Cylindrical cased axial flow fans THGT CYLINDRICAL CASED AXIAL FLOW FANS THGT Series Adjustable Pitch F400-120, F300-120 and F200-120 Rated Fans A P P L I C A T I O N S Car Parks Industrial kitchens Officially approved to EN12101-3 standard (cer- tificate number 0370-CPD-0348) Officially approved to EN12101-3 standard (certifi- cate number 0370-CPD-0742) Officially approved to EN12101-3 standard (certifi- cate number 0370-CPD-0349) ON REQUEST ON REQUEST Long casing (L version) Short casing Highly versatile range due to different number of available blades and adjustable pitch angles Pitch angle Range of adjustable pitch aerofoil blade, cased axial flow fans designed for smoke extract in fire conditions and certi- fied F400-120, F300-120 and F200-120 (CE marked). Casings formed from rolled sheet steel with a corro- sion resistant hot dipped galvanised finish for all models. All models F400-120 except 2 poles incorporate separate high grade die-cast aluminium blades locked within an aluminium injected hub (diameters from 400 to 630) or a pressed sheet steel hub. (diameters from 710 to 1250). F300-120 and F200-120 models incorporate an alu- minium injected hub (diameters from 400 to 800) or a pressed sheet steel hub. (diameters from 900 to 1250). 2 POLES F400-120 model with aluminium impeller / hub formed from a one piece casting. All models are available in both short and long (L) casing versions except 2 poles F400-120 model only supplied with long casing. Long casing versions (L) include an external terminal box. Suitable for horizontal or vertical mounting installation. Motors Available, depending upon the model: - with three phase motors in 4 or 6 poles. - with three phase two speed motors, 4/8 or 6/12 poles. F400-120 motors are IP55, class H insulation. F300-120 motors are IP55, class H insulation. F200-120 motors are IP55, class F insulation. Electrical supplies: Three phase 230/400V-50Hz up to 3 kW. Three phase 400V-50Hz, for higher power motors and two speed motors. (See characteristics chart). Motors suitable for inverter control. In emergeny opera- tion, direct protected power supply. Additional Information Standard air direction: form (B) configuration (Impeller over Motor). On request Air direction: form (A) configuration (Motor over Impeller). Short casing versions with external terminal box (K) (Ø from 710 to 1250). Long casing with inspection door (LP). NEW MODELS Impellers with 3, 5, 6, 7 or 9 blades with adjustable pitch angles, allowing the most optimum selection to achieve with every kind of installation requirements.
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CYLINDRICAL CASED AXIAL FLOW FANS THGT Series · 2011. 12. 22. · to EN12101-3 standard (certifi-cate number 0370-CPD-0741) Cased axial fan rated F400-120 for smoke extract in fire
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TH
GT
CYLINDRICAL CASED AXIAL FLOW FANS
THGT SeriesAdjustable Pitch F400-120, F300-120 and F200-120 Rated Fans
A P P L I C A T I O N S
Car Parks Industrial kitchens
Officially approved to EN12101-3 standard (cer-tificate number 0370-CPD-0348)
1 - : Product range2 - : Number of poles3 - : Diameters4 - : Number of blades5 - : Blade pitch angle6 - : Airflow direction7 - : Long casing8 - : Motor Power
Technical characteristics - MOTORS F400-120
Technical Characteristics - 2 POLES - 2950 rpm (Impeller from one piece)
THGT 1 speed models
Before installation check that the product electrical characteristics listed on the data plate label (Voltage, power, frequency etc) match those of the intended electrical supply.
Before installation check that the product electrical characteristics listed on the data plate label (Voltage, power, frequency etc) match those of the intended electrical supply.
Before installation check that the product electrical characteristics listed on the data plate label (Voltage, power, frequency etc) match those of the intended electrical supply.
Model Support feet (Horizontal) Support feet (Vertical) Back draft
shutter
Circular sound
attenuator
Attenuator with
acoustic pod
Antivibration mount
400 PIE SOPORTE TGT/THGT-400 PIE SOPORTE TGT/THGT-400 V - SIL CZ 400 SIL CZO 400
Divide the totalweight of the fan by
4, as you need 4antivibration mounts
per unit. (see the tablein the mounting
accesories).
450 PIE SOPORTE TGT/THGT-450 PIE SOPORTE TGT/THGT-450 V CLAR-450 SIL CZ 450 SIL CZO 450
500 PIE SOPORTE TGT/THGT-500 PIE SOPORTE TGT/THGT-500 V CLAR-500 SIL CZ 500 SIL CZO 500
560 PIE SOPORTE TGT/THGT-560 PIE SOPORTE TGT/THGT-560 V CLAR 560 SIL CZ 560 SIL CZO 560
630 PIE SOPORTE TGT/THGT-630 PIE SOPORTE TGT/THGT-630 V CLAR 630 SIL CZ 630 SIL CZO 630
710 PIE SOPORTE TGT/THGT-710 PIE SOPORTE TGT/THGT-710 V CLAR 710 SIL CZ 710 SIL CZO 710
800 PIE SOPORTE TGT/THGT-800 PIE SOPORTE TGT/THGT-800 V CLAR 800 SIL CZ 800 SIL CZO 800
900 PIE SOPORTE TGT/THGT-900 PIE SOPORTE TGT/THGT-900 V CLAR 900 SIL CZ 900 SIL CZO 900
1000 PIE SOPORTE TGT/THGT-1000 PIE SOPORTE TGT/THGT-1000 V CLAR 1000 SIL CZ 1000 SIL CZO 1000
1250 PIE SOPORTE TGT/THGT-1250 PIE SOPORTE TGT/THGT-1250 V CLAR 1250 SIL CZ 1250 SIL CZO 1250
Full details on the pages of MOUNTING ACCESSORIES.
Outlet grille
Flexible flange connector
Ducting
OUTLET
Back draft shutter
Matching flangeSupport feet
Matching flange Ducting
Flexible flange connector
Inlet grille
Inlet adapter protection guard
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GT
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Performance curves - 2 pole motors - THGT F400
Acoustic characteristics
– Q = Air volume in m3/hr.– Ps = Static pressure in Pa.– Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99 Standards.
Sound power spectrum: The sound levels shown in these tables are sound power levels at the outlet and inlet, in dB(A) for frequency ranges at three points of the curve: A- free outlet, B- medium pressure, C- maximum pressure.
THE SOUND LEVEL VALUES DETAILED IN THEPERFORMANCE CURVES CORRESPOND TO SOUND
POWER LEVELS (LW) MEASURED IN DB(A).TO CONVERT THIS DATA INTO SOUND PRESSURE
– Q = Air volume in m3/hr.– Ps = Static pressure in Pa.– Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99 Standards.
Sound power spectrum: The sound levels shown in these tables are sound power levels at the outlet and inlet, in dB(A) for frequency ranges at three points of the curve: A- free outlet, B- medium pressure, C- maximum pressure.
