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A E R Z E N E R M A S C H I N E N F A B R I K
G M B H
A E R Z E N
S C R E W C O M P R E S S O R SAerzen screw compressor packages DELTA SCREW as compact units,
available in two pressure ranges with optimized power consumption
Pressure range 1 up to 3.0 bar (a) VML 18 R to VML 250Pressure range 2 up to 4.5 bar (a) VM 8 R to VM 140
with gearbox or belt drive
V1-018 07 EN3000 1.2007
Technical progressionThe Aerzener Maschinenfabrik GmbH has been manufacturing Screw Compressors since 1943. As the Market Leader in Europe, the company is one of the oldest and largest manufacturers of Roots Blowers and Screw Compressors. Technical expertise, experienced staff and a permanent dialogue with the customers all help to maintain the lead in technology now and for the future.The further development and introduction of the new DELTA SCREW Packages is an answer to the rising demands of our customers and the increasing demands of the future market.
Application fields and useThe units are specifically designed to match practical require-ments in the field. They are the ideal solution for the dry, oil-free and clean compression of air and neutral gases as required e.g. in the following application fields:• pneumatic conveying with air or nitrogen• aeration of sewage basins• homogenising of cement• vacuum production in the glass industry• prevention of ice build-up in harbours and lakes• oil booms• gas-air mixing plants• oxidation air for power stations• stationary unloading of silo vehicles• vacuum production in the paper industry• conveying and compression of neutral gases• blast air for production of spunbonded web
All DELTA SCREW-units can be delivered with ATEX 100 A - certification on customers request.
2
GeneralSingle-stage Aerzen screw compressors are manufactured as air-cooled units for intake volumes from 200 to 15.000 m3/h. Discharge pressures of up to p2 = 3.0 bar and 4.5 bar abs., dry, oil-free compression, temperature limit t2 maximum 250 °C. Vacuum operation is possible with the standard VML-compressors to a maximum of 70% (0.3 bar abs.) and as a modified unit to 85% (0.15 bar abs.).
Driving shaft sealed by peak seals, working maintenance-free in combination with a well-aimed oil-chamber release.
Energy consumptionDepending on the maximum discharge pressure 3+4 or 4+6 screw profiles are used. This results in an optimum use of energy despite other influences such as tolerances, pressure losses at accessories and deflections of the volume flow.
Large or small performances With all units of the DELTA SCREW series, rotor pro-file, internal compression ratio and accessories can be optimized to meet individual requirements.
TechnologyDELTA SCREW units are delivered complete with internal installation, piping and wiring, and are ready for connection to the customer’s system.By using a frequency converter the volume can be regulated over a large range with a ratio of approxi-mately 1:4. Relatively small rotor diameters and low risk of internal contamination preclude any additional imbalances that could increase vibration.Even under difficult operating conditions the calculated bearing lifetime is > 40.000 hours
AdaptabilityDepending on customer requirements the scope of supply can include for example:• Driving motor• Control - and power cabinet• Acoustic hood• Start-up unloading device• Full load / idle running system.
Simple operationAll operation and maintenance elements are acces-sible from one side, this includes instrument panel, oil filter, oil level sight glasses, air - and oil filters and therefore enable a simple operation and maintenance.
ChassisThe base frame for the compressor stages with belt drive has several functions. It is base support for the compressor stage, suction-silencer and oil reservoir in one. That reduces costly installation surface.
Ranges of pressureIn overpressure two discharge pressure ranges are available.VML up to 3,0 bar (a) VM up to 4,5 bar (a)In vacuum pressure:VML up to 0,3 bar (a) up to 0,15 bar (a) with pre-inlet
EfficiencyDuring the whole operating period of the compressor the efficiency remains virtually constant so that no reduction of the conveying capacity will occur.
With belt driveThe belt drive of DELTA SCREW - units is designed so that v-belt tension is constant in all operating conditions. The weight of the motor mounted on a hinged support ensures that the tension of the v-belts is always as it should be.
3
InstallationThe packages are delivered completely assembled, allowing their prompt and trouble-free installation. Installation procedures at site are limited to the con-nection of the power supply and plant piping resp. filling-up of oil. The standard package designed for pressure mode operation sucks in ambient atmos-pheric air through a filter. In vacuum mode and nitrogen operation, the intake filter is substituted by a suction silencer or pipe connection. An additional expansion joint with tie-rods ensures stress-free intake connec-tion to plant piping. The standard package is designed to accept motors having IP 55 type protection.In the case of packages equipped with an acoustic hood, the electrical wiring as well as the motor starter and pushbuttons can be installed in the standard instrument panel. (only applies for machines with gearbox).
DriveThe compressor is normally driven via an electric motor of B 3 design. Other drive configurations (e.g. diesel motor, turbine) are available upon request. When installing an acoustic hood, the following must be considered: - The fan is designed to provide sufficient cooling to maintain a maximum temperature rise within the hood of 10 °C. - The amount of the heat radiated from the compressor package surfaces represents approx. 25 % of the drive power, depending on the particular operating conditions and compressor size. However, some higher heat radiation values can be reached where machines are equipped with an intake throttling regulation valve. The internal pressure losses across the hood amount to max. 100 N/m2. - The ventilation of the acoustic hood is carried out by a mechanically driven fan, which is mounted to an extension of the driving shaft (VML 150/250 electrically driven).
4
Compression process
DischargeThe compression is finished,
the discharge pressureachieved, the discharge starts.
Compression processBy progressing rotation of the rotors
the inlet opening is closed, the volumereduced, the pressure increases.
Suction The gas enters throughthe inlet opening into theopen thread of the rotors.
4
Compression process
DischargeThe compression is finished,
the discharge pressureachieved, the discharge starts.
Compression processBy progressing rotation of the rotors
the inlet opening is closed, the volumereduced, the pressure increases.
Suction The gas enters throughthe inlet opening into theopen thread of the rotors.
5
Construction and design(compressor stage)
Rotors:Profile VML: 3 + 4, VM: 4 + 6, asymmetric dynamically balanced according to DIN ISO 1940 T1, quality G = 2.5
Sealings:VM: conveying chamber: carbon ring labyrinth sealing at suction-and discharge side with chamber rings and neutral chamber. Driving shaft: peak sealVML: conveying chamber: piston rings at suction side, carbon ring labyrinth sealing at discharge side, each with neutral chamber. Driving shaft: peak seal
Materials:housing: grey cast GG 25rotors: steel C 45 Nsealings: Ek 305, steel / carbongear wheels: hardened steel
Bearings:Roller bearings with integrated forced-feed lubrication.
