AG HA Eng.pdf
Transcript of AG HA Eng.pdf
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3 03 B - 98/05 AP roduct manual
Date:May 1998
Air cooledwater chillers
A G HA030.2110.2cooling capacity from 97 t o 346 kW50 Hz - refrigerant: HCFC22, HFC 4 0 7 C, HFC134a
Supersedes: none
highambient
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try. The panel is manufactured to ensure protection in allweather conditions and the doors are fitted with door-staysto prevent accidental closure. The electrical control panelcomplies with IEC204-1 safety norms. The power sectionincludes: contactors, fuses for compressors, fans circuitbreakers and control circuit transformer. Additional space isprovided for the installation of the various optional accesso-ries provided to enhance the capabilities of the AG HAunits. The control section includes: the microprocessorregulator which carries out the following functions:- access password to prevent unauthorised access- water temperature control- regulation of temperature set points- start-up sequence delay device- compressor functioning- fan on-off control- antifreeze control- general alarm- differential pressure switch or pump failure alarm (opt.)By means of automatic safety and protection devices themicroprocessor controls the main components of the equip-ment such as: thermal protection of the electric motor wind-ings, refrigerant and oil pressure monitoring. A microproces-sor internal clock (optional) can be used to program the op-erating schedule of the chiller and the water circulatingpumps in order to meet each specific building load profileprecisely. On request, a multifunctional microprocessorcontrol device of the MicroTech type can be installed.
Ambient conditionThe AG HA units can operate as standard with an externalair temperature down to +5C. All units can function with anexternal air temperature of up to +52C.
Refrigerant circuitThe AG HA units are equipped with a complete refrigerantcircuit charge HCFC22, HFC407C or HFC134a. The circuitconsists of insulated copper pipes on the suction line and iscomplete with suction shut-off valves (option for reciprocat-ing), filter driers, moisture indicators, liquid sight glass,thermostatic expansion valves.
Acoustic optionsTwo versions are available. AG HA ST(Standard) AG HA CN(Compressor noise) for a reduced sound le-vel this unit is fitted with sound proofing cabinets around thecompressors insulated with absorbent acoustic material.
Accessories and Options07. Double set point version (CB) - Dual leaving glycolmixture temperature setpoints. The lower setpoint can godown to -8C.
11. Compressor thermal overload relays -Safety devicesagainst compressor motor overloading in addition to thenormal protection envisaged by the electrical windings.
15. Phase monitor - The phase monitor controls thevoltage values on the supply line stopping the unit when thecalibration threshold is reached (10%). This safety deviceis automatically reset.
16. Ammeter and voltmeter- Digital meters of unit drawnamperes and voltage values, installed on the electrical
control panel.17. Condenser power factor correction- Installed on theelectrical control panel to ensure it conforms to the plant
rules. (McQuay advices maximum 0,9).
18. 110 Volt control circuit - The 110 Volt control circuitare supplied by an appropriate current transformer installedon the electrical control panel.
21. Main Switch -
22. Transformer -Transformer for auxiliary circuit.
32. Condenser coil guards- Metal protection guards fixedon all the external surface of the condenser coils.
33. Compressor guards- To prevent unauthorised accessto the cooling unit components.
34. Cu-Cu condensing coils - To give better protectionagainst corrosion by aggressive environments.
35. Cu-Cu-Sn condensing coils - To give better protec-tion against corrosion in aggressive environments and bysalty air.
36. Alucoat condensing coils - Fins are protected by aspecial epoxy paint with a high resistance to corrosion.
42. Flow switch - Supplied separately to be wired andinstalled on the evaporator water piping (by the customer).
60. Suction shut-off valve - Suction shut-off valve installedon the suction port (STD on HFC 134a & HFC407C).
61. Gauges - Gauges to control high and low gas pressureand lubricant oil pressure.
70b. MicroTech - Microprocessor.
80. Spreader bars- Facilitate the lifting of the units keepingthe ropes away from the unit's casing.
82. Wooden box packing - Self-supporting wooden boxinternally insulated and suitable for shipment by sea.
83. Open Cage packing - Protection with polythene andwooden cage for transport and protection before theinstallation.
84. Rubber type antivibration mounts - Suppliedseparately, these are positioned under the base of the unitduring installation. Ideal to reduce the vibrations when theunit is floor mounted.
85. Spring type antivibration mounts - Suppliedseparately, these are positioned under the base of the unitduring installation. Ideal for dampening vibrations for instal-lation on roofs and metallic structures.
88. TV approval - If required, the cooling units can beTUV tested and certified.
92. Witness tests - The units are normally tested at thetest bench prior to the shipment. On request, a second testcan be carried out, at customers presence, in accordancewith the procedures indicated on the test form.
Selection ProceduresThe procedure for selecting the cooling duty and the powerabsorbed by the compressors of the AG HA units isindicated below.1. The tables Standard AG HA unit performance allow todetermine the cooling capacity, power absorbed by thecompressor motors with cooled water temperatures bet-
ween +4
C and +9
C, ambient air temperatures between +25C and +52C.
2. Although the data can be interpolated, extrapolation is not
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permitted. For conditions other than those shown in thetables, contact McQuay Product Group.
3. The performance of the AG HA units refers to 5C of t ofchilled water. The increase or reduction of the flow rate ofchilled water produces a reduction and an increase in the
cooling performance which is negligible. To ensure thecorrect functioning of the exchanger, it is advisable tomaintain the waters t within 3C 6C.
4. The performance figures are based on fouling factor of0.044 m2C/kW. In the event of different values, thecorrection coefficients indicated in Table 2 should be used.
5. The performance is influenced by air density. Table 3gives the correction factors for the various altitudes abovesea level.
6. The power absorbed values given in the standardperformance tables refer to the compressors only. Thecurrent absorbed by the fans is given in the electricalcharacteristics table.
8. To obtain the flow resistance through the evaporator, usethe diagram on page 16.
Example of selection of an AG HA unitData:Cooling capacity required: 250 kWAmbient air temperature: +46CTemperature of cooled water: from 12 to 7CRefrigerant: HCFC22Fouling factor: 0.044 m2C/kWAltitude above sea level: 900 mGlycol content: none
1. The cooling capacity correction coefficient for installation
at 900 m above sea level (Table 3) is 0.979.2. The corrected cooling capacity is
250 kW/0.979 = 255,3 kW.
3. The cooling unit to satisfy this capacity is AG HA 070.2ST 022. This unit will have the following operating data:
Cooling capacity:260,1 kW x 0.979 = 254,6 kW
Power absorbed by compressors:88,8 kW x 1.015 = 90,1 kW.
Chilled water flow rate: 240,5 kW/4.186/(12-7) = 12,16 l/s.
Pressure drop indicated by the diagram with a cooled waterflow of 12,16 l/s on the straight line corresponding to the
unit AG HA 070.2 we find a pressure drop of 60 kPa.
Water content in cooling circuitsThe cooled water distribution circuits should have aminimum water content to avoid excessive intermittentoperation of the compressors. In fact, each time thecompressor starts up, an excessive quantity of oil goes from
the compressors sump and simultaneously there is a rise inthe temperature of the compressor motors stator due to theinrush current during the start-up. To prevent damage to thecompressors, McQuay has envisaged the application of adevice to limit frequent stops and restarts. During the spanof one hour there will be no more than 6 starts of thecompressor. The plant side should therefore ensure that theoverall water content allows a more constant functioning ofthe unit and consequently greater environmental comfort.The minimum installation water content envisaged shouldbe calculated with a certain approximation using this for-mula:
(1) Q = P x p 25
where:Q = minimum content of the plant expressed in litres.P = cooling capacity of the plant expressed in Wp = minimum unloading capacity percentage
A plant with a 230 kW cooling capacity in which the coolingunit AG HA 070.2 ST 022 equipped with two compressors isapplied, should have a minimum content of water calculatedon the basis of the minimum cooling capacity, which for thistype of equipment is 25% of the nominal capacity.
Q = 230,000 x 0.25 = 2300 l25
For a more accurate determination of the quantity of water,it is advisable to contact the designer of the plant.When thesum of the water content of the evaporator, the pipes of thehydraulic circuit and the terminals (coils, exchangers, etc.) islower than the value obtained, it would be better to opt for aAG HA McQuay cooling unit equipped with inertial tank(optional).
