BEIDE 30KW ExplosionThree-phase Asynchronous Motor
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Incoterm: | FOB,CIF |
Transportation: | Ocean |
Port: | shanghai |
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Payment Type: | L/C,T/T |
Incoterm: | FOB,CIF |
Transportation: | Ocean |
Port: | shanghai |
Brand: Beide
Application:: chemical and petrochemical industries, etc.
Rated Power:: 0.55 ~ 90 kW
Frame Size: 80 ~ 280
Voltage And Frequency:: Supports multiple voltages and frequencies
Cooling Method:: IC411
Insulation System:: Class F
Altitude:: no more than 1000 meters
Protection Class:: IP65
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30KW 1MT0003 Gas Explosion-proof Motor
Noise levels for mains-fed operation
The noise levels are measured in accordance with DIN EN ISO 1680 in a anechoic room. It is specified as the A-valued measuring-surface sound pressure level Lpfa in dB (A). This is the spatial mean value of the sound pressure levels measured on the measuring surface. The measuring surface is a cube 1 m away from the motor surface. The sound power level is also specified as LWA in dB (A). Please find the noise value in technical data table, the specified values are only valid for totally enclosed fan cooling (cooling method: IC411) motor with no load at 50 Hz with no load, and the tolerance is +3 dB. While motor operating 60 Hz with no load, the values are approximately +4 dB (A) higher.30KW 1MT0003 Gas Explosion-Proof Motor
1MT0003 Flameproof Three-Phase Asynchronous Motor
Rated output:0.55 ~ 315 kW
Frame size:80 ~ 355
380/660V 50Hz, Other common voltage can be
provide as option design
Standard color:RAL7011
Cooling method:IC411
Frame-proof marking:Ex d IIB T4 Gb
Protect degree:IP55
Insulation class:F
Re-greasing device:FS 280 ~ 355 motor as standard,
FS 160 ~ 250 motor as option design
Ambient temperature:-20ºC ~ 40ºC as standard
As one of Siemens main low-voltage motor production facilities worldwide, SSML uses the knowledge and experience of more than 100 years in motor design and manufacturing, owns the advanced manufacture equipment and process, adopts the SIEMENS modern management model , and implements comprehensive quality control according to ISO9001 2015. SSML will continuously serve customers with high quality products and good service.
In many industrial and public industries, explosion hazards are ever- present, e.g. the chemicals industry, refineries, on drilling platforms, gas stations, feed manufacturing and sewage treatment plants. The risk of explosion is always present when gases, fumes, mist or
dust are mixed with oxygen in the air in an explosive ratio close to sources of ignition that are able to release the so-called minimum ignition energy.
To ensure safety in these areas, legislators in most countries have implemented appropriate stipulations in the form of laws and regulations based on national and international standards. Explosion- protected equipment is designed such that an explosion can be prevented when it is used properly.
Classification of zones
Areas subject to explosion hazard are divided into zones. Zoning is based on the presence time of explosive substances and probability of explosion. Information and specifications for classification of the zones are laid down in the following standards:
•GB 3836.14, IEC/EN 60079-10-1 for gas atmospheres
•GB 12476.3, IEC/EN 60079-10-2 for dust atmospheres
Furthermore, a distinction is made between various explosion groups as well as temperature classes and these are included in the hazard assessment.
Depending on the particular zone and therefore the associated hazard, operating equipment must comply with defined minimum requirements regarding the type of protection. The different types of protection require corresponding measures to prevent ignition that should be implemented at the motor in order to prevent a surrounding explosive atmosphere from being ignited.
Zone |
| Assigned types of protection | Category according to 2014/34/EU | Equipment protection level acc. to GB3836.1 & IEC/EN 60079-0 | |
|
| ||||
Gas 1) 2) | Dust 1) 2) | Zone definition acc. to GB3836.14 & IEC/EN 60079-10-1 for gas atmospheres GB 12476.3 & IEC/EN 60079-10-2 for dust atmospheres | |||
0 |
– | An area in which there is an explosive gas atmosphere constantly, over a long period or frequently. | Low-voltage motors not permitted |
1 |
Ga |
1 |
– | An area in which it is expected that an explosive gas atmosphere will occur occasionally during normal operation. | Ex e(GB) or Ex eb(IEC), Ex de, Ex d(GB) or Ex db(IEC)
|
2 |
Gb |
2 |
– | An area in which it is expected that an explosive gas atmosphere will occur only rarely and then only briefly during normal operation. |
Ex nA(GB) or Ex ec(IEC) |
3 |
Gc |
– |
20 | An area in which there is an explosive gas atmosphere comprising a dust-air mixture constantly, over a long period or frequently. | Low-voltage motors not permitted |
1 |
Da |
– |
21 | An area in which it is expected that an explosive gas atmosphere comprising a dust-air mixture will occur occasionally during normal operation. |
Ex tb |
2 |
Db |
– |
22 | An area in which it is expected that an explosive gas atmosphere in the form of a cloud of flammable dust in air will occur only rarely and then only briefly during normal operation. |
Ex tc 3) |
3 |
Dc |
Application
The explosion-proof motors are often used in the following industries to prevent explosion hazards that result in serious injury to persons and severe damage to property.
