Selection procedure – Trane RT-PRC007-EN User Manual

RT-PRC007-EN

12

Selection
Procedure

A psychrometric chart can be used to
more accurately determine the mixture
temperature to the evaporator coil.

Step 4 — Determine total required unit
cooling capacity:

Required capacity = total peak load +
O.A. load + supply air fan motor heat.

From Figure SP-1, the supply air fan
motor heat for 7.27 bhp = 20.6 MBh.

Capacity = 321 + 18.23 + 20.6 =
359.8 MBh (30 tons)

Step 5 — Determine unit capacity:

From Table PD-4 unit capacity at 81.5 DB.
67 WB entering the evaporator, 12000
supply air cfm, 95 F entering the
condenser is 361 MBh (30.1 tons) 279
sensible MBh.

Step 6 — Determine leaving air
temperature:

Unit sensible heat capacity, corrected for
supply air fan motor heat 279 - 20.6 =
258.4 MBh.

Supply air dry bulb temperature
difference = 258.4 MBh ÷ (1.085 x 12,000
cfm) = 19.8 F.

Supply air dry bulb: 81.5 - 19.8 = 61.7.

Unit enthalpy difference = 361 ÷ (4.5 x
12,000) = 6.7

Btu/lb leaving enthalpy = h (ent WB) =
31.62

Leaving enthalpy = 31.62 Btu/lb -
6.7 Btu/lb = 24.9 Btu/lb.

From Table PD-1, the leaving air wet bulb
temperature corresponding to an
enthalpy of 24.9 Btu/lb = 57.5.

Leaving air temperatures =
61.7 DB/57.5 WB

b

2” Hi-efficiency throwaway filters.

c

Exhaust fan.

d

Economizer cycle.

Step 1 — A summation of the peak
cooling load and the outside air
ventilation load shows: 27.75 tons + 1.52
tons = 29.27 required unit capacity. From
Table 18-2, 30-ton unit capacity at 80 DB/
67 WB, 95 F entering the condenser and
12,000 total peak supply cfm, is 30.0 tons.
Thus, a nominal 30-ton unit is selected.

Step 2 — Having selected a nominal 30-
ton unit, the supply fan and exhaust fan
motor bhp must be determined.

Supply Air Fan:

Determine unit static pressure at design
supply cfm:

External static pressure

1.20 inches

Heat exchanger

.14 inches

(Table PD-14)

High efficiency filter 2”

.09 inches

(Table PD-14)

Economizer

.076 inches

(Table PD-14)

Unit total static pressure

1.50 inches

Using total cfm of 12,000 and total
static pressure of 1.50 inches, enter Table
PD-12. Table PD-12 shows 7.27 bhp with
652 rpm.

Step 3 — Determine evaporator coil
entering air conditions. Mixed air dry
bulb temperature determination.

Using the minimum percent of OA (1,200
cfm ÷ 12,000 cfm = 10 percent),
determine the mixture dry bulb to the
evaporator. RADB + %OA (OADB - RADB)
= 80 + (0.10) (95 - 80) = 80 + 1.5 = 81.5F

Approximate wet bulb mixture
temperature:

RAWB + OA (OAWB - RAWB) = 66 + (0.10)
(76-66) = 68 + 1 = 67 F.

Selection of Trane commercial air
conditioners is divided into five basic
areas:

1

Cooling capacity

2

Heating capacity

3

Air delivery

4

Unit electrical requirements

5

Unit designation

Factors Used In Unit Cooling Selection:

1

Summer design conditions — 95 DB/

76 WB, 95 F entering air to condenser.

2

Summer room design conditions —
76 DB/66 WB.

3

Total peak cooling load — 321 MBh (27.75
tons).

4

Total peak supply cfm — 12,000 cfm.

5

External static pressure — 1.0 inches.

6

Return air temperatures — 80 DB/66 WB.

7

Return air cfm — 4250 cfm.

8

Outside air ventilation cfm and load —
1200 cfm and 18.23 MBh (1.52 tons).

9

Unit accessories include:

a

Aluminized heat exchanger — high heat
module.