Dual Synthesis Hot Cell 100mmPb For FDG Production Line
Model: JVVMED-DUHCS75-RFM
This nuclear radiation protection system features complete isolation protection with a clean arc stainless steel inner cavity, specifically designed for positron radiopharmaceutical synthesis. It meets stringent requirements for lead shielding and biological cleanliness, complying with both radiation safety standards and cGMP pharmaceutical environment requirements.
Hot Chamber Components
- Control Area: Top section with independent ventilation, control unit, gas valve, and radiation monitoring system
- Working Area: Middle section with spacious interior for synthesizer installation, accessible via front shield door
- Auxiliary Area: Bottom section providing support functions for hot chamber operations
Key Features
- Application: Nuclear Medicine/Radiation Shielding/Gamma Protection
- Material: Galvanized Steel Panel Construction
- Lead Equivalent: Customized Design Options
- Accessory: Tungsten Radiation Shielding
- Nuclear Safety Certified
Technical Specifications
| Parameter |
Specification |
| Cleanliness Level |
Class C (cGMP standard) |
| Negative Pressure |
-50Pa to -200Pa |
| Air Volume |
300 m³/h |
| Sealing Standard |
Second Level Sealing |
| Air Supply |
High Efficiency Filter |
| Exhaust System |
Activated Carbon Filter |
| Lead Shielding (Front) |
75mmPb |
| Lead Shielding (Sides) |
60mmPb |
| Target Line Shielding |
50mmPb |
| Surface Radiation Dose |
< 5μSv/h @3Ci-F18 |
| 30cm Radiation Dose |
< 1μSv/h @3Ci-F18 |
Dimensions
| Measurement |
Internal |
External |
| Width |
850 mm |
1185 mm |
| Depth |
619 mm |
1117 mm |
| Height |
700 mm |
2400 mm |
Standard Accessories
- Lighting System
- UV Lamp
- Ozone Sterilization Device
- Power Sockets
Applications
This high-performance radiation shielding system is essential for nuclear medicine facilities, laboratories, and any environment requiring protection from gamma radiation. Its durable galvanized steel construction and lead-lined design provide reliable protection for handling radioactive materials, with applications including:
- Positron radiopharmaceutical synthesis
- Radioactive material storage
- Radiation shielded work environments
- Nuclear medicine research facilities