THE SOUND LEVEL VALUES DETAILED IN THEPERFORMANCE CURVES CORRESPOND TO SOUND
POWER LEVELS (LW) MEASURED IN DB(A).TO CONVERT THIS DATA INTO SOUND PRESSURE
– Q = Air volume in m3/hr.– Ps = Static pressure in Pa.– Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99 Standards.
Sound power spectrum: The sound levels shown in these tables are sound power levels at the outlet and inlet, in dB(A) for frequency ranges at three points of the curve: A- free outlet, B- medium pressure, C- maximum pressure.
THE SOUND LEVEL VALUES DETAILED IN THEPERFORMANCE CURVES CORRESPOND TO SOUND
POWER LEVELS (LW) MEASURED IN DB(A).TO CONVERT THIS DATA INTO SOUND PRESSURE
LEVEL VALUES (LP DB(A)).
Performance curves - 2 pole motors - THGT F400
Ps
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GT
Acoustic characteristics
– Q = Air volume in m3/hr.– Ps = Static pressure in Pa.– Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99 Standards.
Sound power spectrum: The sound levels shown in these tables are sound power levels at the outlet and inlet, in dB(A) for frequency ranges at three points of the curve: A- free outlet, B- medium pressure, C- maximum pressure.
THE SOUND LEVEL VALUES DETAILED IN THEPERFORMANCE CURVES CORRESPOND TO SOUND
POWER LEVELS (LW) MEASURED IN DB(A).TO CONVERT THIS DATA INTO SOUND PRESSURE
LEVEL VALUES (LP DB(A)).
Performance curves - 2 pole motors - THGT F400
Ps
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GT
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Acoustic characteristics
– Q = Air volume in m3/hr.– Ps = Static pressure in Pa.– Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99 Standards.
Sound power spectrum: The sound levels shown in these tables are sound power levels at the outlet and inlet, in dB(A) for frequency ranges at three points of the curve: A- free outlet, B- medium pressure, C- maximum pressure.
THE SOUND LEVEL VALUES DETAILED IN THEPERFORMANCE CURVES CORRESPOND TO SOUND
POWER LEVELS (LW) MEASURED IN DB(A).TO CONVERT THIS DATA INTO SOUND PRESSURE
LEVEL VALUES (LP DB(A)).
Performance curves - 2 pole motors - THGT F400
Ps
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GT
Example of selecting THGT/ TGT fans
– Q = Air volume in, m3/hr and m3/s.– Ps = Static pressure in mmWG and Pa.– Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99
- With the required volume and pressure calculated, trace along the vertical axis (against volume value: 40,000 m3/h) and horizontal axis (against pressure value: 23.4 mmWG) to the point of intersection as shown. This intersection point lies on the fan curve (green line) with 18º blade pitch angle. From this point we can also approximate the sound power level as being 99 dB(A), as this value lies between 100 dB(A) and 98 dB(A).
- On the same graphic, the intersection point with the red line gives the dynamic pressure with 12.4 mmWG.
- On the bottom part of the graphic, the intersection point with the fan curve (18º) gives, on the left scale, the absorbed power (4,768W) at the motor shaft. We recommend to apply a 10% security margin on this value to select the motor power (horizontal red line directly above this value and corresponding with the recommended power motor shown on the right scale – 5,5kW)
- Depending on the noise area (A, B, C), to obtain the sound power level spectrum, subtract the correction factors corresponding on the area (in this case B) from the global value lain on the graph (99 dB(A)).
THE SOUND LEVEL VALUES DETAILED IN THE PERFORMANCE
CURVES CORRESPOND TO SOUND POWER LEVELS (LW)
MEASURED IN DB(A). TO CONVERT THIS DATA INTO SOUND
PRESSURE LEVEL VALUES (LP DB(A)).
THGT / TGT
Number of poles 4
Nominal diameter (mm) 1000
Number of blades 3
THGT/4-1000-3/_°-_ kWTGT/4-1000-3/_°-_ kW
Recommendedmotor power (kW)Absorbed power (W)
PsmmWGPa
Hz A B C
63 22 20 18
125 19 19 17
250 13 11 12
500 6 5 6
1000 4 5 5
2000 6 7 6
4000 11 13 12
8000 18 20 20
The resulting model would be THGT/4-1000/3-18-5,5 kW TGT/4-1000/3-18-5,5 kW
– Q = Air volume in, m3/hr and m3/s.– Ps = Static pressure in mmWG and Pa. – Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99 Standards.
THE SOUND LEVEL VALUES DETAILED IN THEPERFORMANCE CURVES CORRESPOND TO SOUND
POWER LEVELS (LW) MEASURED IN DB(A).TO CONVERT THIS DATA INTO SOUND PRESSURE
LEVEL VALUES (LP DB(A)).
THGT F200 - F300 / TGT
Number of poles 2
Nominal diameter (mm) 400
Number of blades 6
TGT/2-400-6/_°-_ kWTHGT/2-400-6/_°-_ kW
80
70
60
50
40
30
20
10
0
800
700
600
500
400
300
200
100
0
PePa mm.c.d.a.
Absorbed power (W)
mmWGPs
Recommendedmotor power (kW)
Hz A B C
63 42 43 36
125 29 30 23
250 17 17 14
500 8 6 8
1000 4 4 5
2000 5 6 5
4000 9 10 8
8000 17 19 14
Table of correction factors for thecalculation of the sound powerlevel spectrum.
– Q = Air volume in, m3/hr and m3/s.– Ps = Static pressure in mmWG and Pa. – Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99 Standards.
THE SOUND LEVEL VALUES DETAILED IN THEPERFORMANCE CURVES CORRESPOND TO SOUND
POWER LEVELS (LW) MEASURED IN DB(A).TO CONVERT THIS DATA INTO SOUND PRESSURE
LEVEL VALUES (LP DB(A)).
THGT F200 - F300 / TGT
THGT series only F200 and F300
Number of poles 2
Nominal diameter (mm) 450
Number of blades 6
TGT/2-450-6/_°-_ kWTHGT/2-450-6/_°-_ kW
90
80
70
60
50
40
30
20
10
0
900
800
700
600
500
400
300
200
100
0
PePa mm.c.d.a.
Absorbed power (W)
mmWG
Recommendedmotor power (kW)
Hz A B C
63 42 43 36
125 29 30 23
250 17 17 14
500 8 6 8
1000 4 4 5
2000 5 6 5
4000 9 10 8
8000 17 19 14
Table of correction factors for thecalculation of the sound powerlevel spectrum.
Table of correction factors for thecalculation of the sound powerlevel spectrum.
– Q = Air volume in, m3/hr and m3/s.– Ps = Static pressure in mmWG and Pa. – Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99 Standards.
THE SOUND LEVEL VALUES DETAILED IN THEPERFORMANCE CURVES CORRESPOND TO SOUND
POWER LEVELS (LW) MEASURED IN DB(A).TO CONVERT THIS DATA INTO SOUND PRESSURE
Table of correction factors for thecalculation of the sound powerlevel spectrum.
