Trane RT-DS-10 Application Considerations

ApplicationConsiderations

Acoustical Considerations

Proper placement of rooftops is critical

to reducing transmitted sound levels to

the building. The ideal time to make

provisions to reduce sound

transmissions is during the design

phase. And the most economical

means of avoiding an acoustical

problem is to place the rooftop(s) away

from acoustically critical areas. If

possible, rooftops should not be

located directly above areas such as:

offices, conference rooms, executive

office areas and classrooms. Instead,

ideal locations might be over corridors,

utility rooms, toilets or other areas

where higher sound levels directly

below the unit(s) are acceptable.

Several basic guidelines for unit

placement should be followed to

minimize sound transmission through

the building structure:

Never cantilever the compressor end of

the unit. A structural cross member

must support this end of the unit.

Locate the units center of gravity

close to or over column or main

support beam.

If the roof structure is very light,

roof joists must be replaced by a

structural shape in the critical areas

described above.

If several units are to be placed on one

span, they should be staggered to

reduce deflection over that span.

It is impossible to totally quantify the

effect of building structure on sound

transmission, since this depends on the

response of the roof and building

members to the sound and vibration of

the unit components. However, the

guidelines listed above are experience-

proven guidelines which will help

reduce sound transmissions.

Clearance Requirements

The recommended clearances

identified with unit dimensions should

be maintained to assure adequate

serviceability, maximum capacity and

peak operating efficiency. A reduction

in unit clearance could result in

condenser coil starvation or warm

condenser air recirculation. If the

clearances shown are not possible on a

particular job, consider the following:



Do the clearances available allow for

major service work such as changing

compressors or coils?



Do the clearances available allow for

proper outside air intake, exhaust air

removal and condenser airflow?



If screening around the unit is being

used, is there a possibility of air

recirculation from the exhaust to the

outside air intake or from condenser

exhaust to condenser intake?

Actual clearances which appear

inadequate should be reviewed with a

local Trane sales engineer.

When two or more units are to be

placed side by side, the distance

between the units should be increased

to 150 percent of the recommended

single unit clearance. The units should

also be staggered as shown for two

reasons:

To reduce span deflection if more than

one unit is placed on a single span.

Reducing deflection discourages sound

transmission.

To assure proper diffusion of exhaust

air before contact with the outside air

intake of adjacent unit.

Duct Design

It is important to note that the rated

capacities of the rooftop can be met

only if the rooftop is properly installed

in the field. A well designed duct

system is essential in meeting these

capacities.

The satisfactory distribution of air

throughout the system requires that

there be an unrestricted and uniform

airflow from the rooftop discharge

duct. This discharge section should be

straight for at least several duct

diameters to allow the conversion of

fan energy from velocity pressure to

static pressure.

However, when job conditions dictate

elbows be installed near the rooftop

outlet, the loss of capacity and static

pressure may be reduced through the

use of guide vanes and proper

direction of the bend in the elbow. The

high velocity side of the rooftop outlet

should be directed at the outside radius

of the elbow rather than the inside.