Installation (Applicable to all Models)
2.8Balancing the Air Distribution
2.8.1Under-Floor Discharge Systems
The systems are designed for constant air delivery, therefore any unusual restrictions within the air circuit must be avoided. For
•Select the air supply grilles and perforated panels for the raised floor to ensure minimum loss of pressure in the circuit. Air volume dampers on grilles, which extend several inches below the sur- face of the raised floor, are usually detrimental to airflow.
•Consideration of the height of the damper on the grille in conjunction with the floor height will determine whether this type of grille may be used.
•The grilles used in raised floors vary in size, the largest being approximately 18" x 6"
(457 x 152 mm). A larger grille size would be detrimental to the structural capacity of the raised floor panel. An 18" x 6" (457 x 152 mm) heavy duty,
•Perforated panels are available from various manufacturers of raised floors. These panels are usually 2' x 2' (610 x 610 mm) square and have a nominal free area of approximately 108 to 144 square inches (0.07 to 0.09 m2). Use caution in selecting perforated panels as some manufacturers have only 36 to 40 square inches (0.023 to 0.026 m2) of free area, requiring four times as many panels.
•Avoid floor elevations below
•Always check specifications of the floor supplier before specifying the total number of perforated panels and grilles required to handle the air flow. The proper specifications for grilles and perfo- rated panels should indicate the total free area required for air delivery rather than the number of panels and grilles. (See Table 3 for recommended free area required for each model.) This table indicates the recommended free area based on having the supply air grilles and perforated panels sized to handle approximately 75% of the total cubic feet per minute (CFM) of the units at a veloc- ity of 550 to 600 ft./min. (2.8 - 3.1 m/s). The remaining 25% of the air flow in the raised floor passes through cable cutouts, cracks between the panels, and other leakage areas.
Table 3 Recommended free area ft2 (m2) for grilles or perforated panels at output velocities of 550 and 600 fpm (2.8 and 3.1 m/s)
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| 50 Hz Units |
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| 60 Hz Units |
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| 550 |
| 2.8 |
| 600 | 3.1 |
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| 550 |
| 2.8 |
| 600 | 3.1 |
Model | FPM |
| m/s |
| FPM | m/s |
| Model | FPM |
| m/s |
| FPM | m/s |
2.5 |
| (0.01) |
| 2.3 | (0.01) |
| 2.5 |
| (0.01) |
| 2.3 | (0.01) | ||
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3.5 |
| (0.02) |
| 3.3 | (0.02) |
| 3.8 |
| (0.02) |
| 3.5 | (0.02) | ||
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2.8.2Ducted Applications
For ducted supply applications on upflow units, the duct work should be attached to the blower dis- charge flanges of the unit. For ducted return air applications, the duct work should be attached to the filter box flanges on upflow rear return units and on the unit top flange for downflow units. Refer to Figure 2 for information on upflow units and to Figure 3 for downflow units.
The duct work on upflow units must allow access to the motors/blowers for maintenance. The duct work on upflow units must be designed within the capacity of the unit, otherwise air flow and perfor- mance will be compromised.
2.8.3Plenum Installation
A solid plenum or plenum with discharge grille(s) may be installed. The plenum and instructions for its installation ship separately from the unit.
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