UnitConcerning the Delta Screw units there is always a standardized concept for the package. Two variants are possible:
1. Drive of the compressor stage directly via an inte-grated gearbox.
Arrangement of compressor stage and driving motor one behind the other, installed on a common base frame.
2. Drive of the compressor stage via belt drive.
Arrangement of compressor stage and driving motor side by side, hinged motor plate fixed laterally on the body of the compressor.
Start-up, regulationAs an option the VML-compressors can be provided with a self-controlled start-up unloading device. Upon request, VM-compressors can be supplied with an idling / full load regulation system, e.g. to unload the compressor in the case of star-delta starting, or to reduce energy consumption during intermittent operation (for star-delta starting, please consult the manufacturer first).
female rotor male rotor female rotor male rotor
VML VM
Construction and design (Drive and oil system)
Instrumentation and controlsThe instrumentation panel indicates and controls the following functions:
Belt drive:DriveHeavy-duty narrow V-belt, continuous belt tension due to motor weight
Oil system • oil reservoir integrated in the base frame • oil overflow valve • oil pump driven by female rotor, accessible from the outside • oil cooling as oil-/air cooler incl. oil temperature regulating valve (limited to 90 °C), aeration via mechanical fan on the driving shaft (applies starting from 40 °C intake temperature, cooler block installed on belt guard / hood ventilation) • oil filter as screw- down filter • oil chamber relief via oil demister, installed on the compressor stage
Gearbox: Drive Step-up gearbox integrated on the intake side with closely stepped gear ratios
Oil system • oil reservoir integrated in the compressor housing • oil overflow valve • oil pump driven by female rotor, accessible from the outside • oil cooling as oil-/air cooler incl. oil temperature regulating valve (limited to 90 °C), aeration via mechanical fan on the driving shaft (cooler block integrated in compressor stage) • oil filter as screw-down filter • oil chamber relief via oil demister, installed on the compressor stage
VML / VM Visual maintenance indicator in case of contamination of the air intake filter with additional protection by means of electrical pressure switches forsuction pressure, discharge pres-sure and oil pressuredischarge temperature and oil temperature. The switches are wired internally on the terminal strip. Extension of instrumentation acc. to design VM is possible (option).All sensing points are monitored by an electronic fault indication device featuring „first-out” indica-tion. Instrumentation to meet spe-cial requirements (e.g. ex-proof) is available upon request.
Alternatively for VM and VML: Aerzen Universal Control Unit including instru-mentation in analog technique with pressure trans-mitter for suction-, discharge- and oil pressure. Resistance thermometer for discharge- and oil tem-
perature. Indications are optionally (multi-lingual) available in the display. Control options for all possible cases of operation. Indication of the service intervals. Limit value recording
as fault indication archives. Serial interface (RS 485) for data transmission (e.g. telediagnostic service, linkage of several machines among each other). (Design not ex-proof).
6
7
Belt drive • Aerzen Screw compressor stage with reinforced bearing of the driving shaft (female rotor) suitable for belt drive. Forced-feed lubrication including oil pump, oil filter, oil return flow valve, turbo filter for oil chamber release.• Base support as suction silencer with hinged motor plate (three-phase current motor)• Intake filter (single-stage) integrated in the base frame• Belt drive with guard
Scope of supply and performances The scope of supply of a DELTA SCREW compressor unit made by Aerzener for air operation (basic unit) includes the following items:
Gearbox• Aerzen Screw compressor stage with integrated
step-up gearbox, forced-feed lubrication including oil pump, oil filter, oil return flow valve, air/oil cooler, turbo filter for oil chamber release.
• Base support for compressor stage and driving motor (three-phase current motor)
• Intake filter (double-stage) with intake manifold• Flexible coupling with guard
Items also belonging to the basic unit: (applies for belt drive and gearbox) • Discharge silencer• Safety relief valve (type-tested)• Non-return valve• Expansion joint with tie-rod, discharge side• Flexible machinery mountings with anchor bolts• Instrument panel for protection of the machine with indication and monitoring for suction-, discharge- and oil pressure, discharge- and oil temperature, single-fault indication and operating hour meter
Extended scope of instrumentation same as for VM possible even for VML against extra price.
Accessories: Options (belt drive and gearbox)• Driving motor as three-phase current motor including assembly in Aerzen• Acoustic hood for the complete compressor unit for indoor and outdoor installation• Start-up unloading valve for VML-compressors (self-medium controlled)• Constant-speed unloading device for VM-compressors including suction throttle, relief valve and pressure switch PSLH (self-medium controlled)• switch cabinet with electrical interconnection (e.g. star-delta)• Frequency converter, designed as separate cabinet (installation and external wiring at site)• Overflow-regulating valve (self-medium controlled) for keeping the discharge pressure or vacuum constant, loose supply, for installation into the pipe provided at site• separate after-cooler, loose supply, for installation into the pressure pipe provided at site, designed as air-/air cooler or air-/water cooler, in case of danger of condensation on request even with cyclone separator and automatic drain.