•Chemical and petrochemical industry
•Production of mineral oil and gas
•Gas works
•Gas supply companies
•Petrol stations
•Coking plants
•Mills (e.g. corn, solids)
•Sewage treatment plants
•Wood processing (e.g. sawdust, tree resin)
•Other industries subject to explosion hazardsst.
Flameproof class of gases and vapors
Location | Code of standard GB3836.1 / GB3836.2 / IEC60079-0 / IEC60079-1 Flameproof class |
For Mines | d Ⅰ |
Explosive gas environment except mines | d Ⅱ A |
d Ⅱ B | |
d Ⅱ C |
Temperature classes
Temperature class of electrical equipment | lMaximum surface temperature of electrical equipment | Ignition temperature of gases or vapors |
T1 | 450ºC | > 450ºC |
T2 | 300ºC | > 300ºC |
T3 | 200ºC | > 200ºC |
T4 | 135ºC | > 135ºC |
T5 | 100ºC | > 100ºC |
T6 | 85ºC | > 85ºC |
Classification of gases and vapors into explosion groups and temperature classes
explosion group | Temperature classes | |||||
T1(450) | T2(300) | T3(200) | T4(135) | T5(100) | T6(85) | |
Material designation | Material designation | Material designation | Material designation | Material designation | Material designation | |
IIA (MESG≥0.9mm) | Acetone | i-amyl acetate | Benzine | Acetaldehyde |
|
|
Ethane | n-butane | Gasoline | ||||
Ethyl acetate | n-butyl alcohol | Special benzine | ||||
Ethyl chloride | Cyclohexanone | Diesel fuel | ||||
Ammonia | 1.2- dichloroethane | Heating oils | ||||
Benzene | Acetic acid anhydride | n-hexane | ||||
Acetic acid | ||||||
Carbon monoxide | ||||||
Methane | ||||||
Methanol | ||||||
Methyl chloride | ||||||
Naphthalene | ||||||
Phenol | ||||||
Propane | ||||||
Toluene | ||||||
IIB (0.5mm <0.9mm) | Town gas (illuminating gas) | Ethyl alcohol | Hydrogen sulfide | Ethyl ether |
|
|
Ethylene | ||||||
Ethylene oxide | ||||||
IIC (MESG≤0.5mm) | Hydrogen | Acetylene |
|
|
| Carbon disulfide |
MESG, maximum experimental safe gap (for an explosive mixture). It's maximum gap of a joint of 25 mm in width which prevents any transmission of an explosion during 10 tests made under the conditions specified in GB 3836.11 and IEC 60079-20-1.
The smaller the MESG value, the higher the explosion-proof level of the equipment, and the more stringent requirements for the equipment. If the equipment can run under the IIC gas group, it also meets the requirements of IIA and IIB.
Vibration Grade | Frame size (mm)
| 56 ≤ FS ≤ 132 | H>132 | ||
Mounting | Vibration displacement/um | Vibration velocity/(mm/s) | Vibration displacement/um | Vibration velocity/(mm/s) | |
A | Free suspension | 45 | 2.8 | 45 | 2.8 |
Rigid mounting | - | - | 37 | 2.3 | |
2.81) | |||||
B | Free suspension | 18 | 1.1 | 29 | 1.8 |
Rigid mounting | - | - | 24 | 1.5 | |
1.81) |
Bearing Assignment
1MT0003 series motor are supplied with ball bearing as standard, these bearings are either sealed or regreasable type. Bearing design meets
the requirements of explosion protection. Fixed bearing at NDE is as standard configuration for FS160 ~3 55 motors;For FS80 ~ 132 motors the bearings are floating, fixed bearing at DE can be ordered with option code L20.
If higher cantilever force on the shaft required, the increased cantilever bearing design (Option code: L22) should be considered.
As standard, FS80 ~ 250 motors are not with regreasing device, but re-greasing device (Option code: L23) can be configured in FS160~250. FS280 ~ 355 motors with regreasable bearing and regreasing device is configured as standard.
The following table lists the standard bearing configuration.