– Q = Air volume in, m3/hr and m3/s.– Ps = Static pressure in mmWG and Pa. – Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99 Standards.
THE SOUND LEVEL VALUES DETAILED IN THEPERFORMANCE CURVES CORRESPOND TO SOUND
POWER LEVELS (LW) MEASURED IN DB(A).TO CONVERT THIS DATA INTO SOUND PRESSURE
LEVEL VALUES (LP DB(A)).
Absorbed power (W)
Ps
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THGT F200 - F300 / TGT
Table of correction factors for thecalculation of the sound powerlevel spectrum.
Number of poles 2
Nominal diameter (mm) 630
Number of blades 6
TGT/2-630-6/_°-_ kWTHGT/2-630-6/_°-_ kW
90
100
110
120
130
140
150
160
80
70
60
50
40
30
20
10
0
900
1000
1100
1200
1300
1400
1500
1600
800
700
600
500
400
300
200
100
0
PePa mm.c.d.a.mmWG
Recommendedmotor power (kW)
THGT series only F200 and F300
Hz A B C
63 42 43 36
125 29 30 23
250 17 17 14
500 8 6 8
1000 4 4 5
2000 5 6 5
4000 9 10 8
8000 17 19 14
– Q = Air volume in, m3/hr and m3/s.– Ps = Static pressure in mmWG and Pa. – Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99 Standards.
THE SOUND LEVEL VALUES DETAILED IN THEPERFORMANCE CURVES CORRESPOND TO SOUND
POWER LEVELS (LW) MEASURED IN DB(A).TO CONVERT THIS DATA INTO SOUND PRESSURE
– Q = Air volume in, m3/hr and m3/s.– Ps = Static pressure in mmWG and Pa. – Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99 Standards.
THE SOUND LEVEL VALUES DETAILED IN THEPERFORMANCE CURVES CORRESPOND TO SOUND
POWER LEVELS (LW) MEASURED IN DB(A).TO CONVERT THIS DATA INTO SOUND PRESSURE
LEVEL VALUES (LP DB(A)).
THGT / TGT
Number of poles 4
Nominal diameter (mm) 400
Number of blades 6
THGT/4-400-6/_º-_KW TGT/4-400-6/_º-_KW
(*) Only TGT Series. For THGT motor 0,55
16
18
20
14
12
10
8
6
4
2
0
160
180
200
140
120
100
80
60
40
20
0
PePa mm.c.d.a.
0,25*
Recommendedmotor power (kW)
mmWG
Absorbed power (W)
Ps
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18
20
22
24
26
14
12
10
8
6
4
2
0
160
180
200
220
240
260
140
120
100
80
60
40
20
0
PePa mm.c.d.a.
Performance curves - 4 pole motors - THGT / TGT
Recommendedmotor power (kW)
THGT / TGT
Number of poles 4
Nominal diameter (mm) 450
Number of blades 6
THGT/4-450-6/_°-_ kWTGT/4-450-6/_°-_ kW
0,37*
0,25*
(*) Only TGT series
mmWG
Table of correction factors for thecalculation of the sound powerlevel spectrum.
Hz A B C
63 38 38 31
125 22 21 19
250 12 9 12
500 5 5 6
1000 4 5 5
2000 7 8 6
4000 13 14 11
8000 21 23 19
– Q = Air volume in, m3/hr and m3/s.– Ps = Static pressure in mmWG and Pa. – Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99 Standards.
THE SOUND LEVEL VALUES DETAILED IN THEPERFORMANCE CURVES CORRESPOND TO SOUND
POWER LEVELS (LW) MEASURED IN DB(A).TO CONVERT THIS DATA INTO SOUND PRESSURE
LEVEL VALUES (LP DB(A)).
Absorbed power (W)
Ps
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GT
16
18
20
22
24
26
28
30
14
12
10
8
6
4
2
0
160
180
200
220
240
260
280
300
140
120
100
80
60
40
20
0
PePa mm.c.d.a.
Performance curves - 4 pole motors - THGT / TGT
Recommendedmotor power (kW)
THGT / TGT
Number of poles 4
Nominal diameter (mm) 500
Number of blades 6
THGT/4-500-6/_°-_ kWTGT/4-500-6/_°-_ kW
mmWG
Table of correction factors for thecalculation of the sound powerlevel spectrum.
Hz A B C
63 38 38 31
125 22 21 19
250 12 9 12
500 5 5 6
1000 4 5 5
2000 7 8 6
4000 13 14 11
8000 21 23 19
– Q = Air volume in, m3/hr and m3/s.– Ps = Static pressure in mmWG and Pa. – Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99 Standards.
THE SOUND LEVEL VALUES DETAILED IN THEPERFORMANCE CURVES CORRESPOND TO SOUND
POWER LEVELS (LW) MEASURED IN DB(A).TO CONVERT THIS DATA INTO SOUND PRESSURE
LEVEL VALUES (LP DB(A)).
Absorbed power (W)
Ps
TH
GT
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16
18
20
22
24
26
28
30
32
34
14
12
10
8
6
4
2
0
160
180
200
220
240
260
280
300
320
340
140
120
100
80
60
40
20
0
PePa mm.c.d.a.
Recommendedmotor power (kW)
THGT / TGT
Table of correction factors for the calculation of the sound power level spectrum.
Number of poles 4
Nominal diameter (mm) 560
Number of blades 6
THGT/4-560-6/_°-_ kWTGT/4-560-6/_°-_ kW
mmWG
Hz A B C
63 38 38 31
125 22 21 19
250 12 9 12
500 5 5 6
1000 4 5 5
2000 7 8 6
4000 13 14 11
8000 21 23 19
– Q = Air volume in, m3/hr and m3/s.– Ps = Static pressure in mmWG and Pa. – Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99 Standards.
THE SOUND LEVEL VALUES DETAILED IN THEPERFORMANCE CURVES CORRESPOND TO SOUND
POWER LEVELS (LW) MEASURED IN DB(A).TO CONVERT THIS DATA INTO SOUND PRESSURE
LEVEL VALUES (LP DB(A)).
Performance curves - 4 pole motors - THGT / TGT Performance curves - 4 pole motors - THGT / TGT
Absorbed power (W)
Ps
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TH
GT
Table of correction factors for the calculation of the sound power level spectrum.
THGT / TGT
Number of poles 4
Nominal diameter (mm) 630
Number of blades 6
THGT/4-630-6/_°-_ kWTGT/4-630-6/_°-_ kW
mm.c.d.aPst (Pa)
Recommendedmotor power (kW)
PsPa mmWG
Hz A B C
63 38 38 31
125 22 21 19
250 12 9 12
500 5 5 6
1000 4 5 5
2000 7 8 6
4000 13 14 11
8000 21 23 19
– Q = Air volume in, m3/hr and m3/s.– Ps = Static pressure in mmWG and Pa. – Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99 Standards.