Modifications: Options (belt drive and gearbox)• Nitrogen design including suction silencer, starting strainer, expansion joint suction side, suction pressure gauge• Ex-proof design with intrinsically safe instrumentation, main- and aux. drives in EEx e or EEx de• Special instrumentation in co-ordination with the customer’s specification• Deviating finish• ANSI-flanges at battery limit• Vacuum design (even with pre-inlet) incl. suction silencer, starting strainer, expansion joint suction side, suction pressure gauge, suction valve, vacuum filter as option
3KL-48
8
Flow diagram VML-R (belt drive)
1. air filter monitoring 2. intake pressure switch 3. contact thermometer (discharge temperature) 4. contact thermometer (oil temperature) 5. discharge pressure gauge 6. discharge pressure switch 7. oil pressure gauge 8. oil pressure switch 9. oil level sight glass10. intake filter11. compressor stage11a. sound-absorbing connection chamber12. discharge silencer13. check valve14. expansion joint15. safety relief valve16. oil pump19. oil filter20. oil overflow valve21. oil drain valve22. oil demister32. belt drive33. suction silencer
The following items are not included in the standard scope of supply and are available at extra costs:
28. relief valve30. acoustic hood with fan31. electric motor
Flow diagram VM-R (belt drive) 1. air filter monitoring 2. intake pressure switch 3. contact thermometer (discharge temperature) 4. contact thermometer (oil temperature) 5. discharge pressure gauge 6. discharge pressure switch 7. oil pressure gauge 8. oil pressure switch 9. oil level sight glass10. intake filter11. compressor stage12. discharge silencer13. check valve14. expansion joint15. safety relief valve16. oil pump17. oil temperature regulator18. oil air cooler19. oil filter20. oil overflow valve21. oil drain valve22. oil demister32. belt drive33. suction silencer
The following items are not included in the standard scope of supply and are available at extra costs:
30. acoustic hood with fan31. electric motor23. intake pressure gauge24. pressure switch25. throttle flap regulation26. 3-way solenoid valve27. pressure selection relay28. relief valve
compressed air outlet
compressed air outlet
3VK-037
3VK-038
compressed air outlet
compressed air outlet
9
Flow diagram VML... with start-up unloading device
1. air filter monitoring 2. intake pressure switch 3. contact thermometer (discharge temperature) 4. contact thermometer (oil temperature) 5. discharge pressure gauge 6. discharge pressure switch 7. oil pressure gauge 8. oil pressure switch 9. oil level sight glass10. intake filter11. compressor stage12. discharge silencer13. check valve14. expansion joint15. safety relief valve16. oil pump17. oil temperature regulator18. oil air cooler *19. oil filter20. oil overflow valve21. oil drain valve22. oil demister
The following items are not included in the standard scope of supply and are available at extra costs:
25. electric motor28. start-up unloading device30. acoustic hood with fan * * For VML 150/ 250 electrically driven
Flow diagram VM... with regulation
1. air filter monitoring 2. intake pressure switch 3. contact thermometer (discharge temperature) 4. contact thermometer (oil temperature) 5. discharge pressure gauge 6. discharge pressure switch 7. oil pressure gauge 8. oil pressure switch 9. oil level sight glass10. intake filter11. compressor stage12. discharge silencer13. check valve14. expansion joint15. safety relief valve16. oil pump17. oil temperature regulator18. oil air cooler19. oil filter20. oil overflow valve21. oil drain valve22. oil demister
The following items are not included in the standard scope of supply and are available at extra costs:
30. acoustic hood with fan31. electric motor23. intake pressure gauge24. pressure switch25. throttle flap regulation26. 3-way solenoid valve27. pressure selection relay28. relief valve29. blow-off silencer
We always distinguish 1. in drive mode belt drive or gearbox 2. in discharge pressure For performance data up to 2 bar overpressure ➯ VML-compressors For performance data up to 3,5 bar overpressure ➯ VM-compressors The performance charts are in chronological order according to compressor sizes. First it has to be decided which drive mode is preferred. To distinguish the type designations the belt driven machines end with an “R” concerning their designation. The performance charts have the same structure. Depending on compressor type the possible perform-ance data were entered in the corresponding chart (in the upper section up to 2 bar applicable for compressor types VML, in the lower sec-tion up to 3,5 bar applicable for compressor types VM). The volume flow increases from the left to the right side. We are always trying to use the smallest-pos-sible machine. The applicable performance data of the corresponding case of operation result from “column” (referring to the volume flow) and “line” (referring to the requested discharge pressure).
Explanations:Sum of the individual moments of inertia of com-pressor, gearbox and coupling, based on the drive speed.
Noise data
10
Using the performance chartsp1 intake pressure (abs.) t1 intake temperature pe discharge pressure, gauge i1 to i14 standard gear ratiosIn order to meet the requested volume flow even more closely, intermediate gear ratios are available between each standard ratio, e.g. i9/10 between i9 and i10.Lp (A) o.H./m.H. sound pressure level as machine noise acc. to DIN 45635 - without hood / with hood.
The data applicable to intermediate step-up gear ratios can be interpolated, as in these ranges the operating data are of linear relationship and can be calculated proportionally.The data shown are based on the compression of air at p1 = 1,0 bar and t1 = 20 °C. Data concerning deviating suction conditions, vacuum operation, compression of gas and multi-stage compression configurations are available on request.