Table 3 - Altitude correction factorElevation above sea level (m)
Barometric pressure (mbar)
0
1013
300
977
600
942
900
908
1200
875
1500
843
1800
812
Cooling cap. correction factor
Power input correction factor
1,0001,000
0,9931,005
0,9861,009
0,9791,015
0,9731,021
0,9671,026
0,9601,031
Table 2 - Fouling factorFouling
factor
Cooling capacity
correction
Power input
correction
m2C/kW
0,0440,132
0,308
factor
1,000factor
1,0000,975
0,919
0,986
0,939
Table 1 - Operating limits HCFC 22
ST CN
HFC 407C
ST CN
HFC 134a
ST CN
Max ambient temperature
Min ambient temperature
Max entering evap. water temp. (without glycol)
Min leaving evap. water temp. (without glycol)
C
C
525
C
C
154
525
525
154
156
525
525
156
154
525
154
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Installation notes
HandlingAll moving and handling may damage the unit if someconditions are not scrupulously observed. The units shouldbe lifted with a crane using long ropes anchored to theholes on the frame of the units base and by using the upperspacer bars (see accessory 80) to prevent the ropes fromdamaging the condenser coils.
LocationThe AG HA units are produced for outside installation onroofs, floors or below ground level on condition that the areais free from obstacles for the passage of the condensationair. The unit should be positioned on solid foundations andperfectly level; in the case of installation on roofs or floors, itmay be advisable to arrange the use of suitable weightdistribution beams. When the units are installed on theground, a concrete base at least 250 mm wider and longerthan the units footprint should be laid. Furthermore, thisbase should be sufficiently robust to withstand the unitweight mentioned in the technical data table. When theunits are positioned in areas which are easily accessible bypersons or animals, it is advisable to fit guards to protectthe condenser coil guards (see accessory 32) and, whennecessary, also guards to protect the compressor (seeaccessory 33).
Space requirementsThe AG HA units are air-cooled, hence it is important toobserve the minimum distances which guarantee the bestventilation of the condenser coils. Limitations of space re-
ducing the air flow could cause significant reductions incooling capacity, an increase in electricity consumption and,in some cases, the unit may stop functioning as a result ofthe high condensation pressure. The fans do not allow theuse of ducts which have high flow resistance, hence isshould be ensured that the output air cannot recycle itself
inside the condenser coils. The units should be positionedsuch that there is sufficient distance between the coils andany obstacles to improve ventilation and also to facilitate in-spection. When two or more units are positioned side byside it is recommended that the condenser coils are at least3000 mm distance from one another. Smaller distancescould cause the recirculation of hot air. If the units arepositioned in places surrounded by walls or obstacles of thesame height as the units, the units should be at least 3000mm from said obstacles. For other installation solutions,consult McQuay technicians.
Acoustic protectionThe low noise levels of the AG HA units means that theymeet most of the most restrictive regulations, thanks to the
availability of two versions with different sound levels: thestandard version (ST), the version with sound proofing cabi-net on compressors (CN). When the noise level must meetspecial requirements it will be necessary to pay themaximum attention to ensure the perfect insulation of theunit from the support base by applying appropriate vibration-dampening devices (see accessories 84 and 85), applyingvibration-dampening mounts on the water pipes and on theelectrical connections.
Nomenclature
AGRHA100.2 WST022Air cooled water chiller
Compressor type: Z Scroll hermeticR Reciprocating semi-hermetic
High ambient temeperature
Size: 100 Ton
No. of compressor 2
Application: W Cooling only
Version: ST Standard versionCN Low noise version
Refrigerant: 022 HCFC 22407 HFC 407C134 HFC 134a
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Physical data AG HA ST, CN 030.2075.2
"AGZ HA ST, CN" unit size 030.2 035.2 040.2 045.2
Cooling capacity (HCFC 22) (1)
Power input (HCFC 22) (1)
kW
kW
97,0
30,0
101,8
40,8
115,8
45,8
128,1
50,8
Cooling capacity (HFC 407C) (1)
Power input (HFC 407C) (1)
kW
kW
Cooling capacity (HFC 134a) (1)Power input (HFC 134a) (1)
kWkW
94,0
30,0
98,7
40,8
66,018,5
69,225,1
112,4
45,8
124,3
50,8
78,828,2
87,131,2
Compressor type/No. of compressor
No. of circuit
No. of reduction steps Standard
Condenser fans
No. of fans/Fan motor
Total air flow
kW
m3/s
Evaporator
No. of evaporator
scroll/4
2
scroll/4
2
4 4
scroll/4
2
scroll/4
2
4 4
2/2,1
12,6
2/2,1
12,6
1 1
2/2,1
12,2
2/2,1
12,2
1 1
Max operating pressure
Water volume
bar
l
Condenser coil
No. of coilWeight
Operating weight kg
Shipping weight kg
16
40
16
40
2 2
16
40
16
40
2 2
1520 1520
1480 1480
1520 1520
1480 1480
Note: (1) Nominal cooling capacity are based on: 12/7 C entering/leaving evaporator water temperature; 46C ambient temperature.
"AGR HA ST, CN" unit size 050.2 055.2 060.2 065.2 070.2 075.2
Cooling capacity (HCFC 22) (1)
Power input (HCFC 22) (1)
kW
kW
172,7
60,2
185,7
66,3
198,7
72,4
229,2
80,6
260,1
88,8
270,3
89,8
Cooling capacity (HFC 407C) (1)
Power input (HFC 407C) (1)
kW
kW
Cooling capacity (HFC 134a) (1)
Power input (HFC 134a) (1)
kW
kW
167,5
60,2
180,1
66,3
117,4
37,0
126,3
40,8
192,7
72,4
222,3
80,6
135,1
44,5
156,0
49,6
252,3
88,8
262,2
89,8
177,0
54,6
183,8
55,2Compressor type/No. of compressor
No. of circuit
No. of reduction steps Standard
Condenser fans
No. of fans/Fan motor
Total air flow
kW
m3/s
Evaporator
No. of evaporator
recip/2
2
recip/2
2
4 4
recip/2
2
recip/2
2
4 4
4/2,1
25,2
4/2,1
25,2
1 1
4/2,1
25,2
4/2,1
25,2
1 1
recip/2
2
recip/2
2
4 4
4/2,1
25,2
4/2,1
25,2
1 1
Max operating pressure
Water volume
bar
l
Condenser coil
No. of coil
Weight
Operating weight kg
Shipping weight kg
16
60
16
60
4 4
16
60
16
100
4 4
2310 2310
2245 2245
2310 2310
2245 2245
16
100
16
90
4 4
2310 2310
2245 2245
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Physical data AG HA ST, CN 080.2110.2
Note: (1) Nominal cooling capacity are based on: 12/7 C entering/leaving evaporator water temperature; 46C ambient temperature.
