McQuay AGR 070A User manual

Category
Freezers
Type
User manual
Product Manual
PM AGR-3
Air-Cooled Reciprocating Chiller
AGR 070AS - 100AS, Packaged Chiller
AGR 070AM – 100AM, Remote Evaporator
70 to 100 Tons, 245 to 350 kW
R-22, R-134a
60 Hertz
2
AGR 070A through 100A Product Manual AGR-3
Table of Contents
Introduction ............................................................................................3
Design Advantages.................................................................................4
Selection Procedure................................................................................9
Application Adjustment Factors...........................................................13
Performance Data .................................................................................16
Part Load Data......................................................................................18
Sound Data ...........................................................................................19
Pressure Drop Curves...........................................................................22
Electrical Data ......................................................................................23
Physical Data........................................................................................29
Dimensional Data.................................................................................33
Application Data...................................................................................38
Optional Features..................................................................................46
Product Specification, AGR-AS ..........................................................48
Product Specification, AGR-AM.........................................................53
Our Facility is
ISO Certified
"McQuay" is a registered trademark of McQuay International
2001 McQuay International
"Illustrations and data cover the McQuay International products at the time of publication and we reserve the right to
make changes in design and construction at anytime without notice"
NOTE
: The Model AGR 070AM through AGR
100AM chillers with remote evaporators are
not included in the ARI Certification Program.
NOTE
: R-134a ratings are not ARI certified.
Document Number: PM AGR-3
Revision: March 2001
Replaces: PM AGR-2
Product Manual AGR-3 AGR 070A through 100A
3
Introduction
McQuay offers air-cooled chillers from 10 through 425 tons (35 - 1500 kW). This
manual covers two varieties of the reciprocating compressor, air-cooled Global
Chiller Line:
AGR 070 AS - AGR 100AS, Packaged Air-Cooled Chillers, R-22 and R-134a
AGR 070AM - AGR 100AM, Air-Cooled with Remote Evaporator, R-22 only
Nomenclature
A G R - XXX A S
AGR-AS Model ARI Standard 550/590-98 Certified
Features and Benefits
Efficiency
Cross-circuit compressor staging
Copeland Discus
compressors
Exceeds ASHRAE Standard 90.1 for
efficiency
Reliability
Rugged, proven compressor design
Factory installed operating and equipment
protection controls
Code and agency approval
Flexibility
Complete factory assembly and testing
Sizes available in convenient 5 ton
increments
Multiple control options
Remote evaporator available (R-22 only)
Available with HCFC-22 or HFC 134a
Serviceability
Dual refrigerant circuits
Easy servicing -- All electrical and
refrigerant components are readily accessible
Small footprint
Air-Cooled
Global
Reciprocating Compressor
Design Vintage
N
ominal Tons
Application
S= Standard Cooling
M
=
Remote Evaporator
4
AGR 070A through 100A Product Manual AGR-3
Design Advantages
Construction
Factory assembled and mounted on heavy-gauge powder coat painted, galvanized steel channel base.
This base distributes the unit weight for roof loading. Flexible installation is possible by virtue of the
unit’s small footprint and low sound level.
Compressors
The AGR product line uses Copeland DISCUS
valve semi-hermetic compressors. These rugged
compressors are designed for R-22 and the high loading associated with air-cooled applications. They
operate under lighter loading with R-134a.
Semi-hermetic, 1750 rpm induction type motors are used. The motors are refrigerant-gas cooled.
Solid-state modules in the motor terminal box respond to temperature sensors imbedded in all three
motor windings, providing inherent thermal overload protection for all run and start conditions.
The compressor housing is constructed from closed grained, high nickel content, alloy cast-iron with no
bolted joint between the motor and compressor. The housing includes a cast-iron cylinder head and
stator cover, and a crankcase oil sightglass. A suction strainer built into the compressor in the gas
stream between the suction service valve and the motor, filters out foreign and abrasive particles. An
internal relief valve relieves discharge pressure to the suction side for protection at high compression
ratios as required by ANSI/ASHRAE 15 Safety Code.
Main bearings are solid cast bronze insert type with oversized bearing areas that result in ultra-low
bearing loading.
The crankshaft is die-forged, high strength iron alloy with integral counterweights, statically and
dynamically balanced for smooth operation.
Connecting rods are lightweight aluminum with integral bearing surfaces on the crankshaft and piston
ends. Pistons are close grain cast iron with oil and compression rings. Piston pins are full floating type
for long life.
Compressors have a force-feed lubrication system with positive oil displacement, a reversible oil pump,
and an operating oil charge. The pump feeds oil through rifle drilled passages in the crankshaft to all
bearing surfaces. Magnetic plugs trap metal particles that enter the crankcase. The oil supply is filtered
through a large area oil strainer. A crankcase heater minimizes oil dilution by refrigerant at compressor
startup.
Condenser Coils
Condenser coils have internally enhanced seamless copper tubes arranged in a staggered row pattern.
The coils are mechanically expanded into McQuay lanced and rippled aluminum fins with full fin
collars. An integral subcooler circuit provides subcooling to greatly reduce the possibility of liquid line
flashing. The exterior condenser coils are fitted with a vinyl-coated wire mesh protective guard.
Condenser Fans and Motors
Multiple direct drive dynamically balanced propeller fans operate in formed venturi openings at low tip
speeds for maximum efficiency and minimum noise and vibration. A heavy-gauge vinyl-coated fan
guard protects each fan.
Each condenser fan motor is heavy-duty, 3-phase with permanently lubricated ball bearings and
inherent overload protection. SpeedTrol option includes a single-phase motor with fan speed control on
the lead fan per circuit. Fan motors on the AGR 070-100A are totally-enclosed-air-over (TEAO)
construction providing optimum environmental protection.
Copeland's Compliant Scroll® is a registered trademark of the Copeland Corporation, Sydney, Ohio.
Product Manual AGR-3 AGR 070A through 100A
5
Evaporator
The evaporator is direct expansion, shell-and-tube type with water flowing in the baffled shell side and refrigerant
flowing through the tubes. Two independent refrigerant circuits within the evaporator serve the units dual
refrigerant circuits.
The evaporator has a carbon steel shell and seamless high efficiency copper tubes roller expanded into a carbon
steel tube sheet. Water baffles are polypropylene to resist corrosion.
Refrigerant heads are carbon steel with multi-pass baffles to ensure oil return and are removable to permit access to
the tubes from either end. For water removal, 3/8" (10mm) vent and drain plugs are provided on the top and bottom
of the shell.
The evaporator is wrapped with an electric resistance heater cable and insulated with 3/4" (19mm) thick vinyl nitrate
polymer sheet insulation, protecting against water freeze-up at ambient air temperatures to -20°F (-29°C). An
ambient air thermostat controls the heater cable.
The fitted and glued in place insulation has a K factor of 0.28 at 75°F (23°C).
The refrigerant (tube) side maximum working pressure is 225 psig (1552 kPa). The water side working pressure is
225 psig (1552 kPa). Each evaporator is designed, constructed, inspected, and stamped according to the
requirements of the ASME Boiler and Pressure Vessel Code. Double thickness insulation is an available option.
On Model AGR
AM units the evaporator is shipped separate for field mounting and piping to the outdoor unit.
The refrigerant specialties shown in Figure 1 (dotted lines) must be purchased from McQuay with the unit and
installed by the installing contractor.
NOTE:
The remote evaporator option is available on R-22 application only and is outside ARI certification.
Figure 1, AGR ---AM, Remote Evaporator Piping (One of two circuits shown)
NOTE:
A water flow switch or both water flow switch and water pump starter interlock, must be field installed to
protect against evaporator freeze-up under low water flow conditions.