The fan power for acoustic hood depends on the particular operating conditions.Oil demister operating requirements: 0,37 kW 50 m³/h 3000 rpm.
Our sales department shall be at your disposal at any time concerning questions on the necessary equipment and possibilities of application.
100
90
80
70
60
50
100
90
80
70
60
without hood
with hood
Noise ratingcurves according to ISO 1996
31,5 63 125 250 500 1000 2000 4000 8000(Hz) mean frequencies
The sound frequency analysis in 1/1 octave bands was carried out on a VM 21 R package. Measurements in free field, at a distance = 1.0 m.Measuring height = 1.5 mDischarge pressure pe = 3.5 barnmot= 2950 rpmStep-up gear ratio B7
soun
d pr
essu
re le
vel i
n dB
bas
ed o
n 2
x 10
-5 N
/m2
Performance data based on the compression of air (p1= 1.0 bar, t1 = 20 °C)
VM 8 R
11
Compressor size
belt drive ratio
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
Dischargepressurepe [bar gauge]
0,75
1,00
1,25
1,50
1,75
2,00
2,25
2,50
2,75
3,00
3,25
3,50
B [ - ]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2] Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
B6
287141622930167
17,5 / 18,57,3
0,19989/73
282141622930183
19,1 / 227,3
0,19989/73
280141622930198
20,7 / 2210,90,19989/73
277142342945213
22,3 / 3010,90,20191/74
273142342945229
23,7 / 3010,90,20192/75
269142342945245
25,2 / 3010,90,20194/78
B6/7
312150022930164
18,6 / 228,1
0,21589/73
307150022930180
20,3 / 228,1
0,21489/73
307150782945194
22,2 / 3011,90,21489/73
303150782945208
23,7 / 3011,90,21491/74
298150782945223
25,2 / 3011,90,21493/75
294150782945238
26,7 / 3011,90,21494/79
B7
338158612930161
19,8 / 228,8
0,25491/75
333158612930177
21,6 / 228,8
0,25491/75
333159422945191
23,6 / 3013
0,25691/76
329159422945205
25,2 / 3013
0,25692/76
324159422945219
26,8 / 3013
0,25693/77
320159422945233
28,4 / 3013
0,25695/80
B7/8
366168022930159
21,1 / 229,8
0,27193/77
364168882945174
23,1 / 309,8
0,27393/78
361168882945189
25,2 / 3014,50,27393/79
357168882945201
26,9 / 3014,50,27393/79
353168882945215
28,5 / 3014,50,27393/79
349169172950228
30,2 / 3714,50,27395/81
345169172950242
31,9 / 3714,50,27397/82
B8
392179352945160
23,3 / 3011,10,33494/78
387179352945174
25,4 / 3011,10,33494/80
382179352945189
27,4 / 3011,10,33494/81
380179352945202
29,5 / 3016,20,33494/81
377179652950215
31,3 / 3716,20,33494/81
372179652950229
33,1 / 3716,20,33496/82
368179652950242
34,9 / 3716,20,33498/83
B8/9
415189992945161
25,6 / 3012,60,35695/80
410189992945175
27,8 / 3012,60,35695/80
405190312950190
30,2 / 3712,60,35695/81
404190312950204
32,5 / 3718,40,35695/81
399190312950216
34,4 / 3718,40,35695/81
395190312950229
36,3 / 3718,40,35697/83
389189672940243
38 / 4518,40,37599/84
B9
441202122945163
28,5 / 3014,40,43395/81
436202472950177
30,9 / 3714,40,43395/81
431202472950191
33,4 / 3714,40,43395/81
430202472950205
36,1 / 3720,80,43395/81
424201782940218
37,9 / 4520,80,46695/81
420201782940230
39,9 / 4520,80,46697/83
415201782940243
42 / 4520,80,46699/84
B9/10
468214482950165
31,5 / 3716,50,46195/82
462214482950178
34,1 / 3716,50,46195/82
456213752940192
36,5 / 4516,50,49495/82
451213752940207
39,2 / 4516,50,49496/82
450213752940219
41,7 / 4523,80,49496/82
446213752940231
43,9 / 4523,80,49498/84
444214842955244
46,5 / 5523,80,494100/85
B10
497228132950167
35,2 / 3718,9
0,57997/84
490227362940180
37,8 / 4518,9
0,57897/84
485227362940194
40,6 / 4518,9
0,63697/84
480227362940208
43,5 / 4518,9
0,63697/84
482228522955221
46,8 / 5527,1
0,63697/84
478228522955233
49,2 / 5527,1
0,63698/85
473228522955245
52 / 5527,1
0,662100/85
Compressor size
belt drive ratio
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
Dischargepressurepe [bar gauge]
0,75
1,00
1,25
1,50
1,75
2,00
2,25
2,50
2,75
3,00
3,25
3,50
B6/7
655143912950160
33,3 / 3715,40,49695/80
644143422940174
36,6 / 4515,40,49695/80
636143422940189
38,6 / 4515,40,49695/80
638144152955202
42,9 / 5522,30,51595/80
631144152955215
45,4 / 5522,30,51595/80
624144152955228
48 / 5522,30,51595/80
617144152955241
51 / 5522,30,51595/80
B7
706152152940159
36,1 / 4517,20,58896/81
698152152940172
39,2 / 4517,20,58896/81
693152922955186
42,5 / 5517,20,61996/81
691152922955200
45,9 / 5524,90,61996/81
684152922955212
48,5 / 5524,90,61996/81
681153702970225
52 / 7524,90,61996/81
674153702970238
54 / 7524,90,61996/81
B7/8
749161342940160
38,7 / 4519,10,63896/82
745162162955173
42,2 / 5519,10,66896/82
736162162955187
45,5 / 5519,10,66896/82
734162162955201
49,2 / 5527,60,66896/82
731162992970213
53 / 7527,60,66896/82
724162992970225
55 / 7527,60,66897/82
717162992970238
58 / 7527,60,66898/83
B8
801172362955162
41,9 / 5521,50,76497/83
793172362955175
45,3 / 5521,50,76497/83
784172362955188
48,8 / 5521,50,76497/83
780173232970202
53 / 7521,50,8
97/83
779173232970214
57 / 7530,70,8
97/84
772173232970226
60 / 7530,70,8
97/84
766173232970238
62 / 7530,70,8
98/84
B8/9
850182762955163
45,3 / 5523,90,82798/83
842182762955176
48,9 / 5523,90,82798/83
838183692970190
53 / 7523,90,86298/84
830183692970203
57 / 7523,90,86298/84
829183692970216
61 / 7534,10,86298/84
822183692970227
64 / 7534,10,86298/84
815183692970239
67 / 7534,10,91799/85
B9
904194182955165
49,2 / 5526,81,01398/84
901195162970178
54 / 7526,81,04498/84
893195162970191
58 / 7526,81,04499/84
884195162970204
62 / 7526,81,04499/84
884195162970218
66 / 7537,91,04499/84
877195162970229
69 / 9037,91,12399/84
870195162970240
72 / 9037,91,12399/85
B9/10
966206982970168
54 / 7529,9
1,12499/85
958206982970180
58 / 7529,9
1,12499/85
949206982970193
62 / 7529,9
1,124100/85
941206982970206
66 / 7529,9
1,198100/85
933206982970219