Bearing Assignment
Frame size |
Number of poles | Standard design | Optional design | ||
Horizontal / Vertical mounting | Increased cantilever force (option code L22) | ||||
DE bearing | NDE bearing | DE bearing | NDE bearing | ||
80 | 2 ~ 6 | 6204-2RZ C3 | 6204-2RZ C3 | - | - |
90 | 2 ~ 6 | 6205-2RZ C3 | 6205-2RZ C3 | - | - |
100 | 2 ~ 6 | 6306-2RZ C3 | 6306-2RZ C3 | - | - |
112 | 2 ~ 6 | 6306-2RZ C3 | 6306-2RZ C3 | - | - |
132 | 2 ~ 8 | 6308-2RZ C3 | 6308-2RZ C3 | - | - |
160 | 2 ~ 8 | 6309-2RZ C3 | 6309-2RZ C3 | NU309 | 6309 C3 |
180 | 2 ~ 8 | 6310-2RZ C3 | 6310-2RZ C3 | NU310 | 6310 C3 |
200 | 2 ~ 8 | 6312 C3 | 6312 C3 | NU312 | 6312 C3 |
225 | 2 ~ 8 | 6313 C3 | 6313 C3 | NU313 | 6313 C3 |
250 | 2 ~ 8 | 6315 C3 | 6315 C3 | NU315 | 6315 C3 |
280 | 2 | 6315 C3 | 6315 C3 | NU315 | 6315 C3 |
4 ~ 8 | 6317 C3 | 6317 C3 | NU317 | 6317 C3 | |
315 | 2 | 6316 C3 | 6316 C3 | NU316 | 6316 C3 |
4 ~ 8 | 6319 C3 | 6319 C3 | NU319 | 6319 C3 | |
355 | 2 | 6317 C3 | 6317 C3 | NU317 | 6317 C3 |
4~ 8 | 6320 C3 | 6320 C3 | NU320 | 6320 C3 |
Grease life and re-greasing interval
For permanent lubrication, the bearing grease lifetime is matched to the bearing lifetime.
Grease lifetime and re-grease interval (Horizontal installation)
Using permanent lubrication bearing | ||
Frame size | Poles | Grease lifetime up to CT 40oC 1) |
80 ~ 250 | 2-8 | 20000 (or)40000 2) |
Using re-greasable bearing | |||
Frame size | Poles | Bearing | Interval under standard ambient temperature(h) |
160 | 2P | 6309 C3 NU309 | 4000 |
4~8P | 8000 | ||
180 | 2P | 6310 C3 NU310 | 4000 |
4~8P | 8000 | ||
200 | 2P | 6312 C3 NU312 | 4000 |
4~8P | 8000 | ||
225 | 2P | 6313 C3 NU313 | 4000 |
4~8P | 8000 | ||
250 | 2P | 6315 C3 NU315 | 4000 |
4~8P | 8000 | ||
280 | 2P | 6315 C3 NU315 | 4000 |
4P | 6317 C3 NU317 | 6000 | |
6~8P | 8000 | ||
315 | 2P | 6316 C3 NU316 | 3000 |
4P | 6319 C3 NU319 | 4000 | |
6~8P | 6000 | ||
355 | 2P | 6317 C3 NU317 | 3000 |
4P | 6320 C4 NU320 | 4000 | |
6~8P | 6000 |
Connection box
The connection box is located on the top of motor housing as standard, and can be rotated by 4×90º to allow for cable entry from each direction. When selecting the entrance to the motor drive end, please notice whether there is enough space in front of the installation for the cable line. For the standard connection box with hoop gland, the motor of FS 80~225 has one hoop gland, and the motor of FS250~355 has two.
Motor protection
Anti-condensation heater
Motors whose windings are at risk of condensation due to the climatic conditions, e.g. inactive motors in humid atmospheres or motors that are subjected to widely fluctuating temperatures can be equipped with anti-condensation heaters (Option code: Q04).
Anti-condensation heaters must be switched off during operation. When motor shut down, the heaters must be switched on.
The electrical parameters of anti-condensation heaters are shown in the following table.
Electrical data of Anti-condensation heater
Frame size | Power (W) & voltage (V) |
Q04 | |
80 ~ 90 | 20 W / 220 V |
100 ~ 112 | 30 W / 220 V |
132 ~ 160 | 40 W / 220 V |
180 ~ 200 | 50 W / 220 V |
225 ~ 280 | 60 W / 220 V |
315 | 80 W / 220 V |
355 | 100 W / 220 V |
Rated Output
1MT0003 motors rated output powers means that the motor runs under continuous duty S1 (IEC 60034 - 1) operation when operated at ambient temperature from -20 ºC to 40 ºC and at altitudes of up to 1000 m over sea.
Voltage and Frequency
IEC 60034-1 differentiates between Category A (combination of voltage deviation ±5 % and frequency deviation ±2 %) and
Category B (combination of voltage deviation ±10 % and frequency
deviation +3 % / -5 %) for voltage and frequency fluctuations. The motors can supply their rated torque in both Category A and B. In Category A, the temperature rise is approximately 10 K higher than during normal operation.
Standard 60034 - 1 | Category A | Category B |
Voltage deviation | ±5 % | ±10 % |
Frequency deviation | ±2 % | +3 % / -5 % |
According to the standard, longer operation is not recommended for Category B. |
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