"AGR HA ST, CN" unit size 080.2 085.2 090.2 095.2 100.2 110.2
Cooling capacity (HCFC 22) (1)
Power input (HCFC 22) (1)
kW
kW
278,0
96,3
295,7
103,8
307,5
104,8
326,1
112,0
336,3
117,4
346,4
122,8
Cooling capacity (HFC 407C) (1)
Power input (HFC 407C) (1)
kW
kW
Cooling capacity (HFC 134a) (1)Power input (HFC 134a) (1)
kWkW
269,7
96,3
286,8
103,8
189,059,2
201,163,8
298,3
104,8
316,3
112,0
209,164,5
221,768,9
326,2
117,4
336,0
122,8
228,772,2
235,675,5
Compressor type/No. of compressor
No. of circuit
No. of reduction steps Standard
Condenser fans
No. of fans/Fan motor
Total air flow
kW
m3/s
Evaporator
No. of evaporator
recip/2
2
recip/2
2
4 4
recip/2
2
recip/2
2
4 4
6/2,1
37,75
6/2,1
37,75
1 1
6/2,1
37,75
6/2,1
37,75
1 1
recip/2
2
recip/2
2
4 4
6/2,1
37,2
6/2,1
36,7
1 1
Max operating pressure
Water volume
bar
l
Condenser coil
No. of coil
Weight
Operating weight kg
Shipping weight kg
16
90
10,5
90
4 4
10,5
90
10,5
90
4 4
3110 3110
3025 3025
3110 3500
3025 3415
10,5
90
10,5
90
4 4
3500 3500
3415 3415
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AG HA ST Sound pressure level at 1 m from the uni t in free f ie ld (ref . 2 x 10-5 )
unit size
AGZ HA ST 030.2
63 Hz
71,5
125 Hz
72,0
250 Hz
73,0
500 Hz
71,5
1000 Hz
71,0
2000 Hz
68,5
4000 Hz
60,0
8000 Hz
55,0
dBA
75,0
AGZ HA ST 035.2
AGZ HA ST 040.2
AGZ HA ST 045.2
AGR HA ST 050.2
71,5
71,5
72,0
72,0
71,5
73,5
72,0
74,0
73,0
73,0
71,5
71,5
73,0
76,0
71,5
75,0
71,0
71,0
68,5
68,5
71,0
74,0
68,5
72,0
60,0
60,0
55,0
55,0
60,0
63,0
55,0
58,5
75,0
75,0
75,0
78,5
AGR HA ST 055.2
AGR HA ST 060.2
AGR HA ST 065.2
AGR HA ST 070.2
73,5
74,5
74,0
75,0
74,5
74,5
75,0
75,0
AGR HA ST 075.2
AGR HA ST 080.2
AGR HA ST 085.2
AGR HA ST 090.2
74,5
74,5
75,0
75,0
74,5
74,5
75,0
75,0
76,0
77,0
75,0
76,0
77,0
77,0
76,0
76,0
74,0
75,0
72,0
73,0
75,0
75,0
73,0
73,0
77,0
77,0
76,0
76,0
77,0
77,0
76,0
76,0
75,0
75,0
73,0
73,0
75,0
75,0
73,0
73,0
63,0
64,0
58,5
59,5
64,0
64,0
59,5
59,5
78,5
79,5
79,5
79,5
64,0
64,0
59,5
59,5
64,0
64,0
59,5
59,5
79,5
79,5
79,5
79,5
AGR HA ST 095.2
AGR HA ST 100.2
AGR HA ST 110.2
76,5
76,5
78,5
78,5
76,5 78,5
79,5
79,5
79,5
79,5
79,5 79,5
78,0
78,0
74,5
74,5
78,0 74,5
71,0
71,0
69,5
69,5
71,0 69,5
82,5
82,5
82,5
Sound pressure level AG HA ST 030.2110.2
AG HA CN Sound pressure level at 1 m from the uni t in free f ie ld (ref . 2 x 10-5 )
unit size
AGZ HA CN 030.2
63 Hz
68,5
125 Hz
69,0
250 Hz
70,0
500 Hz
68,5
1000 Hz
68,0
2000 Hz
65,5
4000 Hz
57,0
8000 Hz
52,0
dBA
72,0
AGZ HA CN 035.2
AGZ HA CN 040.2
AGZ HA CN 045.2
AGR HA CN 050.2
68,5
68,5
69,0
69,0
68,5
70,5
69,0
71,0
70,0
70,0
68,5
68,5
70,0
73,0
68,5
72,0
68,0
68,0
65,5
65,5
68,0
71,0
65,5
69,0
57,0
57,0
52,0
52,0
57,0
60,0
52,0
55,5
72,0
72,0
72,0
75,5
AGR HA CN 055.2
AGR HA CN 060.2
AGR HA CN 065.2
AGR HA CN 070.2
70,5
71,5
71,0
72,0
71,5
71,5
72,0
72,0
AGR HA CN 075.2
AGR HA CN 080.2
AGR HA CN 085.2
AGR HA CN 090.2
71,5
71,5
72,0
72,0
71,5
71,5
72,0
72,0
73,0
74,0
72,0
73,0
74,0
74,0
73,0
73,0
71,0
72,0
69,0
70,0
72,0
72,0
70,0
70,0
74,0
74,0
73,0
73,0
74,0
74,0
73,0
73,0
72,0
72,0
70,0
70,0
72,0
72,0
70,0
70,0
60,0
61,0
55,5
56,5
61,0
61,0
56,5
56,5
75,5
76,5
76,5
76,5
61,0
61,0
56,5
56,5
61,0
61,0
56,5
56,5
76,5
76,5
76,5
76,5
AGR HA CN 095.2
AGR HA CN 100.2
AGR HA CN 110.2
73,5
73,5
75,5
75,5
73,5 75,5
76,5
76,5
76,5
76,5
76,5 76,5
75,0
75,0
71,5
71,5
75,0 71,5
68,0
68,0
66,5
66,5
68,0 66,5
79,5
79,5
79,5
Sound pressure level AG HA CN 030.2
110.2
Note: Average sound pressure level rated in accordance to ISO 3744, free field conditions.
Note: Average sound pressure level rated in accordance to ISO 3744, free field conditions.
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Electrical data AG HA ST, CN 030.2110.2
"AGZ HA ST, CN" (HCFC 22, HFC 407C) 030.2 035.2 040.2 045.2
Standard voltage
Max absorbed current compressor (FLA) (2) A 53,0
400 V - 3f - 50 Hz (1)
72,0 81,0 90,0
Max inrush current bigger compressor AL
Max inrush current bigger compressor PW
A
A
Total fans absorbed currentMax unit absorbed current
AA
116,0
NA
128,0
NA
7,660,6
7,679,6
159,0
NA
159,0
NA
7,688,6
7,697,6
Max unit inrush current AL
Max unit inrush current PW
A
A
165,3
NA
186,8
NA
222,0
NA
227,0
NA
"AGR HA ST, CN" (HCFC 22, HFC 407C) 080.2 085.2 090.2 095.2 100.2 110.2
Standard voltage
Max absorbed current compressor (FLA) (2) A 170,2 183,5
400 V - 3f - 50 Hz (1)
185,4 198,0 207,7 217,2
Max inrush current bigger compressor AL
Max inrush current bigger compressor PW
A
A
Total fans absorbed current
Max unit absorbed current
A
A
NA
347,0
NA
347,0
22,8
193,0
22,8
206,3
NA
347,0
NA
345,0
22,8
208,2
22,8
220,8
NA
537,0
NA
537,0
22,8
230,5
22,8
240,0
Max unit inrush current AL
Max unit inrush current PW
A
A
NA
462,5
NA
470,0
NA
470,5
NA
474,5
NA
671,0
NA
676,0
"AGR HA ST, CN" (HCFC 22, HFC 407C) 050.2 055.2 060.2 065.2 070.2 075.2
Standard voltage
Max absorbed current compressor (FLA) (2) A 106,5 117,3
400 V - 3f - 50 Hz (1)
128,0 142,5 157,0 158,8
Max inrush current bigger compressor AL
Max inrush current bigger compressor PW
A
A
Total fans absorbed current
Max unit absorbed current
A
A
NA
202,0
NA
247,0
15,2
121,7
15,2
132,5
NA
247,0
NA
286,0
15,2
143,2
15,2
157,7
NA
286,0
NA
286,0
15,2
172,2
15,2
173,0
Max unit inrush current AL
Max unit inrush current PW
A
A
NA
282,0
NA
332,0
NA
337,6
NA
384,0
NA
391,0
NA
392,0
"AGZ HA ST, CN" (HFC 134a) 030.2 035.2 040.2 045.2
Standard voltageMax absorbed current compressor (FLA) (2) A 32,7
400 V - 3f - 50 Hz (1)44,3 49,9 55,3
Max inrush current bigger compressor AL
Max inrush current bigger compressor PW
A
A
Total fans absorbed current
Max unit absorbed current
A
A
116,0
NA
128,0
NA
7,6
40,3
7,6
51,9
159,0
NA
159,0
NA
7,6
57,5
7,6
62,9
Max unit inrush current AL
Max unit inrush current PW
A
A
155,0
NA
173,0
NA
206,7
NA
209,5
NA
"AGR HA ST, CN" (HFC 134a) 080.2 085.2 090.2 095.2 100.2 110.2
Standard voltage
Max absorbed current compressor (FLA) (2) A 104,6 112,8
400 V - 3f - 50 Hz (1)
114,0 121,7 127,6 133,5
Max inrush current bigger compressor AL
Max inrush current bigger compressor PW
A
A
Total fans absorbed current
Max unit absorbed current
A
A
NA
315,0
NA
315,0
22,8
127,4
22,8
135,6
NA
315,0
NA
345,0
22,8
136,8
22,8
144,5
NA
345,0
NA
345,0
22,8
150,4
22,8
156,3
Max unit inrush current AL
Max unit inrush current PW
A
A
NA
398,0
NA
402,0
NA
402,5
NA
436,3
NA
439,2
NA
442,2
"AGR HA ST, CN" (HFC 134a) 050.2 055.2 060.2 065.2 070.2 075.2
Standard voltage
Max absorbed current compressor (FLA) (2) A 65,5 72,2
400 V - 3f - 50 Hz (1)
78,7 87,6 96,6 97,6
Max inrush current bigger compressor AL
Max inrush current bigger compressor PW
A
ATotal fans absorbed current
Max unit absorbed current
A
A
NA
114,0
NA
155,015,2
80,7
15,2
87,4
NA
155,0
NA
247,015,2
93,9
15,2
102,8
NA
247,0
NA
247,015,2
111,8
15,2
112,8
Max unit inrush current AL
Max unit inrush current PW
A
A
NA
173,4
NA
217,7
NA
221,0
NA
317,5
NA
322,0
NA
322,5
Notes: (1) Allowed voltage tollerance 10%.(2) Absorbed current max. condition.
