Liquid Nitrogen Dewar NLND-310 comes in various sizes with a minimum storage capacity of 10.5 L and 6 canisters with a locking lid. Our unit is built with double-walled vacuum insulation to minimize evaporation. This unit is designed with durability and performance in mind, and are ideal for both laboratory and industrial applications. It is built for safe storage of cryogenic liquids at extremely low temperatures.
$463.00
Specifications
| Capacity | 10.5 L |
| Caliber | 216 |
| Number of canisters | 6 |
| Canister Diameter | 36 mm |
| Canister Height | 120 mm |
| Outer diameter | 304 mm |
| Total Height | 560 mm |
| Static Power Dissipation | 11 |
| Static Storage | 0.88 L/ day |
| Packaging size (L × W × H) | 34× 34 × 64.5 mm |
| Gross weight | 8.3 kg |
Features
Applications
Standard Accessories
Canisters × 6 pieces
Ask Expert
FAQ for Liquid Nitrogen Dewar NLND-310
1: How does the Liquid Nitrogen Dewar NLND-310 ensure biological sample safety during storage?
NLND-310 includes 6 canisters with secure locking lids, to prevent sample contamination or displacement. It is absolutely safe for storage of materials like tissues, cells, or vaccines.
2: Is Liquid Nitrogen Dewar NLND-310 portable?
Yes, the NLND-310 is compact and lightweight enough for portable use. Its vacuum-sealed insulation makes it suitable for mobile medical teams, research field operations, and veterinary use.
3: Why is the Liquid Nitrogen Dewar NLND-310 preferred over electrically powered cryogenic systems?
NLND-310 operates passively, without needing electricity, which reduces operational costs and eliminates power-related risks. This makes it ideal for low-resource settings or backup storage solutions.
4: How are liquid nitrogen dewars different from regular insulated containers?
Liquid nitrogen dewars are specifically engineered with vacuum insulation and specialized inner linings to retain extreme cold temperatures without allowing gas escape or moisture intrusion.
5: Are these liquid nitrogen dewars environmentally safe?
Yes, these devices are safe to the environment as they do not emit pollutants, however, proper ventilation is required to manage nitrogen gas displacement.