THE SOUND LEVEL VALUES DETAILED IN THEPERFORMANCE CURVES CORRESPOND TO SOUND
POWER LEVELS (LW) MEASURED IN DB(A).TO CONVERT THIS DATA INTO SOUND PRESSURE
LEVEL VALUES (LP DB(A)).
Absorbed power (W)
Performance curves - 4 pole motors - THGT / TGT
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B C
0 5000 10000 15000 20000 25000 30000 Q (m3/h)
1 2 3 4 5 6 7 8 Q (m3/s)
0
5
10
15
20
25
30
35
40
mm.c.d.a
0
50
100
150
200
250
300
350
400
Pe (Pa)
8°
14°
16°
18°
20°24°22°
26° 28° 30°32°
0 5000 10000 15000 20000 25000 30000 Q (m3/h)0
400
800
1200
1600
2000
2400
2800
3200
Pabs (W)
0.75
1.1
1.5
2.2
3
PotenciaMotor(kW)RecomendadaPotenciaAbsorbida (W)
32°30°
28°26°
24°22°
20°18°
16°14°
12°10°
8°
9189889092
91LwdB(A)89889192
90919389
12°
10°
92
Número de polos 4
Diámetro nominal (mm) 710
Número de palas 3
THGT F300-F200/ TGT
Hz A B C
63 22 22 22
125 19 19 19
250 13 13 13
500 6 6 6
1000 4 4 4
2000 6 6 6
4000 11 11 11
8000 18 18 18
Recommendedmotor power (kW)
THGT F200-F300 / TGT
Number of poles 4
Nominal diameter (mm) 710
Number of blades 3
THGT/4-710-3/_°-_ kWTGT/4-710-3/_°-_ kW
mmWGPs
Pa
Table of correction factors for the calculation of the sound power level spectrum.
Hz A B C
63 22 22 22
125 19 19 19
250 13 13 13
500 6 6 6
1000 4 4 4
2000 6 6 6
4000 11 11 11
8000 18 18 18
NEWOnly TGT, THGT F200 and F300
– Q = Air volume in, m3/hr and m3/s.– Ps = Static pressure in mmWG and Pa. – Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99 Standards.
THE SOUND LEVEL VALUES DETAILED IN THEPERFORMANCE CURVES CORRESPOND TO SOUND
POWER LEVELS (LW) MEASURED IN DB(A).TO CONVERT THIS DATA INTO SOUND PRESSURE
– Q = Air volume in, m3/hr and m3/s.– Ps = Static pressure in mmWG and Pa. – Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99 Standards.
THE SOUND LEVEL VALUES DETAILED IN THEPERFORMANCE CURVES CORRESPOND TO SOUND
POWER LEVELS (LW) MEASURED IN DB(A).TO CONVERT THIS DATA INTO SOUND PRESSURE
LEVEL VALUES (LP DB(A)).
Performance curves - 4 pole motors - THGT
Number of poles 4
Nominal diameter (mm) 710
Number of blades 5
Table of correction factors for the calculation of the sound power level spectrum.
Hz A B C
63 38 38 31
125 22 21 19
250 12 9 12
500 6 5 6
1000 5 5 5
2000 7 8 6
4000 13 14 11
8000 21 23 19
THGT/4-710-5/_°-_ kW
A
B C
0 5000 10000 15000 20000 25000 30000 Q (m3/h)
1 2 3 4 5 6 7 8 Q (m3/s)
0
5
10
15
20
25
30
35
40
45
50
55
60
mm.c.d.a
0
50
100
150
200
250
300
350
400
450
500
550
600Pe (Pa)
8°14°
16°
18°
20°
24°
22°
26°28°30°32°
0 5000 10000 15000 20000 25000 30000 Q (m3/h)0
500
1000
1500
2000
2500
3000
3500
4000Pabs (W)
1.1
1.5
2.2
3
4
PotenciaMotor(kW)RecomendadaPotenciaAbsorbida(W)
32°30°
28°26°
24°22°20°
18°16°14°12°
10°8°
9291919393
93LwdB(A)91919493
92939691
12°10°
93
PaPs
mmCETHGT
mmWGPa
Recommendedmotor power (kW)Absorbed power (W)
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A
B C
0 5000 10000 15000 20000 25000 30000 Q (m3/h)
1 2 3 4 5 6 7 8 Q (m3/s)
0
5
10
15
20
25
30
35
40
45
50
55
60
mm.c.d.a
0
50
100
150
200
250
300
350
400
450
500
550
600
Pe (Pa)
8°14°
16°
18°
20°
24°
22°
26°28°30°32°
0 5000 10000 15000 20000 25000 30000 Q (m3/h)0
500
1000
1500
2000
2500
3000
3500
4000
Pabs (W)
0.75
1.1
1.5
2.2
3
4
PotenciaMotor(kW)RecomendadaPotenciaAbsorbida (W)
32°
30°
28°26°
24°22°
20°
18°16°
14°12°
10°8°
9291919393
93LwdB(A)91919493
92939691
12°10°
93
Número de polos 4
Diámetro nominal (mm) 710
Número de palas 6
THGT F300-F200/ TGT
Hz A B C
63 38 38 31
125 22 21 19
250 12 9 12
500 6 5 6
1000 5 5 5
2000 7 8 6
4000 13 14 11
8000 21 23 19
THGT F200-F300 / TGT
Table of correction factors for the calculation of the sound power level spectrum.
Number of poles 4
Nominal diameter (mm) 710
Number of blades 6
THGT/4-710-6/_°-_ kWTGT/4-710-6/_°-_ kW
mmWGPs
Pa
Hz A B C
63 38 38 31
125 22 21 19
250 12 9 12
500 6 5 6
1000 5 5 5
2000 7 8 6
4000 13 14 11
8000 21 23 19
NEWOnly TGT, THGT F200 and F300
– Q = Air volume in, m3/hr and m3/s.– Ps = Static pressure in mmWG and Pa. – Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99 Standards.
THE SOUND LEVEL VALUES DETAILED IN THEPERFORMANCE CURVES CORRESPOND TO SOUND
POWER LEVELS (LW) MEASURED IN DB(A).TO CONVERT THIS DATA INTO SOUND PRESSURE
Table of correction factors for the calculation of the sound power level spectrum.
Number of poles 4
Nominal diameter (mm) 710
Number of blades 7
THGT/4-710-_/_°-_ kWTGT/4-710-_/_°-_ kW
Recommendedmotor power (kW)
Hz A B C
63 38 38 31
125 22 21 19
250 12 9 12
500 5 5 6
1000 4 5 5
2000 7 8 6
4000 13 14 11
8000 21 23 19
THGT series only F400
– Q = Air volume in, m3/hr and m3/s.– Ps = Static pressure in mmWG and Pa. – Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99 Standards.