6
AGR 070A through 100A Product Manual AGR-3
Electrical Control Center
Operating and equipment protection controls and motor starting components are separately housed in a
centrally located, weatherproof control panel with hinged and key locked doors. In addition to one of
the three types of control described in the next sections, the following components are housed in the
panel:
Power terminal block
Control, input, and output terminal block
120V control circuit transformer
Optional disconnect switch with through-the-door operating handle
Compressor contactors (circuit breakers are available as an option) (part winding on 208/230V,
across-the-line on 380/460/575V) compressor motor inherent thermal and overload protection is
standard.
Optional phase voltage monitor with under/over/phase reversal protection
Fan contactors with separate fuse blocks
The standard FanTrol system controls fan staging for control of refrigerant discharge pressure.
The FanTrol system cycles condenser fans based on discharge pressure and outdoor temperature
and is suited for operation to 40°F (4.4°C).
The optional SpeedTrol control uses both fan cycling and fan speed control on the lead fan per
circuit and allows operation to 0°F (-18°C) outdoor temperature.
Mechanical high pressure cutout
Global UNT Controller (Standard on R-22)
Microprocessor based control that accomplishes unit capacity control by 6-stage cross-circuit
compressor cycling and unloading based on leaving chilled water temperature. Setpoint and control
band are easily field adjusted. Anti-cycling and stage delay timers are included. Equipment protection
controls include low refrigerant pressure, low evaporator flow (field installed flow switch), low oil
pressure, and sensor failures. Outside air temperature sensor is standard. Reset options are; outside air,
return water, remote reset, demand limit, zone temperature reset. The optional Zone Terminal control is
required to adjust the reset setpoints. The UNT control is used only with R-22.
Thirty feet of sensor cable is included, rolled up in the control panel, on remote evaporator models.
Figure 2, Standard Global UNT Controller
Product Manual AGR-3 AGR 070A through 100A
7
Global UNT with Zone Terminal (optional)
Can be mounted in the chiller control panel or remotely located providing monitoring and adjusting of
certain functions.
Monitoring
Monitor up to three setting or sensed values
Monitor 18 different on/off inputs
Monitor alarm status via a flashing alarm light and flashing symbol
Adjusting allows adjustment of any flashing set points, three at a time, typically set up so that the
relationship between values can be viewed simultaneously. For example,
Display 1 = Lvg Water temp
Display 2 = Lvg Water SP
Display 3 = % Unit Load
Figure 3, Zone Terminal Configuration
MONITOR
ADJUST
TIME SCHEDULE
PASSWORD
ENTER
Compressor 1
Compressor 2
Stage 3
Stage 4
Solenoid #1
Frzstat#1Alm
Frzstat#2Alm
MinLowPres#1
MinLowPres#2
Occupied
Flow Failure
OA Lockout
Cir#2Lead=On
Pmp/Stp #1=0
Lvg Water Temp
Evap Pres #1
Evap Pres #2
OA/AI3 Input
LvgWtr RBnd SP
Contrl Band SP
Actual Lvg SP
Unoccpd Lvg SP
OA Lockout SP
Lvg Low Lim SP
SoftSta Capcty
Cir #1 Starts
Cir #2 Starts
McQuay AGZ/AGR Global Chiller
INSERT 10
ON OFF
Display
Button 1
Mode
Selector
Panel
Mode
Selector
Button
2
AGZ-AGR
Display Indicator Dot
On/Off Status
3
Operating Mode Indicator
Up/Down Arrow Keys
Door
Display Item List
Warning Signal
ALARM
OA/AI3 HiLimSP
OA/AI3 ResetSP
Display Area 11
Display Area 21
Display Area 31
Alarm Light
Lvg Water SP
% Unit Load
SoftStart Time
Pmp/Stp #2=0
Solenoid #2
Stage 5 Opt.
Stage 6 Opt.
8
AGR 070A through 100A Product Manual AGR-3
MicroTech Control (optional on R-22, standard on R-134a)
Exclusive microprocessor control is common throughout McQuay equipment. The interface is a 12 key
keypad and 2-line, 40 character backlit liquid crystal display. The MicroTech continuously performs
self-diagnostic checks on all system temperatures, pressures, and equipment protection controls, and
will automatically shut down a circuit or the entire unit at fault conditions. The cause, time, and date of
the occurrence is recorded and can be displayed. The seven previous incidents are kept in memory for
service reference.
If a fault occurs, the controller takes preventive measures in an effort to keep the unit operating; staging
down capacity, activating a pre-alarm signal, and automatically switching to the alarm menu on the
display. Pre-alarms are self-clearing when the fault condition is no longer present.
Critical shutdown alarms such as high condenser pressure (with mechanical back up), freeze protection,
oil pressure (with mechanical back up), and low evaporator pressure are manual reset and must be
cleared at the keypad to resume operation.
Choose the MicroTech control and Open Protocol options to interface with virtually any building
management system and perform remote monitoring and control by hard wiring or modem. A nominal
site license fee is required for BAS interface.
A single chiller can connect directly to the BAS. Two or more units will require an Open Protocol
Panel (OPM) for connection.
One hundred feet of sensor cable is included, rolled up in the control panel, on remote evaporator
models.
NOTE:
The MicroTech control is required on R-134a applications.
Figure 4, Optional MicroTech Control Panel
Product Manual AGR-3 AGR 070A through 100A
9
Selection Procedure
Packaged Chiller, Model AS, R-22
Selection with Inch-Pound (I-P) units
Table 9 covers the range of leaving evaporator water temperatures and outside ambient temperatures
included under ARI 550/590. The tables are based on a 10°F temperature drop through the evaporator.
Adjustment factors for applications having other than a 10°F drop can be found in Table 3. The
minimum leaving chilled water temperature setpoint without glycol is 42°F. For glycol selections, see
Table 1 for ethylene or Table 2 for propylene glycol adjustment factors. Ratings are based on a 0.0001
fouling factor in the evaporator at sea level operation. For other fouling factors, different delta-Ts, or
altitude correction factors, see Table 3. For applications outside the catalog ratings contact your local
McQuay sales representative.
Selection example
Given: 67 tons minimum 95
°
F ambient temperature
160 gpm, 55
°
F to 44°F chilled water 0.0001 fouling factor
1.
From Performance Table 9, an AGR 070AS at the given conditions will produce 67.5 tons with a
compressor kW input of 77.1 and a unit EER of 9.6.
2.
If any elements are unknown, use the following equation (water only) to calculate them:
24
=GPM
Tdelta
tons
×
3 Determine the evaporator pressure drop. Using Figure 9, enter at 160 and follow up to the AGR
070AS line intersect. Read horizontally to obtain an evaporator pressure drop of 16.0 feet of water.
Selection example using ethylene glycol
Given:
64 tons minimum
95
°
F ambient temperature
54
°
F to 44
°
F chilled fluid
0.0001 fouling factor
Protect from freezing down to 0°F
1.
From Table 1, select an ethylene glycol concentration of 40% to protect against freezing at 0°F.
2.
At 40% ethylene glycol, the adjustment factors are: Capacity =0.961, kW = 0.976,
flow = 1.121, pressure drop = 1.263
3.
Select the AGR 070AS and correct with 40% ethylene glycol factors.
4.
Correct capacity = 0.961 x 67.5 tons = 64.9 tons
5.
Correct compressor kW = 0.976 x 77.1 = 75.2 kW
6.