-
8/10/2019 AG HA Eng.pdf
10/20
Standard ratings AG HA ST, CN 030.2075.2 (HCFC 22)
303 B - 98/05 A - pag. 10/20
AGZ HA
Coolingcapacity
kW
4 99,656
102,8106,0
PowerInput
Coolingcapacity
kW kW
PowerInput
Coolingcapacity
kW kW
25,7 94,626,126,5
97,6100,7
27,1 91,527,527,9
94,497,4
PowerInput
Coolingcapacity
kW kW
PowerInput
Coolingcapacity
kW kW
28,0 88,428,428,8
91,294,0
28,8 86,329,229,6
89,091,7
PowerInput
Coolingcapacity
kW kW
PowerInputkW
29,4 82,029,830,1
84,587,1
30,430,831,2
030.2 78
109,3112,4
9 115,6
AGZ HA
4 104,756
108,0111,4
26,927,3
103,8106,9
27,6 110,0
28,328,7
100,4103,4
29,1 106,4
34,9 99,435,536,0
102,6105,8
36,9 96,237,538,0
99,2102,3
035.2 78
114,8118,1
9 121,5
AGZ HA
4 119,15
6
122,9
126,8
36,537,1
109,0112,3
37,6 115,6
38,539,0
105,5108,6
39,6 111,8
39,2 113,139,8
40,4
116,7
120,4
41,4 109,442,0
42,7
112,9
116,4
29,229,6
96,999,8
30,0 102,7
30,030,4
94,597,3
30,8 100,2
38,1 92,938,639,1
95,898,8
39,2 90,639,740,3
93,596,4
30,530,9
89,792,5
31,3 95,2
31,632,032,3
39,9 86,240,541,0
88,891,5
41,441,942,5
39,740,2
101,8104,9
40,7 108,0
40,841,3
99,3102,3
41,8 105,3
42,7 105,743,3
43,9
109,0
112,4
44,0 103,144,6
45,2
106,4
109,7
41,542,0
94,397,1
42,6 100,0
43,043,544,0
44,8 98,145,4
46,0
101,0
104,2
46,547,1
47,7040.2 78
130,6134,4
9 138,3
AGZ HA
4 131,756
136,0140,2
41,041,6
124,1127,8
42,2 131,5
43,343,8
120,0123,6
44,4 127,3
43,5 125,144,244,8
129,1133,2
45,9 121,046,647,3
124,9128,8
045.2 78
144,5148,6
9 152,9
AGR HA
4 177,656
183,3189,0
45,546,2
137,2141,4
46,8 145,5
48,048,6
132,7136,7
49,3 140,8
51,5 168,652,353,1
174,0179,5
54,4 163,155,356,1
168,4173,6
44,645,1
115,8119,3
45,7 122,8
45,846,4
113,0116,4
47,0 119,8
47,4 116,948,148,7
120,6124,3
48,8 114,149,550,1
117,7121,3
46,647,2
107,3110,5
47,8 113,8
48,348,849,4
49,7 108,550,451,0
111,8115,2
51,552,252,9
49,450,1
128,1132,0
50,7 135,9
50,851,5
125,0128,7
52,1 132,5
56,1 157,657,057,8
162,6167,6
57,8 153,858,659,4
158,6163,5
51,752,3
118,7122,3
53,0 125,9
53,554,154,8
58,9 146,259,760,5
150,7155,3
61,161,962,6
050.2 78
194,8200,3
9 206,1
AGR HA
4 190,956
197,1203,2
53,954,7
185,0190,5
55,5 196,1
56,957,6
178,9184,3
58,4 189,756,7 181,357,658,5
187,1193,0
59,9 175,460,961,8
181,0186,7
055.2 78
209,4215,4
9 221,6
AGR HA
4 204,356
210,8217,5
59,460,3
198,9204,9
61,1 210,9
62,663,4
192,4198,2
64,3 204,0
62,0 194,062,963,9
200,2206,5
65,5 187,766,567,4
193,7199,7
58,659,3
172,7177,9
60,1 183,1
60,261,0
168,5173,5
61,7 178,761,8 169,462,763,6
174,8180,2
63,7 165,464,665,4
170,5175,8
61,362,0
160,0164,8
62,8 169,7
63,464,1
64,964,9 157,265,866,6
162,0167,0
67,268,169,0
64,565,3
185,7191,3
66,2 196,9
66,367,2
181,1186,6
68,0 192,1
67,5 181,368,569,5
187,0192,8
69,5 176,970,571,5
182,4188,1
67,568,3
172,0177,2
69,2 182,5
69,970,671,5
70,8 168,271,872,8
173,3178,7
73,474,475,3
060.2 78
224,1230,4
9 237,1
AGR HA
4 235,75
6
243,2
250,9
64,865,8
212,8219,2
66,7 225,6
68,469,3
205,8212,0
70,2 218,3
69,0 223,870,1
71,1
231,0
238,2
72,9 216,574,0
75,1
223,5
230,4065.2 7
8258,5265,9
9 273,6
AGR HA
4 267,456
276,0284,7
72,273,3
245,5252,9
74,3 260,3
76,177,1
237,5244,6
78,1 251,8
76,0 254,077,278,3
262,1270,3
80,3 245,781,582,7
253,6261,5
70,471,3
198,7204,6
72,3 210,7
72,473,3
193,8199,6
74,3 205,5
75,2 209,176,3
77,3
215,7
222,4
77,4 204,178,5
79,6
210,5
217,0
73,774,6
184,0189,6
75,5 195,2
76,377,178,0
78,9 194,079,9
81,0
200,0
206,1
81,782,8
83,978,479,4
229,2236,1
80,5 243,1
80,681,6
223,6230,3
82,7 237,1
82,8 237,384,085,2
244,8252,4
85,3 231,686,587,6
238,8246,2
82,083,1
212,3218,7
84,1 225,2
84,985,986,9
86,9 220,288,189,2
226,9233,9
90,191,392,4
070.2 78
293,4301,7
9 310,5
AGR HA
4 277,956
286,8295,8
79,580,7
278,6287,0
81,8 295,4
83,985,0
269,5277,6
86,1 285,8
76,9 263,978,179,2
272,4280,9
81,2 255,382,483,6
263,5271,7
075.2 78
304,8313,5
9 322,6
80,481,6
289,5298,2
82,7 306,9
84,885,9
280,0288,4
87,1 296,9
86,487,5
260,1267,9
88,7 275,8
88,890,0
253,7261,3
91,1 269,1
83,7 246,685,086,2
254,4262,3
86,3 240,787,588,6
248,2255,9
90,491,5
240,9248,2
92,6 255,6
93,694,695,7
87,9 228,889,190,2
235,8243,1
91,192,393,4
87,488,5
270,3278,4
89,7 286,6
89,891,0
263,6271,6
92,1 279,6
91,492,5
250,4257,9
93,7 265,6
94,695,7
96,8
35 40 43 46
AMBIENT TEMPERATURE - C
Leavingchilled
watertemp.-
C
48 52AG HA
ST,CN
Unit
size
-
8/10/2019 AG HA Eng.pdf
11/20
Standard ratings AG HA ST, CN 080.2110.2 (HCFC 22)
303 B - 98/05 A - pag. 11/20
Notes:(1) Ratings based on: evaporator fouling factor of 0,044 m2 C/kW, evaporator temperature drop of 5C and sea level altitude.
(2) Interpolation is allowed, extrapolation is not permitted. Please contact McQuay for performance outside the standard ratings.
(3) The power input is for compressors only.