THE SOUND LEVEL VALUES DETAILED IN THEPERFORMANCE CURVES CORRESPOND TO SOUND
POWER LEVELS (LW) MEASURED IN DB(A).TO CONVERT THIS DATA INTO SOUND PRESSURE
LEVEL VALUES (LP DB(A)).
mmWGPs
Pa
Performance curves - 4 pole motors - THGT F400
Absorbed power (W)
TH
GT
Cyl
ind
rica
l cas
ed a
xial
flo
w f
ans
THGT / TGT
Table of correction factors for the calculation of the sound power level spectrum.
Number of poles 4
Nominal diameter (mm) 800
Number of blades 3
THGT/4-800-3/_°-_ kWTGT/4-800-3/_°-_ kW
Performance curves - 4 pole motors - THGT / TGT
Recommendedmotor power (kW)
Hz A B C
63 22 20 18
125 19 19 17
250 13 11 12
500 6 5 6
1000 4 5 5
2000 6 7 6
4000 11 13 12
8000 18 20 20
– Q = Air volume in, m3/hr and m3/s.– Ps = Static pressure in mmWG and Pa. – Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99 Standards.
THE SOUND LEVEL VALUES DETAILED IN THEPERFORMANCE CURVES CORRESPOND TO SOUND
POWER LEVELS (LW) MEASURED IN DB(A).TO CONVERT THIS DATA INTO SOUND PRESSURE
LEVEL VALUES (LP DB(A)).
Absorbed power (W)
mmWGPs
Pa
Cyl
ind
rica
l cas
ed a
xial
flo
w f
ans
TH
GT
THGT / TGT
Number of poles 4
Nominal diameter (mm) 800
Number of blades 6
THGT/4-800-6/_°-_ kWTGT/4-800-6/_°-_ kW
Performance curves - 4 pole motors - THGT / TGT
Recommendedmotor power (kW)
Table of correction factors for the calculation of the sound power level spectrum.
Hz A B C
63 38 38 31
125 22 21 19
250 12 9 12
500 5 5 6
1000 4 5 5
2000 7 8 6
4000 13 14 11
8000 21 23 19
– Q = Air volume in, m3/hr and m3/s.– Ps = Static pressure in mmWG and Pa. – Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99 Standards.
THE SOUND LEVEL VALUES DETAILED IN THEPERFORMANCE CURVES CORRESPOND TO SOUND
POWER LEVELS (LW) MEASURED IN DB(A).TO CONVERT THIS DATA INTO SOUND PRESSURE
LEVEL VALUES (LP DB(A)).
Absorbed power (W)
mmWGPs
Pa
TH
GT
Cyl
ind
rica
l cas
ed a
xial
flo
w f
ans
THGT / TGT
Number of poles 4
Nominal diameter (mm) 800
Number of blades 9
THGT/4-800-9/_°-_ kWTGT/4-800-9/_°-_ kW
Performance curves - 4 pole motors - THGT / TGT
Recommendedmotor power (kW)
Table of correction factors for the calculation of the sound power level spectrum.
Hz A B C
63 40 38 32
125 26 19 19
250 14 9 11
500 6 5 7
1000 4 5 5
2000 7 7 6
4000 12 13 10
8000 20 21 17
– Q = Air volume in, m3/hr and m3/s.– Ps = Static pressure in mmWG and Pa. – Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99 Standards.
THE SOUND LEVEL VALUES DETAILED IN THEPERFORMANCE CURVES CORRESPOND TO SOUND
POWER LEVELS (LW) MEASURED IN DB(A).TO CONVERT THIS DATA INTO SOUND PRESSURE
LEVEL VALUES (LP DB(A)).
Absorbed power (W)
mmWGPs
Pa
Cyl
ind
rica
l cas
ed a
xial
flo
w f
ans
TH
GT
THGT / TGT
Number of poles 4
Nominal diameter (mm) 900
Number of blades 6
THGT/4-900-6/_°-_ kWTGT/4-900-6/_°-_ kW
Performance curves - 4 pole motors - THGT / TGT
Recommendedmotor power (kW)
Table of correction factors for the calculation of the sound power level spectrum.
Hz A B C
63 38 38 31
125 22 21 19
250 12 9 12
500 5 5 6
1000 4 5 5
2000 7 8 6
4000 13 14 11
8000 21 23 19
– Q = Air volume in, m3/hr and m3/s.– Ps = Static pressure in mmWG and Pa. – Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99 Standards.
THE SOUND LEVEL VALUES DETAILED IN THEPERFORMANCE CURVES CORRESPOND TO SOUND
POWER LEVELS (LW) MEASURED IN DB(A).TO CONVERT THIS DATA INTO SOUND PRESSURE
LEVEL VALUES (LP DB(A)).
Absorbed power (W)
mmWGPs
Pa
TH
GT
Cyl
ind
rica
l cas
ed a
xial
flo
w f
ans
THGT / TGT
Number of poles 4
Nominal diameter (mm) 900
Number of blades 9
THGT/4-900-9/_°-_ kWTGT/4-900-9/_°-_ kW
Performance curves - 4 pole motors - THGT / TGT
Recommendedmotor power (kW)
Table of correction factors for the calculation of the sound power level spectrum.
Hz A B C
63 40 38 32
125 26 19 19
250 14 9 11
500 6 5 7
1000 4 5 5
2000 7 7 6
4000 12 13 10
8000 20 21 17
– Q = Air volume in, m3/hr and m3/s.– Ps = Static pressure in mmWG and Pa. – Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99 Standards.
THE SOUND LEVEL VALUES DETAILED IN THEPERFORMANCE CURVES CORRESPOND TO SOUND
POWER LEVELS (LW) MEASURED IN DB(A).TO CONVERT THIS DATA INTO SOUND PRESSURE
LEVEL VALUES (LP DB(A)).
Absorbed power (W)
mmWGPs
Pa
Cyl
ind
rica
l cas
ed a
xial
flo
w f
ans
TH
GT
THGT / TGT
Number of poles 4
Nominal diameter (mm) 1000
Number of blades 6
THGT/4-1000-6/_°-_ kWTGT/4-1000-6/_°-_ kW
Performance curves - 4 pole motors - THGT / TGT
Recommendedmotor power (kW)
Hz A B C
63 38 38 31
125 22 21 19
250 12 9 12
500 5 5 6
1000 4 5 5
2000 7 8 6
4000 13 14 11
8000 21 23 19
Table of correction factors for the calculation of the sound power level spectrum.
– Q = Air volume in, m3/hr and m3/s.– Ps = Static pressure in mmWG and Pa. – Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99 Standards.
THE SOUND LEVEL VALUES DETAILED IN THEPERFORMANCE CURVES CORRESPOND TO SOUND
POWER LEVELS (LW) MEASURED IN DB(A).TO CONVERT THIS DATA INTO SOUND PRESSURE
LEVEL VALUES (LP DB(A)).