Calculate chilled water flow:
155.8 =
10
249.64
= capacity) corrected(at flowWater
F
tons
°
×
GPM
Glycol flow (at 40% solution) = 1.121 X 155.8 = 174.7 GPM
Determine the evaporator pressure drop. Using Figure 9, enter at 155.7 (flow rate for water) and follow
up to the AGR 070AS line intersect. Read horizontally to obtain an evaporator pressure drop of 15.5
feet. The pressure drop for 40% glycol solution = 1.263 X 15.5 feet = 19.6 feet of water.
10
AGR 070A through 100A Product Manual AGR-3
Selection Procedure 60 Hertz, SI Units
Table 10, covers a range of leaving evaporator water temperatures and outside ambient temperatures.
The tables are based on a 5°C temperature drop through the evaporator. The minimum leaving chilled
water temperature setpoint without glycol is 5.6°C. For brine selections, see Table 1 for ethylene or
Table 2 for propylene glycol adjustment factors. Ratings are based on a 0.0176 fouling factor in the
evaporator at sea level operation. For other fouling factors, different Delta-Ts, or altitude correction
factors, see Table 3. For applications outside the catalog ratings contact your local McQuay sales
representative.
Selection Example
Given:
235 kW cooling capacity required
35°C ambient air temperature
11 L/s, 12°C - 7°C chilled water temperature
0.0176 evaporator fouling factor
1.
From Table 10, an AGR 070AS at the given conditions will produce 240.0 kW with a compressor
kW input of 77.5 and a COP of 2.84.
2.
Determine the evaporator pressure drop. Using Figure 9, enter at 11 L/s and follow to the AGR
070AS line intersect. Read horizontally to obtain an evaporator pressure drop of 55 kPa of water.
Selection example using ethylene glycol
Given:
225 kW cooling capacity required
35°C ambient air temperature
11 L/s, 12°C - 7°C chilled water temperature
0.0176 evaporator fouling factor
Protect against freezing down to -18°C
1.
From Table 1, select an ethylene glycol concentration of 40% to protect against freezing
at -18°C
2.
At 40% ethylene glycol, the adjustment factors are: Capacity = 0.961, kW = 0.976,
GPM = 1.121, pressure drop = 1.263
3.
Select the AGR 070AS and correct with 40% ethylene glycol factors.
4.
Correct capacity = 0.961 x 240.0 kW = 230.6 kW
5.
Correct compressor kW = 0.976 x 77.5 kW = 75.6 kW
6.
Calculate flow:
Glycol flow (at 40% solution) = 1.121 X 11.0 L/s = 12.3 L/s
7.
Determine the evaporator pressure drop. Using Figure 9, enter at 11.0 L/s (flow rate for water) and
follow to the AGR 070AS line intersect. Read horizontally to obtain an evaporator pressure drop
of 55 kPa of water.
The pressure drop for 40% solution = 1.263 X 55 kPa = 69.5 kPa
Product Manual AGR-3 AGR 070A through 100A
11
Packaged Chiller, Model AS, R-134a
NOTE: R-134a performance is not ARI Certified
AGR performance with R-134a refrigerant is calculated from the R-22 ratings as follows:
1)
Calculate the unit R-134a capacity;
multiply the R-22 capacity by 0.68.
2)
Calculate the unit R-134a power input;
a)
Calculate the unit R-22 power (kW shown in tables is compressor only);
EERUnit
xTonsR
kWUnitR
12022
22
=
b)
Calculate the unit fan and control power (unaffected by refrigerant);
TablefromkWCompressorRkWUnitRkWControlFan
2222/
=
c)
Calculate the R-134a compressor power;
multiply the R-22 compressor kW by 0.615
d)
Calculate the unit R-134a kW;
fan & control power from b)+R-134a compressor power c)
3)
Calculate R-134a EER:
kWUnitaR
MBHcapacityaR
EERaR
134
134
134
=
Remote Evaporator, Model AM
Selection with Inch-Pound (I-P) units
Since the AGR-AM units always include a specific remote shell-and-tube evaporator,
the ratings are based on leaving chilled water temperature and ambient air temperature
from the Rating Tables corrected for line loss as follows.
Table 9 (Inch-Pound units) and Table 10 (SI units) cover the normal range of leaving evaporator water
temperatures and outside ambient air temperatures. The tables are based on a 10°F (5
°
C) temperature
drop through the evaporator. Adjustment factors for applications having other than a 10°F (5
°
C) drop
can be found in Table 3. The minimum leaving chilled water temperature setpoint without glycol is
42°F (5.6
°
C). For brine selections, see Table 1 for ethylene Table 2 for propylene glycol adjustment
factors. Ratings are based on a 0.0001 (0.0176) fouling factor in the evaporator at sea level operation.
For other fouling factors, derates for different delta-Ts, or altitude correction factors, see Table 3. For
applications outside the catalog ratings contact your local McQuay sales representative.
The length and configuration of the interconnecting refrigerant piping will affect the system capacity.
Derates based on equivalent length of pipe are given in Table 8. Refer to Application Data, Refrigerant
Piping section for guidelines.
The steps for selecting an AGR-AM are as follows:
1.
Add 3% to the required cooling capacity (to approximate correction factors) and make a
preliminary unit selection from performance Table 9 or Table 10.
2.
Divide the required capacity by the appropriate capacity correction factors: glycols from Table 1 or
Table 2; altitude, chilled water Delta T, or fouling factor Table 3; and refrigerant piping derate from
Table 8 as explained in step 3 below.
3.
Determine the suction line size by summing the equivalent feet (from Table 4) of all the fittings
(use a sketch of the piping layout) and
adding the sum of these fitting losses
to the actual linear feet
of tubing. This will then equal the
total equivalent feet
. (To use the equivalent feet, start with the
unit suction connection size from Table 6 as the first try). Knowing the equivalent feet and the unit
size, check the line selection in Table 6 or Table 7 and correct if required.
4.
If the unit rated capacity in the tables is less than the corrected required capacity, redo the selection
with the next larger unit. In most cases the line size will be the unit connection size. If the
selection is satisfactory, correct the power (if applicable) and determine water pressure drop.
12
AGR 070A through 100A Product Manual AGR-3
Selection example
Given:
64 tons required capacity
95°F ambient temperature
Cool 154 gpm from 54
°
F to 44°F
0.0001 evaporator fouling factor
2,000 foot altitude
Add 3% to the required capacity for approximate derate: 64 x 1.03 = 66 tons. From Performance Table
9, an AGR-070AM at the given conditions will produce 67.5 tons with a compressor kW input of 77.1
and a unit EER of 9.6.
1.
Determine derate factors :
Altitude correction from Table 3: 0.986 Capacity, 1.009 Power
2.
Piping correction:
Assume 2 1/8" suction line based on connection size in Table 6
(3) 90
°
Standard ells (Table 4) 3 x 5 ft =15 ft
Plus actual linear feet 70 ft
Total Equivalent Feet 85 ft
Check Table 7 for size and find that 2 1/8” is acceptable size for oil carry. If the selected riser size
is too large, double risers would be required. See Refrigerant Piping section for important
information, including double riser layouts.
The capacity correction factor from Table 8 is 0.984.
3.
The corrected capacity of the AGR is: 67.5 tons x 0.986{altitude} x 0.984{piping} = 65.5 tons
This satisfies the 64 ton requirement.
4.
Correct the compressor power required: 77.1 kW x 1.009{altitude} = 77.8 kW.
5.
Calculate the unit power input from corrected EER:
W = BTU / EER W =65.5 tons x 12,000 / (9.6 EER / 1.009) = 81.1 kW
6.
