Infusion Bottle Sterilizing Ventilate Sterilizer
Mixed Pressure Sterilization Series Overview:
Sterilization Principle:
- This series utilizes the mixed pressure sterilization principle combining air and steam.
- High-energy, double-speed air blowers drive mixed gas circulation within the sterilizing products effectively.
Key Features:
- Designed to sterilize products requiring container and package drying post-cooling (e.g., checking, labeling, packing).
- Suited for industries needing to sterilize PE or PP plastic bottles, PVC, or compound plastic soft package liquids.
Benefits:
- Efficient Sterilization: Ensures thorough sterilization through the compelling circulation of mixed gas.
- Container Drying Capability: Facilitates drying of containers and packages after the sterilization process.
- Versatile Application: Suitable for a wide range of industries dealing with specific plastic bottle and soft package liquid sterilization requirements.
By employing a unique mixed pressure sterilization method and catering to the need for container and package drying, this series offers a comprehensive solution for sterilizing products that require special attention to post-sterilization processes. Ideal for maintaining quality standards in industries handling PE or PP plastic bottles, PVC containers, and other compound plastic soft packages containing liquids.
Size&Utilities
Specifications Model |
Overall Dimensions |
Chamber Size L*W*H(mm) |
Sream Consumpyion (kg/cycle) |
Power (KW) |
Compressed Air (m/cycle) |
Car |
Cooling Water consumpation |
Net Weight (kg) |
FG-1.2 |
1910*3400*2130
|
1500*1300*1300
|
85
|
4
|
2.0
|
2
|
1200
|
2000
|
FG-2.5 |
3410*3400*2130
|
3000*1300*1300
|
120
|
5.5
|
3.5
|
4
|
2000
|
3500
|
FG-5 |
3850*3700*2230
|
3400*1600*1700
|
250
|
8
|
6
|
4
|
4000
|
6000
|
FG-8 |
5850*3700*2230
|
5400*1600*1700
|
500
|
8
|
9
|
5
|
5500
|
8500
|
FG-10 |
7150*3700*2230
|
6700*1600*1700
|
650
|
10
|
12
|
6
|
6500
|
11000
|
FG-12 |
8450*3700*2230
|
8000*1600*1700
|
850
|
12
|
15
|
8
|
7500
|
13000
|
FG-14 |
9850*3700*2230
|
9400*1600*1700
|
1000
|
15
|
18
|
10
|
8500
|
15000
|
Safely Autoclaving Glass Laboratory Bottles:
Suitability of Glass Bottles for Autoclaving:
- Borosilicate Glass: Safe for autoclaving due to high resistance to thermal shock.
- Soda Lime or Flint Glass: Higher risk of breakage during autoclaving compared to borosilicate glass.
- Plastic-Coated Bottles: Can be autoclaved safely, but coating may have limited durability through repeated cycles.
Loading and Preparation:
- Filling Capacity: Avoid exceeding 75% of nominal capacity to allow for expansion, preventing overflow.
- Cleaning: Ensure bottles are clean before autoclaving to avoid contaminant substances adhering to the glass walls.
- Distilled Water: For large heavy bottles sterilized dry, a small amount of distilled water inside aids steam generation.
Sterilizing Screw-Capped Bottles:
- Loose Fitting Caps: Screw caps should be loosely fitted with a maximum of one turn to prevent pressure differentials.
- Venting Options: Consider using membrane venting caps or single-port connector caps for safe sterilization, especially for larger bottles over 2 Liters.
Covering Bottles with Aluminum Foil:
- Not recommended as it decreases the effectiveness of sterilization by hindering steam penetration.
Autoclave Cycle Duration:
- Recommended temperatures: +121°C, +126°C, or +134°C based on application.
- Holding time as per British Standard BS EN 285:1997 guidelines.
- Use biological/chemical indicators to ensure proper autoclave function; re-autoclave if indicators fail.
Frequency of Autoclaving:
- Borosilicate glass bottles can withstand more cycles than soda lime or plastic-coated bottles.
- Regularly inspect bottles for scratches, chips, or defects; discard damaged items immediately to maintain safety standards.
By following these guidelines and best practices when autoclaving glass laboratory bottles, you can ensure effective sterilization while maintaining the integrity and safety of the equipment and its contents.