Absorbed power (W)
mmWGPs
Pa
TH
GT
Cyl
ind
rica
l cas
ed a
xial
flo
w f
ans
THGT / TGT
Number of poles 4
Nominal diameter (mm) 1000
Number of blades 9
THGT/4-1000-9/_°-_ kWTGT/4-1000-9/_°-_ kW
Performance curves - 4 pole motors - THGT / TGT
Recommendedmotor power (kW)
Hz A B C
63 40 38 32
125 26 19 19
250 14 9 11
500 6 5 7
1000 4 5 5
2000 7 7 6
4000 12 13 10
8000 20 21 17
Table of correction factors for the calculation of the sound power level spectrum.
– Q = Air volume in, m3/hr and m3/s.– Ps = Static pressure in mmWG and Pa. – Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99 Standards.
THE SOUND LEVEL VALUES DETAILED IN THEPERFORMANCE CURVES CORRESPOND TO SOUND
POWER LEVELS (LW) MEASURED IN DB(A).TO CONVERT THIS DATA INTO SOUND PRESSURE
LEVEL VALUES (LP DB(A)).
Absorbed power (W)
mmWGPs
Pa
Cyl
ind
rica
l cas
ed a
xial
flo
w f
ans
TH
GT
THGT / TGT
Number of poles 4
Nominal diameter (mm) 1250
Number of blades 6
THGT/4-1250-6/_°-_ kWTGT/4-1250-6/_°-_ kW
Performance curves - 4 pole motors - THGT / TGT
Recommendedmotor power (kW)
Hz A B C
63 38 38 31
125 22 21 19
250 12 9 12
500 5 5 6
1000 4 5 5
2000 7 8 6
4000 13 14 11
8000 21 23 19
Table of correction factors for the calculation of the sound power level spectrum.
– Q = Air volume in, m3/hr and m3/s.– Ps = Static pressure in mmWG and Pa. – Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99 Standards.
THE SOUND LEVEL VALUES DETAILED IN THEPERFORMANCE CURVES CORRESPOND TO SOUND
POWER LEVELS (LW) MEASURED IN DB(A).TO CONVERT THIS DATA INTO SOUND PRESSURE
LEVEL VALUES (LP DB(A)).
Absorbed power (W)
mmWGPs
Pa
TH
GT
Cyl
ind
rica
l cas
ed a
xial
flo
w f
ans
THGT / TGT
Number of poles 4
Nominal diameter (mm) 1250
Number of blades 9
THGT/4-1250-9/_°-_ kWTGT/4-1250-9/_°-_ kW
Performance curves - 4 pole motors - THGT / TGT
Recommendedmotor power (kW)
Hz A B C
63 40 38 32
125 26 19 19
250 14 9 11
500 6 5 7
1000 4 5 5
2000 7 7 6
4000 12 13 10
8000 20 21 17
Table of correction factors for the calculation of the sound power level spectrum.
– Q = Air volume in, m3/hr and m3/s.– Ps = Static pressure in mmWG and Pa. – Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99 Standards.
THE SOUND LEVEL VALUES DETAILED IN THEPERFORMANCE CURVES CORRESPOND TO SOUND
POWER LEVELS (LW) MEASURED IN DB(A).TO CONVERT THIS DATA INTO SOUND PRESSURE
LEVEL VALUES (LP DB(A)).
Absorbed power (W)
mmWGPs
Pa
Cyl
ind
rica
l cas
ed a
xial
flo
w f
ans
TH
GT
THGT / TGT
Number of poles 6
Nominal diameter (mm) 500
Number of blades 6
THGT/6-500-6/_°-_ kW
Performance curves - 6 pole motors - THGT / TGT
9
10
11
12
8
7
6
5
4
3
2
1
0
90
100
110
120
80
70
60
50
40
30
20
10
0
PePa mm.c.d.a.
Recommendedmotor power (kW)
0,37*
(*) Only TGT Series. For THGT motor 0,55.
Hz A B C
63 33 33 28
125 18 15 18
250 9 8 10
500 5 5 5
1000 5 5 5
2000 8 10 7
4000 15 16 13
8000 23 25 21
Table of correction factors for the calculation of the sound power level spectrum.
– Q = Air volume in, m3/hr and m3/s.– Ps = Static pressure in mmWG and Pa. – Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99 Standards.
THE SOUND LEVEL VALUES DETAILED IN THEPERFORMANCE CURVES CORRESPOND TO SOUND
POWER LEVELS (LW) MEASURED IN DB(A).TO CONVERT THIS DATA INTO SOUND PRESSURE
LEVEL VALUES (LP DB(A)).
Absorbed power (W)
Ps
Pa mmWG
TH
GT
Cyl
ind
rica
l cas
ed a
xial
flo
w f
ans
THGT/6-560-6/_°-_ kWTGT/6-560-6/_°-_ kW
THGT / TGT
Number of poles 6
Nominal diameter (mm) 560
Number of blades 6
9
10
11
12
13
14
15
8
7
6
5
4
3
2
1
0
90
100
110
120
130
140
150
80
70
60
50
40
30
20
10
0
PePa mm.c.d.a.
Performance curves - 6 pole motors - THGT / TGT
Recommendedmotor power (kW)
0,37*
(*) Only for TGT series.
PsPa mmWG
Hz A B C
63 33 33 28
125 18 15 18
250 9 8 10
500 5 5 5
1000 5 5 5
2000 8 10 7
4000 15 16 13
8000 23 25 21
Table of correction factors for the calculation of the sound power level spectrum.
– Q = Air volume in, m3/hr and m3/s.– Ps = Static pressure in mmWG and Pa. – Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99 Standards.
THE SOUND LEVEL VALUES DETAILED IN THEPERFORMANCE CURVES CORRESPOND TO SOUND
POWER LEVELS (LW) MEASURED IN DB(A).TO CONVERT THIS DATA INTO SOUND PRESSURE
LEVEL VALUES (LP DB(A)).
Absorbed power (W)
Cyl
ind
rica
l cas
ed a
xial
flo
w f
ans
TH
GT
THGT / TGT
Number of poles 6
Nominal diameter (mm) 630
Number of blades 6
THGT/6-630-6/_°-_ kWTGT/6-630-6/_°-_ kW
18
20
16
14
12
10
8
6
4
2
0
180
200
160
140
120
100
80
60
40
20
0
PePa mm.c.d.a.
Performance curves - 6 pole motors - THGT / TGT
Recommendedmotor power (kW)
0,37*
(*) Only TGT Series.
PsPa mmWG
Hz A B C
63 33 33 28
125 18 15 18
250 9 8 10
500 5 5 5
1000 5 5 5
2000 8 10 7
4000 15 16 13
8000 23 25 21
Table of correction factors for the calculation of the sound power level spectrum.
– Q = Air volume in, m3/hr and m3/s.– Ps = Static pressure in mmWG and Pa. – Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99 Standards.
THE SOUND LEVEL VALUES DETAILED IN THEPERFORMANCE CURVES CORRESPOND TO SOUND
POWER LEVELS (LW) MEASURED IN DB(A).TO CONVERT THIS DATA INTO SOUND PRESSURE
Table of correction factors for the calculation of the sound power level spectrum.