AGR HA
Coolingcapacity
kW
4 285,856
295,0304,3
PowerInput
Coolingcapacity
kW kW
PowerInput
Coolingcapacity
kW kW
82,4 271,483,785,0
280,2289,0
87,1 262,688,489,7
271,0279,5
PowerInput
Coolingcapacity
kW kW
PowerInput
Coolingcapacity
kW kW
89,8 253,791,192,4
261,7269,8
92,5 247,693,895,0
255,3263,2
PowerInput
Coolingcapacity
kW kW
PowerInputkW
94,2 235,395,596,8
242,5250,0
97,799,0100,2
080.2 78
313,5322,5
9 331,8
AGR HA
4 304,156
313,8323,7
86,287,5
297,8306,7
88,7 315,7
90,992,2
288,0296,7
93,4 305,4
88,8 288,890,291,6
298,0307,4
93,9 279,495,396,7
288,3297,3
085.2 78
333,5343,0
9 353,0
AGR HA
4 316,25
6
326,3
336,6
92,994,4
316,8326,3
95,6 335,8
98,099,3
306,4315,6
100,6 324,9
89,7 300,291,1
92,5
309,9
319,6
94,8 290,596,2
97,6
299,8
309,1
93,794,9
278,0286,3
96,1 294,8
96,397,6
271,2279,3
98,8 287,6
96,8 269,898,299,6
278,4287,0
99,7 263,3101,1102,5
271,6280,0
98,099,2
257,5265,3
100,4 273,2
101,5102,6103,8
101,6 250,3103,0104,3
258,0265,9
105,3106,7108,0
101,0102,3
295,7304,6
103,6 313,6
103,8105,1
288,5297,1
106,5 305,9
97,7 280,699,2
100,5
289,4
298,4
100,7 273,8102,1
103,4
282,4
291,1
105,7107,0
274,0282,2
108,3 290,6
109,4110,6111,9
102,5 260,3103,9
105,3
268,2
276,5
106,3107,7
109,1090.2 78
346,8356,7
9 367,0
AGR HA
4 335,356
346,1356,9
93,895,3
329,4339,3
96,5 349,2
99,0100,3
318,6328,1
101,6 337,8
95,9 318,497,498,8
328,6338,9
101,3 308,0102,8104,3
317,9327,8
095.2 78
367,8378,2
9 389,2
AGR HA
4 345,756
356,9368,1
100,3101,8
349,3359,8
103,2 370,3
105,8107,2
337,8348,0
108,6 358,3
100,5 328,3102,1103,6
338,9349,5
106,2 317,7107,8109,3
327,8338,0
101,9103,3
307,5316,7
104,6 326,1
104,8106,2
299,9309,0
107,5 318,1
104,5 297,5106,0107,5
306,9316,4
107,6 290,4109,1110,5
299,4308,7
106,7108,0
284,8293,4
109,3 302,2
110,4111,7113,0
109,6 276,0111,1112,5
284,5293,2
113,6115,1116,5
109,0110,4
326,1335,9
111,8 345,8
112,0113,5
318,1327,7
114,9 337,4
109,5 306,8111,1112,6
316,5326,3
112,8 299,4114,3115,9
308,8318,3
114,0115,4
302,1311,2
116,8 320,4
118,0119,3120,7
114,9 284,7116,4118,0
293,3302,4
119,1120,6122,2
100.2 78
379,3390,0
9 401,4
AGR HA
4 356,256
367,7379,2
105,1106,7
360,2371,0
108,2 381,9
110,9112,3
348,4358,9
113,8 369,4105,1 338,3106,7108,3
349,1360,1
111,0 327,3112,7114,4
337,7348,3
110.2 78
390,7401,9
9 413,5
109,9111,6
371,1382,2
113,1 393,5
116,0117,5
358,9369,7
119,1 380,6
114,2115,7
336,3346,4
117,2 356,6
117,4118,9
328,0337,9
120,4 347,9114,5 316,1116,2117,8
326,1336,2
118,0 308,5119,6121,2
318,1328,0
119,5121,0
311,5320,9
122,5 330,4
123,7125,1
126,6120,2 293,3121,8123,4
302,2311,6
124,5126,2127,8
119,5121,0
346,4356,9
122,6 367,4
122,8124,4
337,9348,1
125,9 358,4
125,0126,5
320,9330,6
128,1 340,4
129,4130,8132,4
35 40 43 46
AMBIENT TEMPERATURE - C
Leavingchilled
watertemp.-
C
48 52AG HA
ST,CN
Unit
size
-
8/10/2019 AG HA Eng.pdf
12/20
Standard ratings AG HA ST, CN 030.2075.2 (HFC 407C)
303 B - 98/05 A - pag. 12/20
AGZ HA
Coolingcapacity
kW
4* 96,65*6
99,7102,9
PowerInput
Coolingcapacity
kW kW
PowerInput
Coolingcapacity
kW kW
25,7 91,826,126,5
94,797,7
27,1 88,827,527,9
91,694,5
PowerInput
Coolingcapacity
kW kW
PowerInput
Coolingcapacity
kW kW
28,0 85,728,428,8
88,591,2
28,8 83,729,229,6
86,389,0
PowerInput
Coolingcapacity
kW kW
PowerInputkW
29,4 79,629,830,1
82,084,5
30,430,831,2
030.2 78
106,0109,0
9 112,2
AGZ HA
4* 101,55*6
104,8108,1
26,927,3
100,7103,7
27,6 106,7
28,328,7
97,4100,3
29,1 103,2
34,9 96,435,536,0
99,5102,6
36,9 93,337,538,0
96,399,3
035.2 78
111,4114,5
9 117,9
AGZ HA
4* 115,55*
6
119,2
123,0
36,537,1
105,8108,9
37,6 112,1
38,539,0
102,3105,4
39,6 108,5
39,2 109,739,8
40,4
113,2
116,8
41,4 106,142,0
42,7
109,5
112,9
29,229,6
94,096,8
30,0 99,7
30,030,4
91,794,4
30,8 97,2
38,1 90,138,639,1
92,995,8
39,2 87,939,740,3
90,793,5
30,530,9
87,189,7
31,3 92,3
31,632,032,3
39,9 83,640,541,0
86,188,8
41,441,942,5
39,740,2
98,7101,7
40,7 104,7
40,841,3
96,399,2
41,8 102,2
42,7 102,543,3
43,9
105,8
109,0
44,0 100,144,6
45,2
103,2
106,4
41,542,0
91,594,2
42,6 97,0
43,043,544,0
44,8 95,145,4
46,0
98,0
101,0
46,547,1
47,7040.2 78
126,7130,3
9 134,1
AGZ HA
4* 127,85*6
131,9136,0
41,041,6
120,4124,0
42,2 127,6
43,343,8
116,4119,9
44,4 123,4
43,5 121,344,244,8
125,2129,2
45,9 117,446,647,3
121,2124,9
045.2 78
140,2144,1
9 148,3
AGR HA
4* 172,25*6
177,8183,4
45,546,2
133,1137,1
46,8 141,1
48,048,6
128,7132,6
49,3 136,5
51,5 163,652,353,1
168,8174,1
54,4 158,255,356,1
163,3168,4
44,645,1
112,4115,7
45,7 119,2
45,846,4
109,6112,9
47,0 116,2
47,4 113,448,148,7
117,0120,6
48,8 110,749,550,1
114,1117,6
46,647,2
104,1107,2
47,8 110,4
48,348,849,4
49,7 105,250,451,0
108,4111,8
51,552,252,9
49,450,1
124,3128,0
50,7 131,8
50,851,5
121,2124,9
52,1 128,6
56,1 152,957,057,8
157,7162,5
57,8 149,258,659,4
153,8158,6
51,752,3
115,1118,6
53,0 122,1
53,554,154,8
58,9 141,859,760,5
146,1150,6
61,161,962,6
050.2 78
188,9194,3
9 200,0
AGR HA
4* 185,25*6
191,1197,1
53,954,7
179,4184,8
55,5 190,2
56,957,6
173,5178,8
58,4 184,056,7 175,957,658,5
181,5187,2
59,9 170,160,961,8
175,6181,1
055.2 78
203,1208,9
9 215,0
AGR HA
4* 198,15*6
204,5210,9
59,460,3
192,9198,7
61,1 204,6
62,663,4
186,6192,2
64,3 197,9
62,0 188,262,963,9
194,2200,3
65,5 182,066,567,4
187,9193,7
58,659,3
167,5172,5
60,1 177,7
60,261,0
163,4168,3
61,7 173,361,8 164,462,763,6
169,5174,8
63,7 160,464,665,4
165,4170,5
61,362,0
155,2159,9
62,8 164,6
63,464,1
64,964,9 152,565,866,6
157,1162,0
67,268,169,0
64,565,3
180,1185,5
66,2 191,0
66,367,2
175,7181,0
68,0 186,3
67,5 175,868,569,5
181,4187,0
69,5 171,670,571,5
177,0182,4
67,568,3
166,9171,9
69,2 177,0
69,970,671,5
70,8 163,171,872,8
168,1173,3
73,474,475,3
060.2 78
217,4223,5
9 230,0
AGR HA
4* 228,65*
6
235,9
243,4
64,865,8
206,4212,6
66,7 218,9
68,469,3
199,6205,7
70,2 211,7
69,0 217,170,1
71,1
224,1
231,1
72,9 210,074,0
75,1
216,7
223,5065.2 7
8250,8257,9
9 265,4
AGR HA
4* 259,45*6
267,7276,2
72,273,3
238,2245,3
74,3 252,5
76,177,1
230,3237,3
78,1 244,3
76,0 246,377,278,3
254,3262,2
80,3 238,381,582,7
246,0253,6
70,471,3
192,7198,5
72,3 204,4
72,473,3
188,0193,6
74,3 199,4
75,2 202,976,3
77,3
209,3
215,7
77,4 198,078,5
79,6
204,2
210,5
73,774,6
178,5183,9
75,5 189,4
76,377,178,0
78,9 188,279,9
81,0
194,0
199,9
81,782,8
83,978,479,4
222,3229,0
80,5 235,8
80,681,6
216,9223,4
82,7 230,0
82,8 230,284,085,2
237,5244,8
85,3 224,786,587,6
231,7238,8
82,083,1
206,0212,2
84,1 218,5
84,985,986,9
86,9 213,688,189,2
220,1226,9
90,191,392,4
070.2 78
284,6292,6
9 301,2
AGR HA
4* 269,65*6
278,2287,0
79,580,7
270,2278,4
81,8 286,5
83,985,0
261,4269,2
86,1 277,2
76,9 256,078,179,2
264,2272,5
81,2 247,782,483,6
255,6263,5
075.2 78
295,7304,1
9 312,9
80,481,6
280,8289,3
82,7 297,7
84,885,9
271,6279,8
87,1 288,0
86,487,5
252,3259,9
88,7 267,6
88,890,0
246,1253,5
91,1 261,0
83,7 239,285,086,2
246,8254,4
86,3 233,587,588,6
240,7248,2
90,491,5
233,7240,8
92,6 247,9
93,694,695,7
87,9 221,989,190,2
228,7235,8
91,192,393,4
87,488,5
262,2270,0
89,7 278,0
89,891,0
255,7263,4
92,1 271,2
91,492,5
242,9250,2
93,7 257,6
94,695,7
96,8
35 40 43 46
AMBIENT TEMPERATURE - C
Leavingchilled
watertemp.-
C
48 52AG HA
ST,CN
Unit
size
Notes:(*) 10% glycol must be added.