Determine the evaporator pressure drop. Enter the pressure drop curves (Figure 9) at 154 gpm and
read up to AGR 070AM, read over to pressure drop of 15 ft.
Selection example using ethylene glycol
Given: 64 tons required capacity
95
°
F ambient temperature
54
°
F to 44
°
F chilled fluid
0.0001 fouling factor
Protect from freezing down to 0°F
1.
From Table 1, select an ethylene glycol concentration of 40% to protect against freezing at 0°F.
2.
At 40% ethylene glycol, the adjustment factors are: Capacity =0.961, kW = 0.976,
Flow = 1.121, pressure drop = 1.263
3.
Select the AGR 070AM and correct with 40% ethylene glycol factors and piping correction factor.
4.
Correct capacity = 0.961 X 67.5 tons = 64.6 tons
5.
Correct compressor kW = 0.976 X 77.1 = 75.2 kW
Figure 5, Sample Piping Layout
A
GR-AM
Remote Eva
p
orator
10 ft.
30 ft.
20 ft.
10 ft.
Li
q
uid
Line
Suction
Line
Product Manual AGR-3 AGR 070A through 100A
13
6.
Calculate chilled water flow:
Water flow (at corrected capacity) = = 155.3 GPM
64.7 24
10
tons
F
×
°
Glycol flow (at 40% solution) = 1.121 X 155.3 GPM = 174.1 GPM
Determine the evaporator pressure drop. Using Figure 9, enter at 155.3 GPM and follow up to the
AGR 070AM line intersect. Read horizontally to obtain an evaporator pressure drop of 15 feet. The
pressure drop for 40% solution = 1.263 X 15 feet = 19 feet.
Selection Procedure 60 Hz Metric Units
The selection procedure for Metric units is exactly the same as English except that Metric tables and
metric units are used.
Application Adjustment Factors
Ethylene and Propylene Glycol Factors
AGR units can operate with a leaving chilled fluid temperature range of 20°F (-6.7°C) to 60°F
(15.6°C). A glycol solution is required when leaving chilled fluid temperature is below 42°F (5.6°C).
The use of glycol will reduce the performance of the unit depending on concentration.
Altitude Correction Factors
Performance tables are based at sea level. Elevations other than sea level affect the performance of the
unit. The decreased air density will reduce condenser capacity and reduce the unit's performance. For
performance at elevations other than sea level refer to Table 3. Maximum allowable altitude is 6,000
feet (1830 meters).
Evaporator Temperature Drop Factors
Performance tables are based on a 10°F (5.5°C) temperature drop through the evaporator. Adjustment
factors for applications with temperature ranges from 6°F to 16°F (3.3°C to 8.9°C) are in Table 3.
Temperature drops outside this 6 to 16 degrees F (3.3 to 8.9 degrees C) range may affect the control
system's capability to maintain acceptable control and are not recommended.
The maximum water temperature that can be circulated through the evaporator in a non-operating mode
is 100°F (37.8°C). Maximum entering temperature during operation is 90
°
F (32.2
°
C).
Table 1, Ethylene Glycol
Freeze Point
%
E.G.
°F °C
Capacity Power Flow PD
10 23.0 -5 0.991 0.996 1.013 1.070
20 14.0 -10 0.982 0.992 1.040 1.129
30 1.4 -17 0.972 0.986 1.074 1.181
40 -13.0 -25 0.961 0.976 1.121 1.263
50 -34.6 -37 0.946 0.966 1.178 1.308
Table 2, Propylene glycol
Freeze Point
%
P.G.
°F °C
Capacity Power Flow PD
10 26 -3 0.987 0.992 1.010 1.068
20 19 -7 0.975 0.985 1.028 1.147
30 9 -13 0.962 0.978 1.050 1.248
40 -5 -21 0.946 0.971 1.078 1.366
50 -27 -33 0.929 0.965 1.116 1.481
NOTE: Ethylene and propylene glycol ratings are outside the scope of
Standard 550/590-98 certification program
14
AGR 070A through 100A Product Manual AGR-3
Fouling factor
Performance tables are based on water with a fouling factor of
kWCmorBTUFxhrxft
/0176.0,,/0001.0
22
°×°
per ARI 550/590-98. As fouling increases,
performance decreases. For performance at other than 0.0001 (0.0176) fouling factor see Table 3.
Foreign matter in the chilled water system will adversely affect the heat transfer capability of the
evaporator, and could increase the pressure drop and reduce the water flow. To ensure optimum unit
operation, maintain proper water treatment.
Table 3, Capacity and Power Derates
Fouling Factor
Chilled Water
Delta-T
0.0001 (0.0176) 0.00025 (0.044) 0.00075 (0.132) 0.00175 (0.308)
ALTITUDE
°F °C Cap. Power Cap. Power Cap. Power Cap. Power
6 3.3 0.992 0.995 0.985 0.993 0.962 0.986 0.919 0.972
8 4.4 0.995 0.997 0.988 0.995 0.965 0.988 0.922 0.974
SEA 10 5.6 1.000 1.000 0.993 0.998 0.970 0.991 0.927 0.977
LEVEL 12 6.7 1.005 1.002 0.998 1.000 0.975 0.993 0.932 0.979
14 6.8 1.010 1.005 1.003 1.003 0.980 0.996 0.936 0.982
16 8.9 1.014 1.007 1.007 1.005 0.984 0.998 0.940 0.984
6 3.3 0.978 1.005 0.971 1.003 0.949 0.996 0.906 0.982
8 4.4 0.982 1.007 0.975 1.005 0.953 0.998 0.910 0.984
2000 feet 10 5.6 0.986 1.009 0.979 1.007 0.956 1.000 0.914 0.986
(610 m) 12 6.7 0.992 1.011 0.985 1.009 0.962 1.002 0.919 0.988
14 6.8 0.997 1.014 0.990 1.012 0.967 1.005 0.924 0.991
16 8.9 1.000 1.016 0.993 1.014 0.970 1.007 0.927 0.993