THGT series only F200 and F300
– Q = Air volume in, m3/hr and m3/s.– Ps = Static pressure in mmWG and Pa. – Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99 Standards.
THE SOUND LEVEL VALUES DETAILED IN THEPERFORMANCE CURVES CORRESPOND TO SOUND
POWER LEVELS (LW) MEASURED IN DB(A).TO CONVERT THIS DATA INTO SOUND PRESSURE
LEVEL VALUES (LP DB(A)).
Absorbed power (W)
Cyl
ind
rica
l cas
ed a
xial
flo
w f
ans
TH
GT
Performance curves - 6 pole motors - THGT
– Q = Air volume in, m3/hr and m3/s.– Ps = Static pressure in mmWG and Pa. – Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99 Standards.
THE SOUND LEVEL VALUES DETAILED IN THEPERFORMANCE CURVES CORRESPOND TO SOUND
POWER LEVELS (LW) MEASURED IN DB(A).TO CONVERT THIS DATA INTO SOUND PRESSURE
LEVEL VALUES (LP DB(A)).
Number of poles 6
Nominal diameter (mm) 710
Number of blades 5
Hz A B C
63 33 32 33
125 26 15 15
250 8 7 8
500 5 4 5
1000 5 4 5
2000 10 10 10
4000 17 16 16
8000 25 25 25
THGT
Table of correction factors for the calculation of the sound power level spectrum.
THGT/6-710-5/_°-_ kW
AB C
0 4000 8000 12000 16000 20000 Q (m3/h)
1 2 3 4 5 Q (m3/s)
0
5
10
15
20
25
mm.c.d.a
0
50
100
150
200
250Pe (Pa)
8° 14°16°
18°
20°
24°22°
26°28°30° 32°
0 4000 8000 12000 16000 20000 Q (m3/h)0
200
400
600
800
1000
1200Pabs (W)
0.55
0.75
1.1
PotenciaMotor(kW)RecomendadaPotenciaAbsorbida(W)
32°
30°
28°26°
24°22°
20°18°
16°14°
12°10°8°
8281818282
83LwdB(A)81818382
82838580
12°10°
83
Recommendedmotor power (kW)Absorbed power (W)
mmWGPs
Pa
TH
GT
Cyl
ind
rica
l cas
ed a
xial
flo
w f
ans
THGT F200-F300 / TGT
Table of correction factors for the calculation of the sound power level spectrum.
– Q = Air volume in, m3/hr and m3/s.– Ps = Static pressure in mmWG and Pa. – Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99 Standards.
THE SOUND LEVEL VALUES DETAILED IN THEPERFORMANCE CURVES CORRESPOND TO SOUND
POWER LEVELS (LW) MEASURED IN DB(A).TO CONVERT THIS DATA INTO SOUND PRESSURE
LEVEL VALUES (LP DB(A)).
Absorbed power (W)
Cyl
ind
rica
l cas
ed a
xial
flo
w f
ans
TH
GT
THGT F400
Number of poles 6
Nominal diameter (mm) 710
Number of blades 7
THGT/6-710-_/_°-_ kWTGT/6-710-_/_°-_ kW
Performance curves - 6 pole motors - THGT F400
Recommendedmotor power (kW)
Hz A B C
63 33 33 28
125 18 15 18
250 9 8 10
500 5 5 5
1000 5 5 5
2000 8 10 7
4000 13 16 13
8000 19 25 21
Table of correction factors for the calculation of the sound power level spectrum.
THGT series only F400
– Q = Air volume in, m3/hr and m3/s.– Ps = Static pressure in mmWG and Pa. – Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99 Standards.
THE SOUND LEVEL VALUES DETAILED IN THEPERFORMANCE CURVES CORRESPOND TO SOUND
POWER LEVELS (LW) MEASURED IN DB(A).TO CONVERT THIS DATA INTO SOUND PRESSURE
LEVEL VALUES (LP DB(A)).
Absorbed power (W)
mmWGPs
Pa
TH
GT
Cyl
ind
rica
l cas
ed a
xial
flo
w f
ans
THGT / TGT
Number of poles 6
Nominal diameter (mm) 800
Number of blades 3
THGT/6-800-3/_°-_ kWTGT/6-800-3/_°-_ kW
Performance curves - 6 pole motors - THGT / TGT
Recommendedmotor power (kW)
Hz A B C
63 25 25 22
125 19 17 18
250 11 9 10
500 6 5 6
1000 4 5 4
2000 8 9 8
4000 13 14 14
8000 20 22 23
Table of correction factors for the calculation of the sound power level spectrum.
– Q = Air volume in, m3/hr and m3/s.– Ps = Static pressure in mmWG and Pa. – Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99 Standards.
THE SOUND LEVEL VALUES DETAILED IN THEPERFORMANCE CURVES CORRESPOND TO SOUND
POWER LEVELS (LW) MEASURED IN DB(A).TO CONVERT THIS DATA INTO SOUND PRESSURE
LEVEL VALUES (LP DB(A)).
Absorbed power (W)
mmWGPs
Pa
Cyl
ind
rica
l cas
ed a
xial
flo
w f
ans
TH
GT
THGT / TGT
Number of poles 6
Nominal diameter (mm) 800
Number of blades 6
THGT/6-800-6/_°-_ kWTGT/6-800-6/_°-_ kW
Performance curves - 6 pole motors - THGT / TGT
Recommendedmotor power (kW)
Hz A B C
63 33 33 28
125 18 15 18
250 9 8 10
500 5 5 5
1000 5 5 5
2000 8 10 7
4000 15 16 13
8000 23 25 21
Table of correction factors for the calculation of the sound power level spectrum.
– Q = Air volume in, m3/hr and m3/s.– Ps = Static pressure in mmWG and Pa. – Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99 Standards.
THE SOUND LEVEL VALUES DETAILED IN THEPERFORMANCE CURVES CORRESPOND TO SOUND
POWER LEVELS (LW) MEASURED IN DB(A).TO CONVERT THIS DATA INTO SOUND PRESSURE
LEVEL VALUES (LP DB(A)).
Absorbed power (W)
mmWGPs
Pa
TH
GT
Cyl
ind
rica
l cas
ed a
xial
flo
w f
ans
THGT / TGT
Number of poles 6
Nominal diameter (mm) 800
Number of blades 9
THGT/6-800-9/_°-_ kWTGT/6-800-9/_°-_ kW
Performance curves - 6 pole motors - THGT / TGT
Recommendedmotor power (kW)
Hz A B C
63 37 31 29
125 22 15 16
250 11 8 10
500 5 5 6
1000 4 5 5
2000 9 9 7
4000 14 15 11
8000 22 23 19
Table of correction factors for the calculation of the sound power level spectrum.
– Q = Air volume in, m3/hr and m3/s.– Ps = Static pressure in mmWG and Pa. – Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99 Standards.
