Space-saving canister, conductive
- Safety by preventing electrostatic charging
- Suitable for use in potentially explosive atmospheres
- Lightweight and easy to use
- Space saving and optimal use of space
Please note
Caution! When handling flammable, highly flammable liquids, the explosion protection guidelines must be observed. All parts must be earthed, use anti-static set!
Detailed information
The space saving, electrically conductive HDPE canister is specially designed for use in potentially explosive atmospheres.
With a specific surface resistance of <10^5 ohms, the canister is highly electrically conductive. When properly grounded, this eliminates the risk of ignition due to electrostatic charging. The canister therefore helps to meet the requirements of ATEX 137, TRBS2153 and CENELEC 50404.
The space-saving canister is made of anti-static PE plastic, which does not rust and is easy to dispose of via the recycling system. The canister offers excellent chemical resistance and can be filled with a wide range of liquids and chemicals.
Where every square centimetre counts, the space-saving canister is the ideal solution for space-saving storage and efficient handling of a wide range of liquids. Whether stored in tight spaces or efficiently organised on shelves or trays, this canister maximises storage capacity, helps make better use of storage space and reduces transport costs.
With a width of just 6.5cm or 12.5cm, the space-saving canister fits perfectly into tight spaces, making the most of the space available without compromising on strength or quality. The well thought-out ribbing and thick walls give the compact canister a sturdy construction and ensure lasting stability and reliability in every use, even when stored horizontally - ideal for storage in the fridge or on a shelf.
Typical application area of the product
The electrically conductive canister can be used to fill and store flammable and highly flammable liquids in explosion groups IIA, IIB and IIC, such as laboratory waste. It is used wherever strict safety protocols require the risk of electrostatic discharge to be minimized. For example, in the chemical, pharmaceutical, paint, agricultural, and mining industries. In hazardous areas where flammable materials, explosive chemicals or finely dispersed particles are handled.