70 / 9029,9
1,198100/85
933206982970230
74 / 9042,1
1,198100/85
926206982970241
78 / 9042,1
1,198100/86
Performance data based on the compression of air (p1= 1.0 bar, t1 = 20 °C)
VM 15 R
12
B5/6
561128512950163
29,7 / 3712,60,39294/78
553128072950179
32,5 / 3712,60,39294/78
546128072940194
35,3 / 4518,40,39294/79
540128072940208
37,6 / 4518,40,39294/79
533128072940222
39,9 / 4518,40,39294/79
526128072940236
42,2 / 4518,40,39294/79
B6
605135702950161
31,6 / 3713,90,45694/79
597135702950176
34,4 / 3713,90,45694/79
586135242940192
37,2 / 4513,90,45695/79
583135242940205
39,9 / 4520,20,45695/79
577135242940218
42,3 / 4520,20,45695/79
574135932955232
45 / 5520,20,45695/79
B [ - ]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2] Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
Compressor size
belt drive ratio
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
Dischargepressurepe [bar gauge]
0,75
1,00
1,25
1,50
1,75
2,00
2,25
2,50
2,75
3,00
3,25
3,50
B3
4665626293096
12,5 / 155,3
0,15690/71
45756262930119
15,8 / 18,57,9
0,15690/71
44656262930140
18,8 / 227,9
0,16491/71
43956542945163
21,9 / 307,9
0,16491/73
42856542945186
24,9 / 307,9
0,16492/73
B4
5446251293093
13,9 / 18,56,1
0,20391/71
53562512930115
17,8 / 229,30,2192/72
52862832945134
21,1 / 309,30,2192/73
51762832945155
24,4 / 309,30,2192/74
50862932950176
27,7 / 379,30,2292/74
49762932950198
31 / 379,30,2296/75
B5
6397001293090
15,7 / 18,57,40,2792/72
62970372945112
20,2 / 307,40,2892/73
62370372945130
23,9 / 3011,00,2893/74
61470492950148
27,5 / 3711,00,2893/75
60370492950167
31,1 / 3711,00,3
94/75
58970252940188
34,5 / 4511,00,3
97/77
B6
7427813293088
17,7 / 228,80,3492/73
73378532945108
22,6 / 308,80,3892/73
72978672950126
27,1 / 3713,10,3893/75
71878672950143
30,9 / 3713,10,3894/76
70378402940161
34,7 / 4513,10,4
96/76
69278402940180
38,6 / 4513,10,4
98/78
B7
86887962945
8720,4 / 30
10,50,4892/74
85487962945106
25,6 / 3010,50,4893/74
84988112950124
30,8 / 3715,70,4893/76
83487812940140
34,9 / 4515,70,5296/77
82387812940156
39,2 / 4515,70,5297/78
81888262955173
43,7 / 5515,70,5299/79
B8
10089895294587
23,5 / 3012,80,6793/75
99699122950104
29,3 / 3712,80,6793/75
97798782940122
34,9 / 4512,80,7293/77
98199292955137
40,2 / 4519,20,7296/78
96999292955152
44,9 / 5519,20,7297/78
95899292955168
49,6 / 5519,20,7299/80
B9
116911171295087
27,9 / 3715,70,8
94/76
1150111332940103
33,9 / 4515,70,8
94/76
1136111332940120
39,9 / 4515,70,8794/78
1140111902955136
46,3 / 5523,70,8898/78
1135112462970151
52 / 7523,70,8899/79
1124112462970165
57 / 7523,70,94
100/80
B9/10
125211833295088
30,4 / 3717,50,9394/76
1232117932940104
36,6 / 4517,51,0394/76
1225118532955120
43,7 / 5517,51,1395/78
1219119142970150
51 / 7526,11,2
98/78
1218119142970150
56 / 7526,11,2
99/79
1207119142970164
61 / 7526,11,2
100/80
Performance data based on the compression of air (p1= 1.0 bar, t1 = 20 °C)
VML 18 R
13
B2
38950012930101
11 / 154,5
0,11889/69
38050012930125
13,9 / 18,56,6
0,11889/70
37050012930149
16,6 / 18,56,6
0,12389/70
35950012930174
19,3 / 226,6
0,12390/72
35150262945201
22,2 / 306,6
0,12390/72
B [ - ]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2] Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
Dischargepressurepe [bar gauge]
0,75
1,00
1,25
1,50
1,75
2,00
2,25
2,50
2,75
3,00
3,25
3,50
B5/6
879128722955157
44,4 / 5527,30,56195/73
870128722955169
47,7 / 5527,30,56196/73
861128722955181
52 / 5527,30,56196/74
858129382970193
55 / 7527,30,56196/74
857129382970204
59 / 7541,10,56196/74
849129382970214
61 / 7541,10,56198/75
842129382970224
64 / 7541,10,56198/75
B6
943135932955157
47,4 / 5529,70,67595/73
934135932955168
51 / 5529,70,67596/73
931136622970180
55 / 7529,70,67597/74
922136622970192
59 / 7529,70,67597/74
921136622970203
62 / 7544,60,67597/75
913136622970212
65 / 7544,60,67598/75
906136622970222
68 / 7544,60,67599/75
B6/7
1016144172955156
52 / 5532,90,72196/74
1014144902970167
56 / 7532,90,72298/74
1005144902970178
59 / 7532,90,72298/75
996144902970190
63 / 7532,90,72298/75
995144902970201
67 / 7549
0,72298/75
987144902970210
70 / 7549
0,72299/76
980144902970220
73 / 7549
0,72299/76
B7
1098153702970157
56 / 7536,30,86496/76
1089153702970167
60 / 7536,30,86499/77
1080153702970178
64 / 7536,30,86499/77
1071153702970189
68 / 7536,30,86499/77
1070153702970201
73 / 7554,60,86599/77
1062153702970209
76 / 9054,60,865100/77
1055153702970218
79 / 9054,60,865100/77
B7/8
1160163012970159
61 / 7540,30,92598/78
1151163012970170
65 / 7540,30,925100/78
1142163012970180
69 / 7540,30,925100/78
1133163012970191
73 / 7540,30,925101/78
1124163012970203
78 / 9040,30,925101/78
1125163012970212
81 / 9059,60,963101/79
1117163012970220
85 / 9059,60,963101/79
B8
1229173212970168
67 / 7544,81,11899/83
1220173212970172
71 / 7544,81,118100/84
1211173212970183
75 / 9044,81,119101/84
1202173212970194
80 / 9044,81,119101/84
1193173212970205
84 / 9044,81,119101/84
1194173212970214
88 / 9065,51,119102/85
1188173512975223
96 / 11065,51,18
102/85
B8/9
1300183712970165
72 / 7550
1,195101/84
1291183712970175
77 / 9050
1,195100/84
1282183712970185
81 / 9050
1,257101/84
1273183712970196
86 / 9050
1,257101/85
1267184022975207
91 / 11050
1,257101/85
1267184022975217
96 / 11072,91,257102/85
1260184022975225
99 / 11072,91,257102/86
B9
1379195172970168
79 / 9056
1,454101/84
1370195172970178
84 / 9056
1,454102/85
1363195502975188
89 / 11056
1,539102/85
1354195502975199
94 / 11056
1,539102/85
1345195502975210
99 / 11056
1,539102/85
1346195502975219
104 / 11079,61,54
102/85
1338195502975227
107 / 11079,61,54
102/86
B9/10
1461207002970171
86 / 9063
1,637102/85
1454207352975181
92 / 11063
1,636102/85
1445207352975191
97 / 11063
1,637102/85
1436207352975202
102 / 11063
1,637102/85
1427207352975212
107 / 11063
1,637102/85
1428207352975222