6 3.3 0.966 1.016 0.959 1.014 0.937 1.007 0.895 0.993
8 4.4 0.969 1.018 0.962 1.016 0.940 1.009 0.898 0.995
4000 feet 10 5.6 0.973 1.021 0.966 1.019 0.944 1.012 0.902 0.998
(1220 m) 12 6.7 0.978 1.025 0.971 1.023 0.949 1.016 0.906 1.002
14 6.8 0.982 1.027 0.975 1.025 0.953 1.018 0.910 1.004
16 8.9 0.986 1.028 0.979 1.026 0.956 1.019 0.914 1.005
6 3.3 0.953 1.025 0.946 1.023 0.924 1.016 0.883 1.002
8 4.4 0.955 1.028 0.948 1.026 0.926 1.019 0.885 1.005
6000 feet 10 5.6 0.959 1.031 0.952 1.029 0.930 1.022 0.889 1.008
(1830 m) 12 6.7 0.963 1.034 0.956 1.032 0.934 1.024 0.893 1.011
14 6.8 0.968 1.036 0.961 1.034 0.939 1.026 0.897 1.013
16 8.9 0.972 1.037 0.965 1.035 0.943 1.027 0.901 1.014
Table 4, Equivalent Feet for Fittings
Line Size inch, OD Copper
Fitting Type
7/8 1 1/8 1 3/8 1 5/8 2 1/8 2 5/8 3 1/8
Elbows
90
°
Standard
2.0 2.6 3.3 4.0 5.0 6.0 7.5
90
°
Long Radius
1.4 1.7 2.3 2.6 3.3 4.1 5.0
90
°
Street
3.2 4.1 5.6 6.3 8.2 10 12
45
°
Standard
0.9 1.3 1.7 2.1 2.6 3.2 4.0
45
°
Street
1.5 2.1 3.0 3.4 4.5 5.2 6.4
180
°
Bend
3.2 4.1 5.6 6.3 8.2 10 12
Tees
Full Size 1.4 1.7 2.3 2.6 3.3 4.1 5.0
Reducing 2.0 2.6 3.3 4.0 5.0 6.0 7.5
Valves
Globe Valve, Open 22 29 38 43 55 69 84
Gate Valve, Open 0.9 1.0 1.5 1.8 2.3 2.8 3.2
Angle Valve, Open 9.0 12 15 18 24 29 35
Product Manual AGR-3 AGR 070A through 100A
15
Table 5, Recommended Liquid Line Sizes Per Refrigerant Circuit
Recommended Liquid Line Size Per Circuit
AGR-AM
Unit Model
Liquid
Connection
Size at Unit
Up To 50
Equiv. Feet
Up To 75
Equiv. Feet
Up To 100
Equiv. Feet
Up To 125
Equiv. Feet
Up To 150
Equiv. Feet
070AM
1 1/8" 1 1/8 " 1 1/8 " 1 1/8 " 1 1/8 " 1 1/8 "
075AM
1 1/8" 1 1/8 " 1 1/8 " 1 1/8 " 1 1/8 " 1 1/8 "
080AM
1 1/8" 1 1/8 " 1 1/8 " 1 1/8 " 1 1/8 "
1 3/8"
085AM
1 1/8" 1 1/8 " 1 1/8 " 1 1/8 " 1 1/8 "
1 3/8"
090AM
1 1/8" 1 1/8 " 1 1/8 " 1 1/8 " 1 1/8 "
1 3/8"
095AM
1 1/8" 1 1/8 " 1 1/8 " 1 1/8 " 1 1/8 "
1 3/8"
100AM
1 1/8" 1 1/8 " 1 1/8 " 1 1/8 " 1 1/8 "
1 3/8"
Table 6. Recommended Horizontal and Downflow Suction Line Size
Recommended Suction Line Size
AGR-AM
Unit Model
Suction
Connection
Size at Unit
Up To 50
Equiv. Feet
Up To 75
Equiv. Feet
Up To 100
Equiv. Feet
Up To 125
Equiv. Feet
Up To 150
Equiv. Feet
070AM 2 1/8" 2 1/8"
2 5/8" 2 5/8" 2 5/8" 2 5/8"
075AM 2 1/8" 2 1/8"
2 5/8" 2 5/8" 2 5/8" 2 5/8"
080AM 2 1/8", 2 5/8" 2 1/8", 2 5/8"
2 5/8" 2 5/8" 2 5/8" 2 5/8"
085AM 2 5/8"
2 5/8" 2 5/8" 2 5/8" 2 5/8"
3 1/8"
090AM 2 5/8"
2 5/8" 2 5/8" 2 5/8"
3 1/8" 3 1/8"
095AM 2 5/8"
2 5/8" 2 5/8" 2 5/8"
3 1/8" 3 1/8"
100AM 2 5/8"
2 5/8" 2 5/8"
3 1/8" 3 1/8" 3 1/8"
Table 7, Minimum Suction Riser Size
Minimum Suction Riser for Oil Carry by Unit System
AGR
Model
070AM 075AM 080AM 085AM
System1 212121 2
Line Size 2 1/8 2 1/8 2 1/8 2 1/8 2 1/8 2 5/8 2 5/8 2 5/8
AGR
Model
090AM 095AM 100AM
System 1 2 1 2 1 2
Line Size 2 5/8 2 5/8 2 5/8 2 5/8 2 5/8 2 5/8
Table 8, Refrigerant Piping Derates
Capacity Loss Due to Refrigerant Piping
AGR-AM
Unit Model
At Unit 50 Equiv. ft. 75 Equiv. ft. 100 Equiv. ft. 125 Equiv. ft. 150 Equiv. ft.
070AM 1.0 0.969
0.984 0.978 0.973 0.967
075AM 1.0 0.969
0.984 0.978 0.973 0.967
080AM 1.0 0.961
0.978 0.971 0.963 0.957
085AM 1.0
0.982 0.974 0.966 0.957
0.978
090AM 1.0
0.979 0.968 0.957
0.978 0.974
095AM 1.0
0.979 0.968 0.957
0.978 0.974
100AM 1.0
0.976 0.964
0.980 0.975 0.971
16
AGR 070A through 100A Product Manual AGR-3
Performance Data
Table 9, AGR 070 – AGR 100, 60 Hz, R-22, I-P Units
See Selection Procedure section for derates for the "AM" remote evaporator units
AMBIENT AIR TEMPERATURE
75°F 85°F 95°F 105°F 115°F
AGR
SIZE
LWT
(°F)
Capac.
Tons
PWR
kWi
EER
Capac.
Tons
PWR
kWi
EER
Capac.
Tons
PWR
kWi
EER
Capac.
Tons
PWR
kWi
EER
Capac.
Tons
PWR
kWi
EER
4
0
.
0
71.1
6
4.
8
12.1
6
7.1
69
.4 1
0
.7
63
.1 74.1
9
.
3
59
.
3
80
.2
.
55
.
5
86
.1 7.2
42.0 73.5 65.5 12.4 69.4 70.5 10.9 65.3 75.4 9.5 61.4 81.5 8.5 57.5 87.5 7.4
070AS
44.
0
7
5
.
9
66
.2 12.
6
71.7 71.
5
11.1
6
7.
5
77.1
9
.
6
63
.
5
83
.
0
.
59
.
5
88
.
9
7.
5
070AM
4
6
.
0
7
8
.
6
6
7.
5
12.
8
6
7.
8
72.4 11.4 7
0
.
0
7
8
.4
9
.
9
65
.
8
8
4.
3
.
6
1.
6
90
.4 7.
6
48.0 81.3 68.6 13.1 76.9 73.5 11.6 72.5 79.7 10.1 68.1 85.7 9.0 63.7 92.1 7.8
50.0 84.0 69.6 13.3 79.4 75.0 11.8 74.9 80.7 10.2 70.4 87.2 9.1 65.8 93.7 7.9
4
0
.
0
7
3
.
0
65
.4 11.
9
69
.
3
71.
9
1
0
.
6
65
.
5
74.
9
9
.
3
6
1.
6
80
.
3
.
5
7.7
85
.
6
7.2
42.0 75.5 66.8 12.1 71.7 73.1 10.8 67.8 76.0 9.5 63.7 81.7 8.4 59.5 87.3 7.4
075AS
44.
0
7
8
.
0
6
7.
6
12.4 74.1 74.2 11.
0
7
0
.1 77.
3
9
.
6
65
.
9
83
.1
.
6
1.
8
88
.
9
7.
5
075AM
4
6
.
0
80
.7
68
.7 12.7 7
6
.
6
7
6
.1 11.2 72.
5
7
9
.4
9
.
8
68
.
3
8
4.
5
.
6
4.
0
90
.
6
7.7
48.0 83.3 69.6 13.0 79.1 78.0 11.4 74.9 81.8 10.0 70.6 85.9 8.9 66.3 92.2 8.2
50.0 85.9 70.7 13.2 81.6 79.1 11.7 77.3 84.0 10.2 72.9 87.4 9.1 68.6 93.9 8.0
4
0
.
0
8
1.2 72.
8
11.
9
77.
0
80
.1 1
0
.
6
72.
8
83
.
3
9
.
3
68
.
5
89
.4
.
6
4.1
95
.