-
8/10/2019 AG HA Eng.pdf
13/20
Standard ratings AG HA ST, CN 080.2110.2 (HFC 407C)
303 B - 98/05 A - pag. 13/20
Notes:(1) Ratings based on: evaporator fouling factor of 0,044 m2 C/kW, evaporator temperature drop of 5C and sea level altitude.
(2) Interpolation is allowed, extrapolation is not permitted. Please contact McQuay for performance outside the standard ratings.
(3) The power input is for compressors only.(*) 10% glycol must be added.
AGR HA
Coolingcapacity
kW
4* 277,35*6
286,2295,2
PowerInput
Coolingcapacity
kW kW
PowerInput
Coolingcapacity
kW kW
82,4 263,383,785,0
271,8280,3
87,1 254,788,489,7
262,9271,1
PowerInput
Coolingcapacity
kW kW
PowerInput
Coolingcapacity
kW kW
89,8 246,191,192,4
253,8261,7
92,5 240,193,895,0
247,6255,3
PowerInput
Coolingcapacity
kW kW
PowerInputkW
94,2 228,395,596,8
235,2242,5
97,799,0100,2
080.2 78
304,1312,8
9 321,9
AGR HA
4* 294,95*6
304,4314,0
86,287,5
288,8297,5
88,7 306,2
90,992,2
279,4287,8
93,4 296,3
88,8 280,190,291,6
289,1298,2
93,9 271,095,396,7
279,6288,4
085.2 78
323,5332,7
9 342,4
AGR HA
4* 306,75*
6
316,5
326,5
92,994,4
307,3316,5
95,6 325,8
98,099,3
297,2306,1
100,6 315,2
89,7 291,291,1
92,5
300,6
310,0
94,8 281,896,2
97,6
290,8
299,8
93,794,9
269,7277,8
96,1 286,0
96,397,6
263,0271,0
98,8 279,0
96,8 261,798,299,6
270,0278,3
99,7 255,4101,1102,5
263,4271,6
98,099,2
249,8257,3
100,4 265,0
101,5102,6103,8
101,6 242,8103,0104,3
250,2258,0
105,3106,7108,0
101,0102,3
286,8295,5
103,6 304,2
103,8105,1
279,8288,2
106,5 296,8
97,7 272,299,2
100,5
280,7
289,4
100,7 265,6102,1
103,4
273,9
282,3
105,7107,0
265,7273,7
108,3 281,9
109,4110,6111,9
102,5 252,5103,9
105,3
260,2
268,2
106,3107,7
109,1090.2 78
336,4346,0
9 356,0
AGR HA
4* 325,25*6
335,7346,2
93,895,3
319,5329,1
96,5 338,7
99,0100,3
309,0318,3
101,6 327,7
95,9 308,997,498,8
318,8328,8
101,3 298,8102,8104,3
308,4318,0
095.2 78
356,8366,9
9 377,6
AGR HA
4* 335,45*6
346,2357,0
100,3101,8
338,8349,0
103,2 359,2
105,8107,2
327,7337,6
108,6 347,5
100,5 318,5102,1103,6
328,7339,0
106,2 308,1107,8109,3
318,0327,9
101,9103,3
298,3307,2
104,6 316,3
104,8106,2
290,9299,7
107,5 308,6
104,5 288,6106,0107,5
297,7306,9
107,6 281,7109,1110,5
290,5299,4
106,7108,0
276,3284,6
109,3 293,1
110,4111,7113,0
109,6 267,8111,1112,5
275,9284,5
113,6115,1116,5
109,0110,4
316,3325,8
111,8 335,4
112,0113,5
308,5317,8
114,9 327,2
109,5 297,6111,1112,6
307,0316,5
112,8 290,5114,3115,9
299,5308,8
114,0115,4
293,0301,9
116,8 310,8
118,0119,3120,7
114,9 276,1116,4118,0
284,5293,3
119,1120,6122,2
100.2 78
367,9378,3
9 389,4
AGR HA
4* 345,55*6
356,6367,8
105,1106,7
349,4359,9
108,2 370,4
110,9112,3
337,9348,1
113,8 358,4105,1 328,1106,7108,3
338,7349,3
111,0 317,5112,7114,4
327,6337,8
110.2 78
379,0389,8
9 401,1
109,9111,6
360,0370,8
113,1 381,6
116,0117,5
348,1358,6
119,1 369,2
114,2115,7
326,2336,0
117,2 345,9
117,4118,9
318,2327,7
120,4 337,5114,5 306,6116,2117,8
316,3326,1
118,0 299,3119,6121,2
308,6318,1
119,5121,0
302,2311,3
122,5 320,5
123,7125,1
126,6120,2 284,5121,8123,4
293,2302,2
124,5126,2127,8
119,5121,0
336,0346,1
122,6 356,4
122,8124,4
327,8337,7
125,9 347,7
125,0126,5
311,3320,7
128,1 330,2
129,4130,8132,4
35 40 43 46
AMBIENT TEMPERATURE - C
Leavingchilled
watertemp.-
C
48 52AG HA
ST,CN
Unit
size
-
8/10/2019 AG HA Eng.pdf
14/20
Standard ratings AG HA ST, CN 030.2075.2 (HFC 134a)
303 B - 98/05 A - pag. 14/20
AGZ HA
Coolingcapacity
kW
4 67,756
69,972,1
PowerInput
Coolingcapacity
kW kW
PowerInput
Coolingcapacity
kW kW
15,8 64,316,016,3
66,468,5
16,7 62,216,917,2
64,266,2
PowerInput
Coolingcapacity
kW kW
PowerInput
Coolingcapacity
kW kW
17,2 60,117,517,7
62,063,9
17,7 58,718,018,2
60,562,4
PowerInput
Coolingcapacity
kW kW
PowerInputkW
18,1 55,818,318,5
57,559,2
18,719,019,2
030.2 78
74,376,4
9 78,6
AGZ HA
4 71,256
73,575,8
16,516,8
70,672,7
17,0 74,8
17,417,7
68,270,3
17,9 72,4
21,5 67,621,822,1
69,871,9
22,7 65,423,023,4
67,569,6
035.2 78
78,180,3
9 82,6
AGZ HA
4 81,05
6
83,6
86,2
22,522,8
74,176,4
23,1 78,6
23,724,0
71,773,9
24,3 76,0
24,1 76,924,5
24,9
79,4
81,9
25,5 74,425,9
26,2
76,8
79,2
17,918,2
65,967,9
18,4 69,9
18,518,7
64,366,2
18,9 68,2
23,4 63,223,724,1
65,267,2
24,1 61,624,424,8
63,665,5
18,819,0
61,062,9
19,2 64,7
19,419,719,9
24,6 58,624,925,2
60,462,2
25,425,826,1
24,424,7
69,271,3
25,1 73,4
25,125,4
67,569,6
25,7 71,6
26,3 71,926,7
27,0
74,1
76,4
27,1 70,127,4
27,8
72,3
74,6
25,525,9
64,166,1
26,2 68,0
26,426,727,0
27,6 66,727,9
28,3
68,7
70,8
28,628,9
29,3040.2 78
88,891,4
9 94,0
AGZ HA
4 89,656
92,595,4
25,225,6
84,486,9
25,9 89,5
26,627,0
81,684,1
27,3 86,5
26,7 85,127,227,6
87,890,6
28,2 82,328,729,1
84,987,6
045.2 78
98,3101,1
9 104,0
AGR HA
4 120,756
124,6128,5
28,028,4
93,396,1
28,8 98,9
29,529,9
90,393,0
30,3 95,7
31,7 114,732,232,7
118,3122,1
33,5 110,934,034,5
114,5118,0
27,427,8
78,881,1
28,1 83,5
28,228,5
76,879,1
28,9 81,5
29,1 79,529,630,0
82,084,5
30,0 77,630,430,8
80,082,5
28,729,0
73,075,2
29,4 77,4
29,730,030,4
30,6 73,831,031,4
76,078,3
31,732,132,5
30,430,8
87,189,7
31,2 92,4
31,231,6
85,087,5
32,0 90,1
34,5 107,235,035,5
110,5114,0
35,6 104,636,136,5
107,8111,2
31,832,2
80,783,1
32,6 85,6
32,933,333,7
36,2 99,436,737,2
102,4105,6
37,538,038,5
050.2 78
132,5136,2
9 140,2
AGR HA
4 129,856
134,0138,2
33,133,7
125,8129,6
34,1 133,4
35,035,4
121,7125,3
35,9 129,034,9 123,335,436,0
127,2131,2
36,9 119,337,438,0
123,1126,9
055.2 78
142,4146,5
9 150,7
AGR HA
4 138,956
143,4147,9
36,537,1
135,2139,3
37,6 143,4
38,539,0
130,8134,7
39,5 138,7
38,1 131,938,739,3
136,1140,4
40,3 127,640,941,5
131,7135,8
36,036,5
117,4121,0
37,0 124,5
37,037,5
114,5118,0
38,0 121,538,0 115,238,639,1
118,8122,5
39,2 112,439,740,2
115,9119,5
37,738,2
108,8112,1
38,6 115,4
39,039,4
39,939,9 106,940,441,0
110,1113,5
41,441,942,4
39,740,2
126,3130,1
40,7 133,9
40,841,3
123,2126,9