THE SOUND LEVEL VALUES DETAILED IN THEPERFORMANCE CURVES CORRESPOND TO SOUND
POWER LEVELS (LW) MEASURED IN DB(A).TO CONVERT THIS DATA INTO SOUND PRESSURE
LEVEL VALUES (LP DB(A)).
Absorbed power (W)
mmWGPs
Pa
Cyl
ind
rica
l cas
ed a
xial
flo
w f
ans
TH
GT
THGT / TGT
Number of poles 6
Nominal diameter (mm) 900
Number of blades 6
THGT/6-900-6/_°-_ kWTGT/6-900-6/_°-_ kW
Performance curves - 6 pole motors - THGT / TGT
Recommendedmotor power (kW)
Hz A B C
63 33 33 28
125 18 15 18
250 9 8 10
500 5 5 5
1000 5 5 5
2000 8 10 7
4000 15 16 13
8000 23 25 21
Table of correction factors for the calculation of the sound power level spectrum.
– Q = Air volume in, m3/hr and m3/s.– Ps = Static pressure in mmWG and Pa. – Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99 Standards.
THE SOUND LEVEL VALUES DETAILED IN THEPERFORMANCE CURVES CORRESPOND TO SOUND
POWER LEVELS (LW) MEASURED IN DB(A).TO CONVERT THIS DATA INTO SOUND PRESSURE
LEVEL VALUES (LP DB(A)).
Absorbed power (W)
mmWGPs
Pa
TH
GT
Cyl
ind
rica
l cas
ed a
xial
flo
w f
ans
THGT / TGT
Number of poles 6
Nominal diameter (mm) 900
Number of blades 9
THGT/6-900-9/_°-_ kWTGT/6-900-9/_°-_ kW
Performance curves - 6 pole motors - THGT / TGT
Recommendedmotor power (kW)
Hz A B C
63 37 31 29
125 22 15 16
250 11 8 10
500 5 5 6
1000 4 5 5
2000 9 9 7
4000 14 15 11
8000 22 23 19
Table of correction factors for the calculation of the sound power level spectrum.
– Q = Air volume in, m3/hr and m3/s.– Ps = Static pressure in mmWG and Pa. – Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99 Standards.
THE SOUND LEVEL VALUES DETAILED IN THEPERFORMANCE CURVES CORRESPOND TO SOUND
POWER LEVELS (LW) MEASURED IN DB(A).TO CONVERT THIS DATA INTO SOUND PRESSURE
LEVEL VALUES (LP DB(A)).
Absorbed power (W)
mmWGPs
Pa
Cyl
ind
rica
l cas
ed a
xial
flo
w f
ans
TH
GT
THGT / TGT
Number of poles 6
Nominal diameter (mm) 1000
Number of blades 6
THGT/6-1000-6/_°-_ kWTGT/6-1000-6/_°-_ kW
Performance curves - 6 pole motors - THGT / TGT
Recommendedmotor power (kW)
Hz A B C
63 33 33 28
125 18 15 18
250 9 8 10
500 5 5 5
1000 5 5 5
2000 8 10 7
4000 15 16 13
8000 23 25 21
Table of correction factors for the calculation of the sound power level spectrum.
– Q = Air volume in, m3/hr and m3/s.– Ps = Static pressure in mmWG and Pa. – Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99 Standards.
THE SOUND LEVEL VALUES DETAILED IN THEPERFORMANCE CURVES CORRESPOND TO SOUND
POWER LEVELS (LW) MEASURED IN DB(A).TO CONVERT THIS DATA INTO SOUND PRESSURE
LEVEL VALUES (LP DB(A)).
Absorbed power (W)
mmWGPs
Pa
TH
GT
Cyl
ind
rica
l cas
ed a
xial
flo
w f
ans
THGT / TGT
Number of poles 6
Nominal diameter (mm) 1000
Number of blades 9
THGT/6-1000-9/_°-_ kWTGT/6-1000-9/_°-_ kW
Performance curves - 6 pole motors - THGT / TGT
Recommendedmotor power (kW)
Hz A B C
63 37 31 29
125 22 15 16
250 11 8 10
500 5 5 6
1000 4 5 5
2000 9 9 7
4000 14 15 11
8000 22 23 19
Table of correction factors for the calculation of the sound power level spectrum.
– Q = Air volume in, m3/hr and m3/s.– Ps = Static pressure in mmWG and Pa. – Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99 Standards.
THE SOUND LEVEL VALUES DETAILED IN THEPERFORMANCE CURVES CORRESPOND TO SOUND
POWER LEVELS (LW) MEASURED IN DB(A).TO CONVERT THIS DATA INTO SOUND PRESSURE
LEVEL VALUES (LP DB(A)).
Absorbed power (W)
mmWGPs
Pa
Cyl
ind
rica
l cas
ed a
xial
flo
w f
ans
TH
GT
THGT / TGT
Number of poles 6
Nominal diameter (mm) 1250
Number of blades 6
THGT/6-1250-6/_°-_ kWTGT/6-1250-6/_°-_ kW
Performance curves - 6 pole motors - THGT / TGT
Recommendedmotor power (kW)
Hz A B C
63 33 33 28
125 18 15 18
250 9 8 10
500 5 5 5
1000 5 5 5
2000 8 10 7
4000 15 16 13
8000 23 25 21
Table of correction factors for the calculation of the sound power level spectrum.
– Q = Air volume in, m3/hr and m3/s.– Ps = Static pressure in mmWG and Pa. – Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99 Standards.
THE SOUND LEVEL VALUES DETAILED IN THEPERFORMANCE CURVES CORRESPOND TO SOUND
POWER LEVELS (LW) MEASURED IN DB(A).TO CONVERT THIS DATA INTO SOUND PRESSURE
LEVEL VALUES (LP DB(A)).
Absorbed power (W)
mmWGPs
Pa
TH
GT
Cyl
ind
rica
l cas
ed a
xial
flo
w f
ans
THGT / TGT
Number of poles 6
Nominal diameter (mm) 1250
Number of blades 9
THGT/6-1250-9/_°-_ kWTGT/6-1250-9/_°-_ kW
Performance curves - 6 pole motors - THGT / TGT
Recommendedmotor power (kW)
Hz A B C
63 37 31 29
125 22 15 16
250 11 8 10
500 5 5 6
1000 4 5 5
2000 9 9 7
4000 14 15 11
8000 22 23 19
Table of correction factors for the calculation of the sound power level spectrum.
– Q = Air volume in, m3/hr and m3/s.– Ps = Static pressure in mmWG and Pa. – Dry air at 20ºC and 760 mmHg.– Performance data in accordance with ISO 5801 and AMCA 210-99 Standards.
THE SOUND LEVEL VALUES DETAILED IN THEPERFORMANCE CURVES CORRESPOND TO SOUND
POWER LEVELS (LW) MEASURED IN DB(A).TO CONVERT THIS DATA INTO SOUND PRESSURE