3
7.2
42.0 83.9 74.5 12.2 79.7 81.4 10.8 75.4 84.7 9.5 70.7 91.0 8.4 66.1 97.2 7.3
080AS
44.
0
86
.7 7
5
.
3
12.4
8
2.
3
8
2.7 11.
0
77.
9
86
.1
9
.
6
7
3
.
3
9
2.
6
.
68
.
6
99
.
0
7.
5
080AM
4
6
.
0
89
.7 7
6
.
5
12.7
85
.1
8
4.
8
11.2
80
.
5
88
.
3
9
.
8
7
5
.
9
9
4.1
.7 71.2 1
00
.
8
7.7
48.0 92.5 77.4 12.9 87.9 86.9 11.5 83.2 91.1 10.0 78.5 95.7 8.9 73.7 102.7 8.2
50.0 95.5 78.7 13.2 90.7 88.0 11.7 85.8 93.5 10.2 81.1 97.3 9.1 76.3 104.5 8.0
4
0
.
0
88
.
3
7
9
.
3
12.
0
83
.7
8
7.
3
1
0
.7 7
9
.2
90
.
9
9
.4 74.
5
9
7.
5
.
69
.7 1
03
.
9
7.
3
42.0 91.3 81.2 12.3 86.6 88.7 10.9 81.9 92.4 9.5 76.9 99.3 8.5 71.9 106.0 7.4
085AS
44.
0
9
4.
3
8
2.2 12.
5
89
.
5
90
.1 11.1
8
4.7
93
.
9
9
.7 7
9
.7 1
00
.
9
.
74.
6
1
08
.
0
7.
6
085AM
4
6
.
0
9
7.
5
83
.4 12.
8
9
2.
5
9
2.
5
11.4
8
7.
6
96
.
3
9
.
9
8
2.
5
1
0
2.
6
.
77.4 11
0
.
0
7.7
48.0 100.6 84.5 13.1 95.5 94.7 11.6 90.5 99.3 10.1 85.3 104.3 9.0 80.2 112.0 8.3
50.0 103.8 85.8 13.3 98.6 96.0 11.8 93.3 102.0 10.3 88.1 106.1 9.2 82.9 114.0 8.1
4
0
.
0
90
.
3
80
.2 12.2
85
.7
88
.
3
1
0
.
8
8
1.1
9
1.
9
9
.
5
7
6
.2
98
.
5
.4 71.4 1
05
.1 7.4
42.0 93.4 82.1 12.4 88.7 89.7 11.0 83.9 93.4 9.6 78.7 100.3 8.6 73.6 107.1 7.5
090AS
44.
0
96
.
5
83
.
0
12.7
9
1.
6
9
1.1 11.2
86
.7
9
4.
9
9
.
8
8
1.
5
1
0
2.
0
.7 7
6
.4 1
09
.1 7.7
090AM
4
6
.
0
99
.
8
8
4.
3
12.
9
9
4.7
93
.
5
11.
5
89
.
6
9
7.4 1
0
.
0
8
4.4 1
03
.7
.
7
9
.2 111.1 7.
8
48.0 103.0 85.4 13.2 97.8 95.8 11.7 92.6 100.4 10.2 87.3 105.4 9.1 82.0 113.2 8.4
50.0 106.3 86.7 13.5 100.9 97.0 11.9 95.5 103.1 10.4 90.2 107.2 9.3 84.9 115.2 8.2
4
0
.
0
9
7.
9
89
.
6
11.
9
9
2.
9
98
.
6
1
0
.
6
8
7.
9
1
0
2.
6
9
.
3
8
2.
6
11
0
.1
.
77.4 117.4 7.2
42.0 101.3 91.7 12.1 96.1 100.3 10.8 90.9 104.4 9.5 85.4 112.2 8.4 79.8 119.7 7.4
095AS
44.
0
1
0
4.
6
9
2.
8
12.4
99
.
3
1
0
1.
8
11.
0
9
4.
0
1
06
.1
9
.
6
88
.4 114.
0
.
8
2.
8
122.
0
7.
5
095AM
4
6
.
0
1
08
.2
9
4.2 12.
6
1
0
2.7 1
0
4.
5
11.2
9
7.2 1
08
.
8
9
.
8
9
1.
5
11
5
.
9
.7
85
.
9
124.
3
7.7
48.0 111.7 95.4 12.9 106.0 107.0 11.4 100.4 112.3 10.0 94.7 117.9 8.9 89.0 126.5 8.2
50.0 115.2 96.9 13.2 109.4 108.4 11.7 103.6 115.2 10.2 97.8 119.8 9.1 92.0 128.8 8.0
4
0
.
0
1
0
7.1
99
.4 11.
9
1
0
1.7 1
09
.
5
1
0
.
6
96
.1 11
3
.
9
9
.
3
90
.4 122.2
.2
8
4.
6
1
30
.
3
7.2
42.0 110.8 101.8 12.2 105.2 111.2 10.7 99.5 115.8 9.5 93.3 124.4 8.4 87.3 132.9 7.3
100AS
44.
0
114.4 1
03
.
0
12.4 1
08
.7 11
3
.
0
11.
0
1
0
2.
8
117.7
9
.
6
96
.7 12
6
.
5
.
90
.
6
1
35
.4 7.
5
100AM
4
6
.
0
11
8
.
3
1
0
4.
5
12.7 112.4 11
5
.
9
11.2 1
06
.
3
12
0
.
8
9
.
8
1
00
.1 12
8
.7
.
9
4.
0
1
3
7.
8
7.
6
48.0 122.1 105.9 12.9 116.0 118.8 11.4 109.8 124.5 10.0 103.5 130.8 8.9 97.2 140.4 8.2
50.0 126.0 107.6 13.2 119.7 120.4 11.7 113.3 127.8 10.2 107.0 133.0 9.1 100.6 142.9 7.9
Notes:
1. Boxed ratings certified in accordance with ARI Standard 550/590-98 for "AS" units only. Remote evaporator units (AM) are outside the ARI scope.
2. Ratings based on HCFC-22, evaporator fouling factor of 0.0001, 2.4 gpm/ton, and at sea level.
3. kWi input is for compressors only, EER is for the entire unit, including compressors, fan motors and control power.
4. For 208V units, multiply capacity and EER by 0.98
5. For units with SpeedTrol option, multiply capacity and EER by 0.98
6. Operation below 42
°
F requires glycol and performance adjustment.
7. Ratings can be interpolated but not extrapolated.
Product Manual AGR-3 AGR 070A through 100A
17
Table 10, AGR 070 – AGR 100, 60 Hz, R-22, SI Units
See Selection Procedure section for derates for the "AM" remote evaporator units
AMBIENT AIR TEMPERATURE
25°C (77°F) 30°C (86°F) 35°C (95°F) 40°C (104°F) 45°C (113°F)AGR
SIZE
LWT
(°C)
Capac.
kW
PWR
kWi
COP
Capac.
kW
PWR
kWi
COP
Capac.
kW
PWR
kWi
COP
Capac.
kW
PWR
kWi
COP
Capac.