41,8 130,6
41,5 123,342,142,7
127,2131,1
42,8 120,343,443,9
124,1127,9
41,542,0
117,0120,5
42,5 124,1
43,043,444,0
43,6 114,444,244,7
117,9121,5
45,245,846,3
060.2 78
152,4156,7
9 161,3
AGR HA
4 160,35
6
165,4
170,6
39,940,5
144,7149,1
41,0 153,4
42,042,6
140,0144,2
43,2 148,4
42,4 152,243,1
43,7
157,1
162,0
44,8 147,245,5
46,2
151,9
156,7065.2 7
8175,8180,8
9 186,0
AGR HA
4 181,956
187,7193,6
44,445,1
167,0172,0
45,7 177,0
46,847,4
161,5166,3
48,1 171,2
46,7 172,747,548,2
178,2183,8
49,4 167,150,150,9
172,4177,8
43,343,9
135,1139,2
44,5 143,3
44,545,1
131,8135,7
45,7 139,8
46,2 142,246,9
47,6
146,7
151,2
47,6 138,848,3
48,9
143,1
147,5
45,345,9
125,2128,9
46,4 132,8
46,947,448,0
48,5 131,949,2
49,8
136,0
140,2
50,350,9
51,648,248,8
155,9160,5
49,5 165,3
49,650,2
152,0156,6
50,8 161,3
50,9 161,451,752,4
166,5171,6
52,5 157,553,253,9
162,4167,4
50,551,1
144,4148,7
51,7 153,2
52,252,853,4
53,4 149,754,254,9
154,3159,1
55,456,156,8
070.2 78
199,5205,2
9 211,1
AGR HA
4 189,056
195,0201,2
48,949,6
189,5195,1
50,3 200,9
51,652,3
183,2188,7
52,9 194,3
47,3 179,548,048,7
185,2191,0
49,9 173,650,751,4
179,2184,7
075.2 78
207,3213,2
9 219,4
49,450,2
196,9202,8
50,9 208,7
52,252,9
190,4196,1
53,5 201,9
53,153,8
176,9182,2
54,5 187,6
54,655,3
172,5177,7
56,0 183,0
51,5 167,752,353,0
173,0178,3
53,1 163,753,854,5
168,8174,0
55,656,3
163,8168,8
57,0 173,8
57,558,258,9
54,0 155,654,855,5
160,3165,3
56,056,857,5
53,754,4
183,8189,3
55,1 194,9
55,255,9
179,3184,7
56,6 190,1
56,256,9
170,3175,4
57,6 180,6
58,258,8
59,5
35 40 43 46
AMBIENT TEMPERATURE - C
Leavingchilled
watertemp.-
C
48 52AG HA
ST,CN
Unit
size
-
8/10/2019 AG HA Eng.pdf
15/20
Standard ratings AG HA ST, CN 080.2110.2 (HFC 134a)
303 B - 98/05 A - pag. 15/20
Notes:(1) Ratings based on: evaporator fouling factor of 0,044 m2 C/kW, evaporator temperature drop of 5C and sea level altitude.
(2) Interpolation is allowed, extrapolation is not permitted. Please contact McQuay for performance outside the standard ratings.
(3) The power input is for compressors only.
AGR HA
Coolingcapacity
kW
4 194,456
200,6206,9
PowerInput
Coolingcapacity
kW kW
PowerInput
Coolingcapacity
kW kW
50,7 184,651,552,3
190,5196,5
53,5 178,654,455,2
184,3190,0
PowerInput
Coolingcapacity
kW kW
PowerInput
Coolingcapacity
kW kW
55,2 172,556,156,8
177,9183,4
56,9 168,357,758,5
173,6179,0
PowerInput
Coolingcapacity
kW kW
PowerInputkW
58,0 160,058,759,5
164,9170,0
60,160,961,6
080.2 78
213,2219,3
9 225,7
AGR HA
4 206,856
213,4220,1
53,053,8
202,5208,6
54,6 214,7
55,956,7
195,8201,7
57,4 207,7
54,6 196,455,556,3
202,7209,0
57,7 190,058,659,5
196,0202,1
085.2 78
226,8233,3
9 240,0
AGR HA
4 215,05
6
221,9
228,9
57,258,0
215,4221,9
58,8 228,4
60,361,1
208,3214,6
61,9 220,9
55,2 204,256,0
56,9
210,7
217,3
58,3 197,559,2
60,0
203,8
210,2
57,658,4
189,0194,7
59,1 200,5
59,260,0
184,4189,9
60,7 195,6
59,5 183,560,461,2
189,3195,1
61,3 179,162,263,0
184,7190,4
60,361,0
175,1180,4
61,8 185,8
62,463,163,8
62,5 170,263,364,1
175,4180,8
64,765,666,4
62,162,9
201,1207,1
63,7 213,3
63,864,7
196,2202,1
65,5 208,0
60,1 190,861,0
61,8
196,8
202,9
61,9 186,262,8
63,6
192,0
197,9
65,065,8
186,3191,9
66,6 197,6
67,368,068,8
63,1 177,063,9
64,8
182,4
188,0
65,466,2
67,1090.2 78
235,8242,5
9 249,6
AGR HA
4 228,056
235,3242,7
57,758,6
224,0230,7
59,4 237,5
60,961,7
216,6223,1
62,5 229,7
59,0 216,559,960,8
223,5230,5
62,3 209,563,264,2
216,2222,9
095.2 78
250,1257,2
9 264,7
AGR HA
4 235,156
242,7250,3
61,762,6
237,5244,7
63,5 251,8
65,065,9
229,7236,6
66,8 243,6
61,8 223,362,863,7
230,4237,7
65,3 216,066,367,2
222,9229,9
62,763,5
209,1215,4
64,3 221,7
64,565,3
204,0210,1
66,1 216,3
64,2 202,365,266,1
208,7215,2
66,2 197,567,168,0
203,6209,9
65,666,4
193,7199,5
67,2 205,5
67,968,769,5
67,4 187,768,369,2
193,4199,4
69,970,871,7
67,067,9
221,7228,4
68,8 235,2
68,969,8
216,3222,8
70,6 229,4
67,3 208,668,369,3
215,2221,9
69,4 203,670,371,3
210,0216,5
70,171,0
205,4211,6
71,8 217,9
72,673,474,2
70,6 193,671,672,6
199,5205,6
73,274,275,1
100.2 78
257,9265,2
9 272,9
AGR HA
4 242,256
250,0257,9
64,665,6
244,9252,3
66,5 259,7
68,269,1
236,9244,0
70,0 251,264,6 230,065,666,6
237,4244,9
68,3 222,569,370,3
229,7236,8
110.2 78
265,7273,3
9 281,2
67,668,7
252,3259,9
69,6 267,5
71,372,3
244,1251,4
73,2 258,8
70,271,1
228,7235,5
72,1 242,5
72,273,1
223,0229,8
74,0 236,670,4 215,071,572,5
221,7228,6
72,5 209,873,674,5
216,3223,0
73,574,4
211,8218,2
75,3 224,7
76,176,9
77,873,9 199,474,975,9
205,5211,9
76,677,678,6
73,574,4
235,6242,7
75,4 249,8
75,576,5
229,8236,7
77,5 243,7
76,977,8
218,2224,8
78,8 231,5
79,680,581,4
35 40 43 46
AMBIENT TEMPERATURE - C
Leavingchilled
watertemp.-
C
48 52AG HA
ST,CN
Unit
size
-
8/10/2019 AG HA Eng.pdf
16/20
303 B - 98/05 A - pag. 16/20
Water pressure drop evaporator
100
80
60
40
30
20
10
Pressure
drop
(kPa)
2 3 4 5 6 8 10 20 30
50
70
90
7 9
Water flow rate (L/s)
AGZ HA 030.2-035.2
AGZ HA 040.2AGZ HA 045.2
AGR HA 050.2
AGR HA 075.2 - 090.2 100.2 - 110.2
AGR HA 065.2 - 070.2AGR HA 080.2 - 085.2 - 095.2
AGR HA 055.2 - 060.2
15
-
8/10/2019 AG HA Eng.pdf
17/20
303 B - 98/05 A - pag. 17/20
Dimensions AG HA 030.2045.2
Dimensions AG HA 050.2065.2
Legend1 Condenser coil2 Evaporator3 Evaporator entering water4 Evaporator leaving water5 3" victaulic connections for 88,9 O.D. tube6 Electrical control panel7 4 no. lifting holes 70 mm DIA.8 4 isolator mounting holes 22 mm DIA. (opt.)9 Compressor enclosure (opt.)10 330x180 slot for power connection
-
8/10/2019 AG HA Eng.pdf
18/20
Dimensions AG HA 065.2075.2
303 B - 98/05 A - pag. 18/20
Legend1 Condenser coil2 Evaporator3 Evaporator entering water4 Evaporator leaving water5 5" victaulic connections for 139,7 O.D. tube6 Electrical control panel7 4 no. lifting holes 70 mm DIA.8 4 isolator mounting holes 22 mm DIA. (opt.)
