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α-2400U Separated Two-sided Inert Vacuum Controlled Atmospheres Laboratory Glovebox
α-2400U Separated Two-sided Inert Vacuum Controlled Atmospheres Glovebox | |||
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External Structure | |||
Chamber Capacity | Approximately 76 cu.F.t (2.1 m³) | ||
Overall Dimensions | 126" L x 39.4" W x 74.8" H 3200mm (L) x 1000mm (W) x 1900mm (H | ||
Overall Weight | 640 kg (1400 lbs) | ||
Electrical Voltage | • 230 VAC/50-60 Hz, 10 A • 115 VAC/50-60 Hz, 20 A • 100 VAC/50-60 Hz, 20 A | ||
Glovebox Chamber | |||
Description | Material | Stainless Steel Type 304 (USA), 3.0 mm in thicknes | |
Internal Dimensions | 94.5" L x 39.4" W x 35.4" H 2400mm (L) x 1000mm (W) x 900mm (H) | ||
Inclined Front Window | Material | Tempered glass, 8.0 mm in thickness,Lexan (polycarbonate) 10 mm in thickness upon request | |
Dimensions | 44"Lx33" W 1120mm (L) x 840mm (W) | ||
Glove Ports | Tecaform | 220 mm (8.6")in diameter, O-ring sealed |
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Material | Hard aluminum alloy or polyaldehyde upon request | ||
Gloves | Material | Butyl rubber | |
Thickness | 0.4 mm,(standard) 0.8 mmupon request | ||
HEPA Filters | • Inlet and outlet filters eliminate particles with the size > 0.3μm | ||
Lighting | • Fluorescent lamp, front mounted | ||
Leak Rate | Typically · by oxygen leak decay test method according to ISO 10648-2: 1994, · by Pressure Change Test Method according to ISO 25412 | ||
Gas Purification System | |||
Description | • Automated removal of H2O and O2 • Single column, automated column regeneration; dual purification columns (optional) • Enclosed stainless steel loop for gas recirculation and purification | ||
Operating Gas | Working gas | Nitrogen, Argon, or Helium (purity >99.999%) | |
Column regeneration gas | Mixture of H2 (5-10%) and working gas | ||
Vacuum Pump | Description | Rotary vane pump, installed with oil mist filter, oil circulator, and automatic gas ballast control; dual-stage. Or dry pump upon request | |
Pumping rate | 7.0 CFM (12 m³/h) | ||
Ultimate vacuum | -3 mbar | ||
Circulation Unit | Material | Integrated blower, oil-free, highly efficient | |
Flow Rate | 47 CFM (80 m³/h) | ||
Leakage Rate | • Leak rate -5 mbar l/s | ||
Valves | • Electro-pneumatic DN 40 | ||
Leakage Rate | Typically · by oxygen leak decay test method according to ISO 10648-2: 1994, · or by Pressure Change Test Method according to ISO 25412 | ||
LCD or LED Display | LCD, Pressure, O2 and H2O value is logged for 24 hours | ||
Control Cabinet | Material | Steel,External surfaces: RAL 7035 | |
Dimensions | 23.6" L x 31.5" W x 34.2" H 600mm (L) x 800mm (D) x 870mm (H) | ||
Antechamber | |||
Main Antechamber | Material | Stainless Steel Type 304; 3.0 mm in thickness | |
Internal Dimensions | 14"(Φ) x 23.6"(L) 360mm (Φ) x 600mm (L) | ||
Vacuum | 1 x 10-2 mbar | ||
Mini Antechamber | Material | Stainless Steel Type 304 (USA); thickness 3.0 mm | |
Inside dimensions | 5.9"(Φ) x 13"(L) 150mm (Φ) x 330mm (L) | ||
Vacuum | 1 x 10-2 mbar | ||
Purging System | |||
Function | By setting up the purging time and pressure, the system automatically purges the chamber | ||
Analyzer | |||
O2-Analyzer | Dimensions | 8" L x 3" D x 2.4" H 205mm (L) x 80mm (W) x 60mm (H) | |
Measurement Range | 0 to 1000 ppm (V) | ||
Other Analyzer | GE oxy.IQ™ Oxygen Transmitter upon request | ||
H2O-Analyzer | Dimensions | 8" L x 3" D x 2.4" H 205mm (L) x 80mm (W) x 60mm (H) | |
Measurement Range | 0 to 1000 ppm (V) | ||
Other Analyzer | GE VeriDri™ Dew-Point Transmitter | ||
Solvent Purification System | |||
Description | Column Material | Stainless Steel Type 304 (USA); 3.0 mm in thickness | |
Inside Dimensions | 8.6"(Φ) x 17.7"(L) 220mm (Φ) x 450mm (H) | ||
Packing Material | High-quality activated carbon | ||
Optional Components | |||
Vacuum feedthrough with two valves | Stainless Steel Type 304 | ||
Electrochemical signal feedthrough | 4 or 8 pins, Stainless Steel Type 304 | ||
Freezer | Location | Integrated on the side panel of the glovebox | |
Inside dimensions | 16.6" L x 10.5" W x 6.4" D 423mm (H) x 266mm (W) x 162.5mm (D) | ||
Capacity | 18 L or 32 L, 5 shelves with adjustable height | ||
Minimum Temperature | -35 ℃ | ||
Microscopes with CCD Camera Systems | • 10x, 20x, and 40x targets, 5.0 M CCD | ||
Cold well with cover | Capacity | Diameter: 6.3″ (160 mm) Depth: 7.9″ (200 mm) | |
Minimum Temperature | -120℃ | ||
Dual Purification Columns | More efficient to remove oxygen and moisture | ||
Organic Solvent Absorber | Regenerable, more efficient to purify organic solvent | ||
Cooling Fan | Accelerate the gas flow in the glovebox chamber | ||
Heating Element | Installed in Main Antechamber; Maximum 200 ℃; Temperature control ±1℃. | ||
Other Intormation | |||
Compliance | UL certified, ISO9001 certified, and CE certified | ||
Warranty | One year limited warranty, and lifetime technical support | ||
Exceptions | • Rusting or damage due to improper storage or maintenance • Consumable items such as gloves and oxygen sensors | ||
Application Notes & Warnings | • The interconnections between the glove-box chamber and the gas purification system must be unimpeded during the purification cycles • The use of corrosive gases is prohibited because they will damage the water and oxygen sensors • Regularly perform regeneration to maintain the optimum purification efficiency • The O2 removing rate is largely dependent on the type of purging gas used. For faster chamber purging process, Nitrogen is preferred over Argon due to its lighter mass • Corrosive liquid (such as LiPF6 electrolyte) must be sealed in a container inside the glove box. Otherwise, liquid vapour may condense and corrode the steel chamber and purification pipeline |