kW
PWR
kWi
COP
5.0 (41.0°F) 251.4 66.1 3.50 238.6 70.4 3.13 225.8 74.7 2.75 213.6 80.3 2.48 201.4 85.6 2.21
6.0 (42.8°F) 258.9 66.8 3.57 245.8 71.4 3.19 232.7 76.1 2.79 220.3 81.5 2.52 207.8 86.9 2.25
070AS 7.0 (44.6°F) 265.4 67.6 3.62 247.2 72.4 3.24 240.0 77.5 2.84 227.2 82.8 2.56 214.3 88.1 2.28
070AM 8.0 (46.4°F) 271.6 68.7 3.68 245.1 73.2 3.30 247.9 78.7 2.92 234.5 84.0 2.62 221.1 89.5 2.32
9.0 (48.2°F) 283.8 69.7 3.76 269.8 74.2 3.35 255.8 79.8 2.97 241.9 85.2 2.67 227.9 90.9 2.37
10.0 (50.0°F) 292.2 70.7 3.81 277.7 75.6 3.40 263.4 80.7 2.99 249.2 86.6 2.69 234.6 92.4 2.40
5.0 (41.0°F) 258.5 67.4 3.45 246.6 72.8 3.10 234.4 75.5 2.75 221.7 80.4 2.47 208.9 85.3 2.20
6.0 (42.8°F) 266.3 68.4 3.51 254.1 73.8 3.16 241.7 76.6 2.79 228.6 81.7 2.51 215.4 86.8 2.23
075AS 7.0 (44.6°F) 274.4 69.3 3.57 261.8 75.1 3.21 249.1 77.9 2.83 235.8 83.0 2.56 222.6 88.2 2.27
075AM 8.0 (46.4°F) 282.7 70.4 3.64 269.7 76.9 3.26 256.7 79.9 2.88 243.3 84.3 2.61 229.7 89.7 2.34
9.0 (48.2°F) 290.9 71.4 3.72 277.6 78.5 3.32 264.3 82.0 2.94 250.6 85.7 2.64 237.0 91.1 2.43
10.0 (50.0°F) 299.1 72.3 3.78 285.5 79.6 3.40 271.8 84.0 2.99 257.9 87.1 2.70 244.3 92.6 2.40
5.0 (41.0°F) 287.4 75.1 3.45 274.0 81.1 3.10 260.6 84.0 2.75 246.4 89.6 2.48 232.1 95.0 2.19
6.0 (42.8°F) 296.0 76.2 3.52 282.4 82.3 3.15 268.7 85.3 2.80 253.9 91.0 2.51 239.2 96.7 2.22
080AS 7.0 (44.6°F) 304.9 77.2 3.58 290.8 83.7 3.20 276.7 86.8 2.83 262.1 92.4 2.54 247.3 98.2 2.27
080AM 8.0 (46.4°F) 314.2 78.4 3.65 299.6 85.6 3.26 285.0 88.9 2.88 270.4 93.9 2.59 255.5 99.8 2.34
9.0 (48.2°F) 323.1 79.4 3.71 308.5 87.4 3.33 293.5 91.3 2.94 278.6 95.4 2.65 263.5 101.5 2.44
10.0 (50.0°F) 332.5 80.6 3.78 317.3 88.6 3.38 301.7 93.5 2.99 286.9 96.9 2.70 271.7 103.1 2.41
5.0 (41.0°F) 312.5 81.8 3.48 297.8 88.4 3.13 283.3 91.7 2.77 267.9 97.7 2.49 252.4 103.6 2.22
6.0 (42.8°F) 322.0 83.1 3.55 307.0 89.6 3.18 292.0 93.0 2.81 276.1 99.2 2.53 260.2 105.4 2.25
085AS 7.0 (44.6°F) 331.6 84.2 3.61 316.2 91.2 3.24 300.9 94.6 2.86 285.0 100.7 2.57 268.9 107.2 2.30
085AM 8.0 (46.4°F) 341.5 85.5 3.69 325.7 93.3 3.31 310.1 96.9 2.91 293.9 102.3 2.62 277.8 108.9 2.35
9.0 (48.2°F) 351.3 86.7 3.76 335.2 95.3 3.36 319.3 99.6 2.97 302.8 104.0 2.68 286.6 110.7 2.47
10.0 (50.0°F) 361.4 87.8 3.81 344.9 96.6 3.41 328.1 102.0 3.02 311.7 105.7 2.73 295.2 112.4 2.44
5.0 (41.0°F) 319.7 82.7 3.52 305.0 89.4 3.15 290.1 92.7 2.80 274.2 98.7 2.52 258.4 104.8 2.24
6.0 (42.8°F) 329.5 84.0 3.58 314.3 90.6 3.21 299.0 94.0 2.84 282.5 100.3 2.56 266.4 106.5 2.28
090AS 7.0 (44.6°F) 339.4 85.1 3.65 323.7 92.2 3.27 308.0 95.7 2.89 291.5 101.8 2.60 275.2 108.3 2.33
090AM 8.0 (46.4°F) 349.6 86.4 3.71 333.4 94.4 3.34 317.2 98.0 2.94 300.7 103.4 2.65 284.2 110.0 2.38
9.0 (48.2°F) 359.7 87.6 3.79 343.2 96.4 3.39 326.7 100.7 3.00 309.9 105.1 2.71 293.1 111.8 2.50
10.0 (50.0°F) 370.0 88.8 3.86 352.9 97.6 3.44 335.9 103.1 3.05 319.1 106.8 2.76 302.3 113.6 2.47
5.0 (41.0°F) 346.7 92.4 3.45 330.5 99.8 3.10 314.4 103.5 2.75 297.3 110.4 2.47 280.2 117.1 2.19
6.0 (42.8°F) 357.2 93.9 3.51 340.6 101.3 3.15 324.0 105.1 2.79 306.5 112.1 2.51 288.8 119.1 2.23
095AS 7.0 (44.6°F) 367.9 95.1 3.58 350.9 103.1 3.20 334.0 106.9 2.83 316.1 113.8 2.56 298.4 121.1 2.27
095AM 8.0 (46.4°F) 379.1 96.5 3.63 361.6 105.5 3.26 344.1 109.5 2.88 326.0 115.6 2.59 308.2 123.0 2.33
9.0 (48.2°F) 390.0 97.9 3.71 372.0 107.7 3.31 354.2 112.6 2.94 336.1 117.5 2.64 318.1 125.0 2.44
10.0 (50.0°F) 401.1 99.2 3.79 382.7 109.1 3.39 364.3 115.2 2.99 346.0 119.4 2.70 327.6 127.0 2.40
5.0 (41.0°F) 379.3 102.5 3.44 361.7 110.8 3.09 344.0 114.8 2.75 325.1 122.4 2.46 306.4 129.9 2.19
6.0 (42.8°F) 390.8 104.2 3.51 372.7 112.4 3.14 354.6 116.6 2.79 335.2 124.3 2.50 315.9 132.1 2.23
100AS 7.0 (44.6°F) 402.4 105.5 3.57 384.0 114.3 3.21 365.2 118.6 2.83 345.9 126.3 2.56 326.4 134.3 2.28
100AM 8.0 (46.4°F) 414.6 107.1 3.64 395.5 117.0 3.26 376.3 121.5 2.88 356.7 128.3 2.61 337.1 136.4 2.33
9.0 (48.2°F) 426.5 108.6 3.70 406.9 119.5 3.32 387.3 124.8 2.94 367.5 130.4 2.64 347.6 138.7 2.45
10.0 (50.0°F) 438.7 110.1 3.78 418.6 121.1 3.37 398.4 127.8 2.99 378.6 132.4 2.69 358.4 140.9 2.39
NOTES:
1. Ratings based on HCFC-22, evaporator fouling of 0.00176, 0.048 l/s per kW, and sea level altitude. Remote evaporator units (AM) are outside ARI scope.
2. Interpolation is allowed; extrapolation is not permitted. Consult McQuay for performance outside the cataloged ratings.
3. kWi input is for compressors only. EER is for the entire unit, including compressors, fan motors and control power.
