut off type
(-8) 1 oz. bottle Red Gage Fluid (not shown)
1. Mount panel securely on a vertical surface, avoiding excessive heat.
(Temperatures over 135ºF. will damage the gage.)
2. Vent gage to atmosphere.
3. With an inclined manometer, release level adjustment screw, center bubble
between cross hairs on spirit level and tighten level screw securely.
4. Slide scale to zero mark lies directly behind fluid meniscus, as shown
below.
Align fluid meniscus and the reflected image to eliminate parallax error.
5. Add or remove fluid as necessary.
6. Run connection provided to left side of gage or plus (above atmospheric)
pressures. Connect to right side for minus (below atmospheric) pressures.
Connect to both sides for differential pressures, as with a Pitot tube.
CAUTION:
Use only Dwyer® gage fluid. Clean with mild soap and water only. Other fluids,
solvents or cleaning agents may damage the gage.
AIR VELOCITY
The total pressure of an air stream flowing in a duct is the sum of the static
or bursting pressure exerted upon the sidewalls of the duct and the impact or
velocity pressure of the moving air. Through the use of a Pitot tube connected
differentially to a manometer, the velocity pressure alone is indicated and
the corresponding air velocity determined.
For accuracy of plus or minus 2%, as in laboratory applications, extreme care is required and the following precautions should be observed:
- Duct diameter 4″ (8.64 mm) or greater.
- Make an accurate traverse per sketch at right and average the readings.
- Provide smooth, straight duct sections 10 diameters in length both upstream and downstream from the Pitot tube.
- Provide an egg crate type straightener upstream from the Pitot tube.
In making an air velocity check, select a location as suggested above, connect tubing leads from both Pitot tube connections to the manometer and insert in the duct with the tip directed into the air stream. If the manometer shows a minus indication reverse the tubes. With a direct reading manometer, air velocities will now be shown in feet per minute. In other types, the manometer will read velocity pressure in inches of water and the corresponding velocity will be found from the curves on the Dwyer website or Dwyer catalog. If circumstances do not permit an accurate traverse, center the Pitot tube in the duct, determine the center velocity and multiply by a factor of .9 for the approximate average velocity. Field tests run in this manner should be accurate within plus or minus 5%. The velocity indicated is for dry air at 70°F (21.3°C), 29.9″ Barometric Pressure and a resulting density of .075=/cu. ft. For other variations from these conditions, corrections may be based upon the following data:
Air Velocity = 1096.7 √ PV /D
where PV= velocity pressure in inches of water; D= Air density in =/cu. ft.
Air Density = 1.325 x PB /T
where PB = Barometric Pressure in inches of mercury; T = Absolute Temperature (indicated temperature plus 460)
Flow in cu. ft. per min. = Duct area in square feet x air velocity in ft. per minute.
STATIC PRESSURE
In checking inlet and discharge fan and blower pressures, balancing
ventilation and dust collection systems, checking exhaust systems and similar
installations, air velocities above 700 ft. per min. (12.81 kms/hr) can cause
an appreciable error. It is recommended that the static connection of the
Pitot tube or a static pressure tip be used. In using the static pressure tip
or Pitot tube, the tip should be directed into the air stream. For permanent
installation, static pressure tips are recommended. If not available, make
connections, enter the duct perpendicular to the air stream and finish off
flush and smooth on the inside.
FURNACE DRAFT
Connect the terminal tube to the minus pressure gage opening and insert it
into the combustion chamber for over fire draft reading. If a drilled port is
not available insert through fire door but seal the crack. For last pass or
smoke pipe draft, connect into the breeching on the furnace side of any draft
control or damper. To determine draft loss through the furnace, make
connection as indicated for smoke pipe draft and add a second tube, connecting
the manometer differentially to the combustion chamber.
AIR FILTER TEST
To determine the pressure drop across an air filter, connect the manometer
differentially with one tubing from the downstream or blower side of the
filter to the right hand or minus pressure gage connection. Run the second
tubing from the upstream side of the filter to the other gage connection. Use
static pressure tips if available, with the tips directed into the air stream,
to eliminate possibility of error due to air velocity. Read the pressure drop
across the filter in inches of water and follow the filter manufacturer’s
recommendations for filter cleaning or replacement.
DWYER INSTRUMENTS INC.
MICHIGANCITY, IN 46360 U.S.A.
©Copyright 2013 Dwyer Instruments Inc. Printed in U.S.A. 5/13 FR# 30-440079-00 Rev. 8
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