E-WVCP2600 WATER VAPOR CRYOCHILLER
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Key Highlights | Energy Savings Over 50% - Industry Leading
Achieving over 50% energy savings compared to the industry average, directly halving annual electricity costs. The new generation energy efficiency optimization system features a complete upgrade across the entire chain, from compressor control and heat exchange efficiency to heat recovery structure and intelligent load adjustment. Under the same cooling capacity, operating conditions, and usage time,
→ Power consumption is only about half that of traditional water vapor cryogenic cold traps/refrigeration units;
→ Continuous 24-hour operation can save tens to hundreds of thousands of yuan in electricity costs annually.
Precise deep cooling without compromising efficiency. Energy saving without performance degradation, stably providing large cooling capacity and low-temperature capabilities to meet the stringent water vapor condensation requirements of processes.
More stable continuous operation with a lower failure rate. Low load and low power consumption operation results in less component heat generation and less wear, simultaneously improving overall machine lifespan and stability.
Cold trap coil
The cold trap coil is the key direct part of trapping water vapor. It is installed in a vacuum chamber and absorbs water vapor on the surface of the pipe through the ultra-low temperature of the coil surface. Any shape of the coil can be customized according to your requirements.
The cold traps and connecting pipes of our company are all made of domestic top-quality Shanghai Flywheel cold extruded copper tubes, welded by American Harris 56% silver brazing rods.
Cold bridge
The cold and heat bridge is mainly an isolation vacuum and heat insulation device for the cryogenic pipeline to enter the vacuum chamber. The connection of the pipeline adopts Parker CPI or Swagelok VCR connectors, and there are two specifications of the cold and heat bridge, 1 inch and 2 inches.
The opening diameter of the 1-inch cavity needs to be 27mm, and the opening diameter of the 2-inch cavity is 52mm. The cold and heat bridge can be customized according to the hole diameter you design.
Refrigeration connecting pipe
The length of the standard connecting pipeline is 2.44 meters, the outer diameter of the insulation pipe is 92mm, and the nylon protective braided pipe is coated to prevent damage to the insulation pipe. The two ends of the connecting pipe are connected to the cold trap and the trapping pump with CPI or VCR joints. It is optional to install T-type thermocouple sensors for measuring the inlet and outlet of the cold trap.
Technical Parameter
| Model | WVCP2600-S-H |
| Maximum cooling capacity(W) | 2600 |
| The theoretical maximum pumping speed of the tubular cold trap(L/S) | 220500 |
| The theoretical maximum speed of the plate cold trap(L/S) | 294000 |
| Final vacuum(mbar) | 2*10-8 |
| Defrost time of maximum cold trap area(min) | <3 |
| Adjustable range of defrost temperature(℃) | -20~30 |
| Pressure control mode | Digital sensor+Mechanical switch |
| Quick restore balance pressure function(QRBP) | Yes |
| Oil blocking proof function(OBP) | Yes |
| 4G Remote control | Yes |
| Cold media properties | Pro-enviroment |
| Maximum surface area of tubular cold trap(㎡) | 1.5 |
| Maximum surface area of plate cold trap(㎡) | 2 |
| Specification of single cold trap(㎡) | φ16mm*30m |
| Specification of double cold trap(㎡) | / |
| Gas interface | 12.7 copper welded junction(Standard) |
| ParkerCPI/VCR(Optional) | |
| Cooling water flow(L/Min at 24℃) | 20 |
| Cooling water alarm temperature(℃) | 38 |
| Cooling tower | Yes |
| Cooling water connector(L/S) | G3/4 |
| Maximum load power(kW) | 12.8 |
| Compressor nominal power(HP) | 7.5 |
| Power supply(50HZ) | 380-400V AC 3P(H) |
| 200-230V AC 3P(L) | |
| Dimension(MM) | 935(L)*873(D)*1809(H) |
| Weight(KG) | 460 |
| Minimum power consumption in standby mode | 4.5KW |
| Minimum energy consumption in cooling mode | 3.0KW |
| Average energy consumption | 5KW |
| Energy-saving methods: ① Variable frequency drive; ② Refrigeration system upgrade; ③ PID control; ④ Pressure control module upgrade | |
#POLY #COLD #PFC1102 #MAXCOOL4000H