112 / 13287,7
1,637102/85
1420207352975230
116 / 13287,7
1,637102/86
VM 21 R
14
Performance data based on the compression of air (p1= 1.0 bar, t1 = 20 °C)
Compressor size
belt drive ratio
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
B [ - ]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2] Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
Dischargepressurepe [bar gauge]
0,75
1,00
1,25
1,50
1,75
2,00
2,25
2,50
2,75
3,00
3,25
3,50
B4
109110566294589
26,2 / 3014,60,48193/76
1079105842950106
32,4 / 3714,60,48394/76
1060105482940124
38,4 / 4514,60,48394/77
1063106022955140
44,5 / 5522,00,48396/78
1052106022955155
49,6 / 5522,00,48397/78
1048106562970170
55 / 7522,00,48399/80
B4/5
117111207294589
28,3 / 3716,30,52793/76
1159112262950106
34,8 / 4516,30,52894/77
1162112682965122
41,1 / 4516,30,52895/78
1143112452955140
47,8 / 5524,30,5396/79
1132112452955154
54 / 5524,30,5397/79
1128113022970169
59 / 7524,30,5399/81
B5
124711815295090
30,3 / 3717,80,60293/77
1227117752940106
36,9 / 4517,80,60294/77
1213117752940123
43,6 / 4517,80,60295/78
1217118352955140
51 / 5526,60,60497/79
1214118952970154
57 / 7526,60,60498/79
1202118952970168
63 / 7526,60,604100/81
B5/6
133612529295090
32,9 / 3720,00,68694/77
1317124872940106
39,7 / 4520,00,68695/77
1310125502955123
47,1 / 5520,00,68895/78
1304126142970140
55 / 7520,00,68897/79
1304126142970154
61 / 7529,40,68898/79
1293126142970168
67 / 7529,40,688100/81
B6
1425132302950
9135,5 / 45
22,20,80694/77
1405131852940107
42,6 / 4522,20,80695/78
1399132532955123
51 / 5522,20,80996/79
1393133202970140
59 / 7522,20,80997/79
1393133202970154
66 / 7532,40,80998/80
1382133202970167
72 / 7532,40,809100/81
B6/7
152013983294092
38,5 / 4524,80,87694/78
1515140552955108
46,5 / 5524,80,87695/78
1510141262970123
55 / 7524,80,87696/79
1496141262970140
63 / 7524,80,87697/80
1495141262970154
71 / 7536,00,87698/80
1484141262970168
77 / 9036,00,876100/81
B7
162914834294094
42,1 / 4528,01,0395/78
1624149092955109
51 / 5528,01,03396/78
1619149852970124
59 / 7528,01,0397/79
1605149852970140
68 / 7528,01,0398/80
1605149852970155
76 / 9040,11,03399/81
1594149852970168
83 / 9040,11,033100/82
B7/8
175415811295596
46,5 / 5531,31,11595/79
1750158912970110
56 / 7531,31,11596/79
1735158912970125
64 / 7531,31,11597/79
1721158912970141
73 / 7531,31,11898/80
1721158912970156
82 / 9044,61,11899/81
1713159182975169
90 / 11044,61,164
101/82
VML 25 R
15
Performance data based on the compression of air (p1= 1.0 bar, t1 = 20 °C)
Compressor size
belt drive ratio
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
B [ - ]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2] Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
Dischargepressurepe [bar gauge]
0,75
1,00
1,25
1,50
1,75
2,00
2,25
2,50
2,75
3,00
3,25
3,50
VM 37 R
16
Performance data based on the compression of air (p1= 1.0 bar, t1 = 20 °C)
Compressor size
belt drive ratio
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
B [ - ]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2] Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
B4/5
1440111862975159
73 / 7543,91,09594 / 78
1426111682970170
78 / 9043,81,09595 / 78
1414111682970182
84 / 9043,81,09596 / 79
1406111862975193
89 / 11043,91,13299 / 79
1394111862975205
95 / 11043,91,132
100 / 79
1395111862975214
100 / 11067
1,132100 / 79
1385111862975223
104 / 11067
1,132100 / 79
B5
1529117882970160
78 / 9047,71,21295 / 79
1518117882970170
84 / 9047,71,21296 / 79
1509118082975182
89 / 11047,91,25897 / 79
1498118082975193
95 / 11047,91,25899 / 80
1486118082975205
101 / 11047,91,258
100 / 80
1487118082975214
107 / 11072
1,388100 / 80
1475117882970223
111 / 13272
1,388100 / 80
B5/6
1648125862970161
85 / 9053
1,40396 / 79
1639126072975171
91 / 11054
1,45797 / 79
1628126072975182
97 / 11054
1,45798 / 79
1617126072975193
102 / 11054
1,457100 / 80
1602125862970204
108 / 13253
1,642100 / 80
1603125862970214
115 / 13279
1,642100 / 80
1593125862970223
119 / 13279
1,642100 / 80
B4
1334104962975159
68 / 7539,7
0,94694 / 77
1323104962975170
73 / 7539,7
0,94695 / 77
1308104782970182
78 / 9039,6
0,94696 / 77
1297104782970194
83 / 9039,6
0,94698 / 77
1286104782970207
88 / 9039,6
0,986100 / 78
1289104962975215
93 / 11061
0,986100 / 78
1280104962975225
97 / 11061
0,986100 / 79
B6/7
1891142052975163
100 / 11066
1,88298 / 80
1879142052975173
106 / 11066
2,35398 / 80
1864141812970183
112 / 13265
2,35399 / 80
1853141812970194
119 / 13265
2,353101 / 81
1842141812970205
125 / 13265
2,354101 / 81
1830141812970216
132 / 16065
2,354101 / 81
1833141812970223
138 / 16096
2,354101 / 81
B7
2006149692970164
108 / 13272
2,48699 / 80
1995149692970174
115 / 13272
2,48699 / 80
1984149692970184
122 / 13272
2,487100 / 80
1972149692970195
128 / 13272
2,487101 / 81
1961149692970205
135 / 16072
2,412101 / 81
1950149692970216
142 / 16072
2,412101 / 82
1952149692970223
149 / 160105
2,412101 / 82
B7/8
2156159542970166
120 / 13281
2,84899 / 81
2145159542970176
127 / 13281
2,84899 / 81
2134159542970186
134 / 16081
2,848100 / 81
2122159542970196
141 / 16081
2,993101 / 82
2111159542970206
148 / 16081
2,993101 / 82
2100159542970216
156 / 16081
2,993102 / 82
2110160072980224
164 / 200117
2,994102 / 82
B8
2292168402970168
130 / 16090
3,01799 / 81
2281168402970178
138 / 16090
3,162100 / 81
2270168402970187
145 / 16090
3,162101 / 81
2258168402970197
153 / 16090
3,163101 / 82
2256168972980207
161 / 20091
3,163102 / 83
2244168972980217
169 / 20091
3,163102 / 83
2247168972980224
177 / 200129
3,163102 / 83
B6
1756133072975162
91 / 11058
1,61297 / 80
1744133072975172
97 / 11058
1,61298 / 80
1733133072975182
103 / 11058
1,74799 / 80
1718132852970193
109 / 13258
1,747100 / 80
1707132852970204
115 / 13258
1,747100 / 80
1695132852970216
121 / 13258
1,748100 / 80