4. For LWT below 4.4°C and below please refer to Application Data.
5. For 208V units, multiply capacity and EER by 0.98
6. For units with SpeedTrol option, multiply capacity and EER by 0.98
7. Operation below 5.6
°
C requires glycol and performance adjustment.
18
AGR 070A through 100A Product Manual AGR-3
Part Load Data
Table 11, 60 Hz, R-22
Unit Size % Load
Capacity
Tons
Power
Unit kW
EER IPLV
100.00
67.5 84.4 9.6
75.00
50.5 48.9 12.4
50.00
33.7 26.7 15.2
070AS
25.00
16.8 11.8 17.0
14.2
100.00
70.1 87.6 9.6
75.00
52.6 53.8 11.7
50.00
35 34.0 12.4
075AS
25.00
17.5 14.6 14.4
12.3
100.00
77.9 97.2 9.6
75.00
58.4 59.1 11.9
50.00
38.9 34 13.7
080AS
25.00
19.4 16.1 14.5
13.0
100.00
84.7 104.9 9.7
75.00
63.5 63.5 12
50.00
42.3 35.2 14.4
085AS
25.00
21.1 15.4 16.4
13.6
100.00
86.7 106 9.8
75.00
65 64.1 12.2
50.00
43.3 35.5 14.6
090AS
25.00
21.6 15.6 16.6
13.8
100.00
94 117.6 9.6
75.00
70.4 71.5 11.8
50.00
46.9 39.2 14.3
095AS
25.00
23.4 16.5 17.0
13.5
100.00
102.8 128.5 9.6
75.00
77.1 79.3 11.7
50.00
51.4 43.9 14.0
100AS
25.00
25.7 19.3 16.0
13.2
Notes: Certified in accordance with ARI Standard 550/590-98.
Product Manual AGR-3 AGR 070A through 100A
19
Sound Data
Table 12, AGR 070AS/AM - 100AS/AM Sound Pressure
Sound Pressure At 30 ft. From Sides Of Unit (dB)
Octave Band
Unit
Model
63 125 250 500 1000 2000 4000 8000
Sound Pressure
Overall
A-Weighted
AGR070A
65 65 64 64 62 56 54 54 66
AGR075A
66 67 65 65 62 56 55 55 67
AGR080A
66 68 65 65 62 56 56 55 67
AGR085A
67 69 66 65 62 56 56 55 67
AGR090A
67 69 66 65 62 56 56 55 67
AGR095A
68 69 67 66 63 58 58 56 68
AGR100A
69 70 68 66 63 58 58 56 68
Note: Data at 30 ft. (9m) from side of unit.
Table 13, AGR 070AS/AM – 100AS/AM Sound Power
Sound Power
Octave Band
Unit
Model
63 125 250 500 1000 2000 4000 8000
Sound Power
Overall
A-Weighted
AGR070A
92 92 91 91 89 83 81 81 93
AGR075A
93 94 92 92 89 83 82 82 94
AGR080A
93 95 92 92 89 83 83 82 94
AGR085A
94 96 93 92 89 83 83 82 94
AGR090A
94 96 93 92 89 83 83 82 94
AGR095A
95 96 94 93 90 85 86 83 95
AGR100A
96 97 95 93 90 85 86 83 95
Note: Per ARI Standard 370
Sound levels are as important as unit cost and efficiency, and must be addressed before to the start of
any development program. Efforts by McQuay design engineers to design chillers that are sensitive to
the sound requirements of the market have paid off.
Background Information
Sound is a vibration in an elastic medium and is essentially a pressure and particle displacement
phenomena. A vibrating body produces compression waves and as the waves are emitted from the
vibrating body, molecules are ultimately compressed. These values are transmitted through gas, liquid,
solid
anything which is elastic or viscous.
The sound data provided in this section is presented with both sound pressure and sound power levels.
Sound power is the total sound energy radiated by a source per unit of time integrated over the surface
through which the sound is radiated. Sound power is a calculated quantity and cannot be measured
directly like sound pressure. Sound power is not dependent on the surrounding environment or distance
from the source, as is sound pressure.
Sound pressure varies with the distance from the source and is dependent on its surroundings. For
example, a brick wall located 10 feet from a unit will affect the sound pressure measurements
differently than a brick wall at 20 feet. Sound pressure is measured in decibels (dB), which is a
dimensionless ratio (on a logarithmic scale) between measured sound pressure and a reference sound
pressure level.
Sound Pressure Levels - Full Load
All sound pressure tables give the overall "A" weighted sound pressure levels which are considered
typical of what may be measured in a free field with a hand held sound meter, in the absence of any
nearby reflective surfaces. The sound pressure levels are measured at 30 feet (10 meters) from the side
of the unit at 100% unit load and ARI conditions. 95°F (35°C) ambient air temperature and 54/44°F
(12/7°C) evaporator water temperatures for air-cooled units.
20
AGR 070A through 100A Product Manual AGR-3
Sound Power Levels
Acoustical consultants may require sound power octave band data to perform a detailed acoustical
analysis. The tables that follow present sound power levels per ARI Standard 370, “Sound Rating
of Large Outdoor Refrigerating and Air Conditioning Equipment”. These standards were developed
to establish uniform methods of determining the sound power radiated by large outdoor and indoor
equipment. The aforementioned methods are based on providing sound power levels by octave
band and the overall ‘A’ weighted value. Measurements are taken over a prescribed area around the
unit and the data is mathematically calculated to give the sound power, dB.
Sound Reduction due to Distance from the Unit
The distance between a source of sound and the location of the sound measurement plays an
important role in minimizing sound problems. The equation below can be used to calculate the
sound pressure level
at any distance if the
sound power
is known. Results for typical distances are
tabulated in Table 14. Another way of determining the effect of distance is to work from sound
pressure only. “Q”, the directionality factor, is a dimensionless number that compensates for the
type of sound reflection from the source. For example, a unit sitting on a flat roof or ground with
no other reflective surfaces or attenuation due to grass, snow, etc., between source and receiver:
Q=2.
Figure 6, "Q" Definition, Plan View, Unit Located in Center
Uniform Spherical Radiation
Q=1 no reflecting surface
Uniform Hemispherical Radiation
Q=2 single reflecting surface
Uniform Radiation over ¼ of sphere
Q=4 two reflecting surfaces
Sound pressure can be calculated at any distance from the unit if the sound power is known.
Lp=Lw-(20 log r) + (10 log Q) - .5
Lp = sound pressure r = distance from unit in feet
Lw = sound power Q = directionality factor
With Q=1, Unit suspended in space (theoretical condition), the equation simplifies to:
Lp = Lw – (20)(log r) –0.5
With Q=2, for a unit sitting on a flat roof or ground with no adjacent vertical wall as a reflective
surface, the equation simplifies to:
Lp = Lw – (20)(log r) + 2.5
With Q=4 for a unit sitting on a flat roof or ground with one adjacent vertical wall as a reflective
surface, the equation simplifies to:
Lp = Lw – (20)(log r) + 5.5
The equations are reduced to table form in Table 14 for various distances and the two most usual
cases of “Q” type of location.
Table 14, dB Conversion of Sound Power to Pressure for Distance
DB Reduction from Sound Power at the Source to Sound
Pressure at Referenced Distance
Distance from Sound Source
ft. (m)
Q=2 Q=4
30 (9) 27.1 24.0
50 (15) 31.6 28.5
75 (23) 35.1 32.0
100 (30) 37.6 34.5
150 (46) 41.1 38.0
200 (61) 43.6 40.5
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McQuay AGR 070A User manual

Category
Freezers
Type
User manual

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