We have developed a range of technologies for special-purpose motors based on a long history of research and development in the following areas:
- Insulation systems for motors used in cryogenic conditions
- Refrigerant-resistant insulation systems for motors for CFC liquefied gases
- Cryogenic-resistant insulation for super-conducting coils
We have a well-established position in the market for motors for use with cryogenic liquefied gases such as those in LNG pumps. Its first products based on the technologies above were launched in 1988, after its 400V class random wound windings and 400V~6600V class formed wound windings had been rigorously tested for cryogenic resistance and their performance verified by quick-cooling heat cycle tests.
- Characteristic calculation technology to accommodate conductor resistance and changes in reactance at all cryogenic-liquid temperatures Characteristic calculation technology to accommodate shaft material (magnetic material, non-magnetic material, solid, hollow)
- Refrigerant-resistant (R123. R134a) insulation technology cryogenic insulation technology for super-conducting coils crack-resistant varnish for use in cryogenic conditions
- Simulation of an induction motor under instantaneous voltage drop. Simulation of such as Re-starting during descent of motor revolution for stopping of a pump.
- Manufacturing technology for small-radius and long motors (manufacture of aluminum rotor)
Motor in an in-tanktype cryogenic submerged pump |
Output | Low voltage | 0.75kW~500kW |
---|---|---|
High voltage | 75kW~2000kW | |
Number of poles#1 | 2P | |
Speed (synchronous) | 3000rpm 3600rpm | |
Rated voltage / rated frequency#2 | Low voltage | 400V / 50Hz 440V / 60Hz |
High voltage | 3000, 3300V / 50Hz 3300V / 60Hz | |
6000, 6600V / 50Hz 6600V / 60Hz | ||
Insulation class | F | |
Time rating | Continuous | |
Liquids#3 | LNG. LEG. Ethane. Propylene. LPG. Butane. LN2 | |
Starting method | Direct-On-Line | |
Standards | JIS. JEM. JEC. IEC |
#1 Can accommodate other numbers of poles (4P, 6P, etc.)
#2 Can accommodate other voltages (380V, 460V, 4160V, 6300 V, etc.)
#3 Can be used with liquids other than those listed