9 Compressor enclosure (opt.)10 330x180 slot for power connection
Dimensions AG HA 080.2090.2
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Dimensions AG HA 095.2110.2
303 B - 98/05 A - pag. 19/20
Legend1 Condenser coil2 Evaporator3 Evaporator entering water4 Evaporator leaving water
5 5" victaulic connections for 139,7 O.D. tube6 Electrical control panel7 4 no. lifting holes 70 mm DIA.8 4 isolator mounting holes 22 mm DIA. (opt.)9 Compressor enclosure (opt.)10 330x180 slot for power connection
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We reserve the right to make changes in design and construction at any time without notice, thus the cover picture is not binding.
To supply and install, where specified in the project n ..... unit(s)aircooled water chiller with cooling capacity of ..... kW, to cool .....m3/sec. of water from ..... C to ..... working with ..... C ambienttemperature. The unit should work with electricity at ..... V. 3ph.50Hz. The electrical power absorbed should not overcome ..... kW.The units COP will be at least ..... at the working conditions of the
project. Part load COP will be at least ..... at the working conditionsof the project. For the units with 2 compressors the chillers wll ha-ve 2 indipendent refrigerant circuits, with the respective electronicmicroprocessor will alow the starting of the compressors. Each chil-ler will be factory assembled on a robust baseframe made of zinccoated steel, with zinc coated panels, protected by an epoxy coa-ted paint. The painting of the chillers to conform to the 500 hourssalt spray test method 6061 (no. 141 STD) The unit will be testedat full load in the factory at the nominal working conditions and wa-ter temperatures. Before shipment a full test will be held to avoidany losses, and the units will be filled with oil and 134a refrigerant.Units will have the following components:General- All units are designed and manufactured in accordancewith applicable selections of the following which are equivalent toAmerican Air-conditioning industry applicable codes:
Rating of chillers: UNI 9018Construction of pressure vessel: TV Standards (optional)Electrical codes: IEC 204-1 CEI 44-5 Elect. & Safety CodesSafety Codes: CEI-EN 60204-1 CodesManufacturing Quality Stds: ISO 9001Compressors- Will incorporate the scroll compressors to achievea high volumetric efficiency, due to constant contact with the sidesof the scroll spirals and the total absence of discharge and suctionvalves. Each compressor will be equipped with a check valve onthe discharge to mantain the pump-down condition and henceavoid the migration of the refrigerating gas from the condenser tothe evaporator. Will incorporate semi-hermetic reciprocating com-pressors consisting of multiple cylinders with suction and dischargevalves. The forced lubrication of the crankshaft bearings and of thebig end bearings will be achieved by using a gear pump which isindependent of the compressors direction of rotation. Thecrankshaft of each compressor will be statically and dynamicallybalanced. In addition, each compressor will be fitted with oildifferential pressure switch. Each scroll or reciprocating compres-sor will be charged with the necessary quantity of lubricant andsupplied with the following accessories as standard: sump heater,electric motor protection module, discharge and suction shut-offvalves (optional for reciprocating).Evaporator - the units will be supplied with (1) direct expansionevaporator with refrigerant inside the tubes and water outside,(shell side) with carbon steel tube sheets, with straight copper tu-bes that are spirally wound internally for higher efficiencies, expan-ded on the tube plates. Each evaporator will have two refrigerantcircuits one for each compressor. Testing and operation pressure,refrig. side working pressure 15 Bar and water side 10 Bar.Condenser coil - the condenser coils are constructed with inter-nally enchanced seamless copper tubes having a "V" and "W" con-figuration and arranged in a staggered row pattern and mechani-cally expanded into lanced and rippled aluminium fins with full fincollars for higher efficiencies. The spacing between the fins are gi-ven by a collar that will increase the surface area in connectionwith the tubes, protecting them from ambient corrosion. The coilswill have an integral sybcooler circuit which provides sufficient sub-cooling to effectively eliminate the possibility of liquid flashing andincrease the units efficiency of +5 -7% without an increase in powerabsorbed, and the surface area will be dimensioned in a way to
permit an air velocity not greater than 2,5 m/sec. Leak tested at 10Bar and pressure tested at 30 Bar.Condenser fans - the fans are used in conjunction with the con-denser coils, they are of the impeller type with aerofoil polypropyle-ne blades for higher efficiencies and lower noise. The air dischargeis vertical and each fan will be coupled to the electrical motor, with
the casing made in aluminium and supplied as standard totalyenclosed with 6 poles and capable to work to ambient temperaturesof -40C to +55C. Each fan will be controlled by the condensingpressure of the relevent cooling circuit. There is also an accidentprotection within the motors. Condenser motors with Class F mo-tors. Cast aluminium condenser fan blades will be supplied asoption.Thermostatic expansion valve - each refrigerant circuit will beequipped with all the necessary components in order to ensure theworkings and service (dehydration filter, liquid sight glass, shut offvalve, load connection and pressure switch etc). Thermostatic ex-pansion valve regulates the injection of refrigerant liquid intoevaporators. Injection is controlled by the refrigerant superheat.Control panel- field power connection, control interlock terminals,and unit control system shall be centrally located in a weatherproof
cabinet accessible through a key locked door. Power and startingcontrols shall be separate from safety and operating controls in dif-ferent compartments of the same panel.Power and starting com-partment shall be protected by a plastic cover. Power and startingcontrols shall include fuses and contactors for each compressorwinding and fan motors. Operating and safety controls shall includeenergy saving control; emergency stop switch; solid-state protec-tion for compressor motor; differential oil pressure safety switch (foreach compressor); high and low pressure cut-out switch (for eachrefrigerant circuit); anti-freeze thermostat; compressor lead-lagswitch; cut-out switch for each compressor; operating hour meter(for each compressor).Regulation of cooling capacity - each unit will have a controllerfor the control and operation of the unit with 4, 6 or 8 steps of capa-city control depending on the number of compressors. All of the in-formation regarding the unit will be reported on the controller dis-play with 32 characters and with the internal built in calender andclock this will switch the unit ON/OFF during day time all year long.The microprocessor permits a "soft start" function throughout an ex-ternal signal will allow a load reduction of the unit when there arepeaks of absorbed current. In addition a connection to a BMSsystem can be made via an "open protocol" or an interface via amodem to a personnal computer. All general alarms can be memo-rised by an easy analysis of the faults and their causes.High and low temperature function - the units will be providedwith an automatic control for condensing pressure which ensuresthe working at low external temperatures down to +5C, because ofthe working cycle of the condenser fans, in respect to the conden-sing pressure. The unit needs to be able to work with high external
ambient temperatures up to 52
C and capable of starting at 46
C atfully loaded condition. Low temperature starting with fantrol (stan-dard) will be less than 0C and with speedtrol (option) this will be-18 CRefrigerant piping- refrigerant circuit shall include a factory insu-lated suction line, manual liquid line shut-off valve with chargingconnection; refrigerant filter drier with replaceable core; liquid sightglass/moisture indicator; liquid line solenoid valve; thermostatic ex-pansion valve, and 27 bar relief valve. Records for the refrigerantpressure manometer and oil will be placed inside the control cabi-net. Flexible refrigerant piping hot gas muffler, though not required,can also be offered as option.
Technical specification