1698132852970222
127 / 13286
1,748100 / 80
Dischargepressurepe [bar gauge]
0,75
1,00
1,25
1,50
1,75
2,00
2,25
2,50
2,75
3,00
3,25
3,50
B4
11676283294587
27,9 / 3013,20,4
94/75
114962932950106
35,2 / 3713,20,4
96/75
113562722940124
41,9 / 4519,50,4297/76
112663042955141
48,1 / 5519,50,4298/76
111863362970159
55 / 7519,50,4299/77
110263362970177
62 / 7519,50,4299/78
B6
15317840294087
36,7 / 4519,50,6497/78
152078802955104
45,6 / 5519,50,6699/79
150979202970122
55 / 7519,50,68
100/79
150479202970137
63 / 7528,70,68
101/79
148879202970153
71 / 7528,70,68
101/80
147279202970169
78 / 9028,70,71
102/81
B7
176288202940
8743 / 4524,20,8298/80
175388652955104
53 / 5524,20,84
100/80
174389102970120
63 / 7524,20,87
100/80
173889102970136
73 / 7535,70,92
101/80
172289102970151
81 / 9035,70,92
101/80
171089252975167
90 / 11035,71,08
102/81
B8
20119992295589
52 / 5530,71,0999/82
2033100432970104
63 / 7530,71,12
101/81
2013100432970120
73 / 7530,71,18
102/81
1993100432970137
84 / 9030,71,18
102/81
1996100592975151
94 / 11045,11,35
102/81
1980100592975166
104 / 11045,11,35
103/81
B9
231811314297093
63 / 7539,91,46
100/82
2298113142970107
74 / 9039,91,53
101/82
2277113142970123
86 / 9039,91,53
102/82
2261113332975139
98 / 11039,91,99
103/82
2260113332975154
110 / 13258,21,99
103/82
2244113332975169
120 / 13258,21,92
104/82
B10
259212727297098
77 / 9053
2,04100/82
2575127492975113
89 / 11053
2,38101/82
2555127492975128
102 / 11053
2,38103/83
2535127492975143
111 / 13253
2,54105/83
2515127492975160
129 / 13253
2,54105/83
VML 40 R
17
B2
8915050294590
21,8 / 309,4
0,25891/73
86850502945111
27,9 / 3013,70,25893/73
85450582950129
32,9 / 3713,70,25895/74
83450412940149
37,8 / 4513,70,26595/74
81850412940170
43 / 4513,70,26595/75
80850672955191
48,6 / 5513,70,28396/75
B5
13407025295087
31,9 / 3715,80,5196/77
132470012940105
39,7 / 4515,80,5298/77
131370372955123
48 / 5523,60,5299/78
130570732970138
55 / 7523,60,53
100/78
128970732970155
62 / 7523,60,53
101/79
127370732970173
69 / 7523,60,53
101/80
B3
10115611294588
24,5 / 3011
0,3292/73
99356212950109
31,2 / 3711
0,3293/73
97956022940127
36,8 / 4516,30,3395/74
96356022940144
42,2 / 4516,30,3396/74
95456302955163
48,2 / 5516,30,3496/75
94556592970183
55 / 7516,30,3497/75
Performance data based on the compression of air (p1= 1.0 bar, t1 = 20 °C)
Compressor size
belt drive ratio
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
B [ - ]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2] Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
Compressor size
gear ratio
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
Dischargepressurepe [bar gauge]
0,75
1,00
1,25
1,50
1,75
2,00
2,25
2,50
2,75
3,00
3,25
3,50
i4
101646552950176
57 / 7528,50,86
97 / 77
100046552950188
62 / 7528,50,86
97 / 77
99446552950201
67 / 9044,40,86
97 / 77
98046552950214
71 / 9044,40,86
97 / 77
96746552950228
75 / 9044,40,86
98 / 78
95446552950242
79 / 11044,40,86
98 / 78
i5
118351982950172
64 / 9031
1,00497 / 78
116851982950187
70 / 9031
1,00497 / 78
115251982950203
75 / 9031
1,00497 / 78
114851982950216
80 / 11042,71,00497 / 78
113451982950229
84 / 11042,71,00498 / 78
110851982950250
93 / 13242,71,00499 / 78
i6
137758232950168
73 / 9035,61,19
98 / 78
136158232950182
79 / 11035,61,19
98 / 78
134558232950197
85 / 11035,61,19
98 / 78
134158232950210
91 / 11049,21,19
98 / 78
132858232950222
95 / 13249,21,19
98 / 78
131558232950234
100 / 13249,21,19
98 / 78
130258232950246
105 / 13249,21,19
99 / 78
i7
160565552950165
83 / 11042,21,42498 / 78
158965552950178
89 / 11042,21,42498 / 78
157365552950192
96 / 13242,21,42499 / 78
156965552950205
104 / 13257,81,42499 / 78
155665552950216
109 / 13257,81,42499 / 78
154365552950227
114 / 13257,81,424
100 / 78
152965552950239
119 / 16057,81,424
100 / 78
i8
184873312950163
94 / 13249,61,70499 / 78
183273312950175
101 / 13249,61,70499 / 78
181773312950188
109 / 13249,61,70499 / 78
180173312950201
116 / 16049,61,704
100 / 78
179973312950212
123 / 16068
1,704101 / 78
178673312950223
129 / 16068
1,704101 / 78
177373312950233
134 / 16068
1,704101 / 78
i9
211781832950162
107 / 13257,72,034
100 / 78
210281832950174
115 / 13257,72,034
100 / 78
208681832950186
123 / 16057,72,034
100 / 78
207081832950198
131 / 16057,72,034
102 / 80
206881832950210
140 / 20078,62,034
103 / 80
205581832950219
146 / 20078,62,034
103 / 80
204281832950229
152 / 20078,62,034
103 / 80
i10
246492722950163
125 / 16068
2,501102 / 80
244892722950173
133 / 16068
2,501102 / 80
243292722950185
142 / 20068
2,501102 / 80
241792722950196
151 / 20068
2,501102 / 80
240192722950208
160 / 20068
2,501103 / 80
240292722950217
168 / 20092,52,501
103 / 80
238992722950226
175 / 20092,52,501
103 / 80
i11
2766102132950164
141 / 20078,22,95
103 / 83
2751102132950174
150 / 20078,22,95
103 / 84
2735102132950184
160 / 20078,22,95
103 / 84
2719102132950195
169 / 20078,22,95
104 / 84
2703102132950206
179 / 20078,22,95
105 / 84
2704102132950216
189 / 2501052,95
106 / 84
2691102132950225
196 / 2501052,95
107 / 84
i12
3161114312950160
164 / 2001153,57
104 / 83
3146114312950169
174 / 2001153,57
104 / 84
3107114312950187
184 / 2501153,57
104 / 84
3091114312950196
194 / 2501153,57
105 / 85
3075114312950202
204 / 2501153,57
106 / 85
3059114312950209
216 / 2501153,57
107 / 85
3063114312950217
215 / 2501663,57
108 / 85
VM 45
18
Performance data based on the compression of air (p1= 1.0 bar, t1 = 20 °C)
i [ - ]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2] Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
Compressor size
gear ratio
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
flow at inletcompressor speedmotor speeddischarge temperaturepower at shaft / motor ratingpower, idling p1= p2= 1,0 bar reduced moment of inertiaSound pressure level w/o.h./w.h.
Dischargepressurepe [bar gauge]
0,75
1,00
1,25
1,50
1,75
2,00
2,25
2,50
2,75
3,00
3,25
3,50
i 3
16634180295085
37,8 / 5519,1
193 / 75
163141802950105
48,3 / 7519,1
193 / 75
161641802950121
58 / 7522,6
194 / 77
159141802950128
66 / 9022,6
195 / 76
156541802950156
75 / 9022,6
196 / 78
154041802950176
83 / 11022,6
196 / 78
i 4
19054655295084
42,6 / 55221,2
94 / 76
187246552950102
54 / 75221,2
94 / 76
185846552950119
65 / 9026,31,2
95 / 78
183246552950135
74 / 9026,31,2
95 / 80
180746552950152
83 / 11026,31,2
96 / 81
178146552950170
93 / 13226,31,2
97 / 82
i 5
21825198295083
48,3 / 7525,61,4
96 / 76
215051982950101
61 / 7525,61,4
96 / 77
213551982950118
73 / 9030,81,4
97 / 79
211051982950133
84 / 11030,81,4
97 / 80
208451982950149
94 / 13230,81,4
98 / 81
205951982950165
104 / 13230,81,4
98 / 82
i 6
25045823295083
56 / 7530,11,8
97 / 81
247158232950100
69 / 9030,11,8
97 / 81
243958232950117
83 / 11030,11,8
98 / 81
243158232950131
95 / 13236,41,8
98 / 81
240658232950146
106 / 13236,41,8
99 / 82
238058232950162
117 / 16036,41,8
99 / 82
i 7
28826555295084
65 / 9035,92,2
99 / 81
28506555295099
79 / 11035,92,2
99 / 81
281765552950116
95 / 13235,92,2
100 / 82
281065552950131
109 / 13243,62,2
100 / 82
278465552950145
121 / 16043,62,2
101 / 83
275965552950159
134 / 16043,62,2
102 / 84
i 8
328773312950
8575 / 9042,92,6
100 / 82
325473312950100
91 / 11042,92,6
100 / 82
322273312950115
108 / 13242,92,6
101 / 83
321473312950131
125 / 160532,6
101 / 83
318973312950144
138 / 160532,6
102 / 84
316373312950158
152 / 200532,6
103 / 84
i 9
37358183295086
87 / 110523,2
101 / 84
370381832950101
105 / 132523,2
101 / 84
367081832950115
123 / 160523,2
102 / 84
363881832950131
141 / 200523,2
102 / 84
363781832950145
158 / 200633,2
103 / 84
361281832950158
173 / 200633,2
105 / 84
i 10
43139272295089
105 / 132693,9
102 / 85
428092722950103
124 / 132693,9
102 / 85
424892722950117
144 / 160693,9
103 / 85
421592722950131
164 / 200693,9
103 / 85
421592722950146
186 / 2001003,9
104 / 85
418992722950159
202 / 2501003,9
105 / 85
i 10/11
45549723295091
113 / 132764,4
103 / 85
452197232950104
133 / 160764,4
103 / 85
448997232950118
154 / 200764,4
104 / 85
445797232950132
175 / 200764,4
104 / 85
442497232950147
196 / 250764,4
105 / 86
443097232950160
214 / 2501094,4
106 / 86
VML 60
19
Performance data based on the compression of air (p1= 1.0 bar, t1 = 20 °C)
i [ - ]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2] Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
[m3/h]
nHR [1/min]nM [
1/min]t 2 [ °C]PK/Mot [kW]PLeer [kW]J [kgm2]Lp [dBA]
Dischargepressurepe [bar gauge]
0,75
1,00
1,25
1,50
1,75
2,00
2,25
2,50
2,75
3,00
3,25
3,50
i3
195041752950161
102 / 13239,82,66
97 / 77
192841752950175
111 / 13239,82,66
97 / 77
190741752950189
120 / 16039,82,66
97 / 77
190141752950201
128 / 16067
2,6697 / 77
188341752950213
134 / 16067
2,6697 / 77
186541752950225
141 / 20067
2,6698 / 78
184741752950237
148 / 20067
2,6698 / 78
i4
223546432950159
115 / 13246,63,05
98 / 78
221346432950172
124 / 16046,63,05
98 / 78
219146432950185
134 / 16046,63,05
98 / 78
218546432950198
144 / 20078
3,0598 / 78
216746432950208
151 / 20078
3,0598 / 78
214946432950219
158 / 20078
3,0599 / 79
213146432950230
166 / 20078
3,0599 / 79
i5
258552152950157
131 / 16056
3,57100 / 79
256452152950169
141 / 20056