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Glovebox

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Glovebox
A common rigid-plastic glovebox, seen with gloves turned inside-out
UsesInert atmosphere work
Hazardous materials work
Related itemsDesiccator
Schlenk line

A glovebox (or glove box) is a sealed container that is designed to allow one to manipulate objects where a separate atmosphere is desired. Built into the sides of the glovebox are gloves arranged in such a way that the user can place their hands into the gloves and perform tasks inside the box without breaking containment. Part or all of the box is usually transparent to allow the user to see what is being manipulated. Two types of gloveboxes exist: one allows a person to work with hazardous substances, such as radioactive materials or infectious disease agents; the other allows manipulation of substances that must be contained within a very high purity inert atmosphere, such as argon or nitrogen. It is also possible to use a glovebox for manipulation of items in a vacuum chamber.

Inert atmosphere work

The gas in a glovebox is pumped through a series of treatment devices which remove solvents, water and oxygen from the gas. Heated copper metal (or some other finely divided metal) is commonly used to remove oxygen, this oxygen removing column is normally regenerated by passing a hydrogen/nitrogen mixture through it while it is heated: the water formed is passed out of the box with the excess hydrogen and nitrogen. It is common to use molecular sieves to remove water by adsorbing it in the molecular sieves' pores. Such a box is often used by organometallic chemists to transfer dry solids from one container to another.

An alternative to using a glovebox for air sensitive work is to employ Schlenk methods using a Schlenk line. One disadvantage of working in a glovebox is that organic solvents will attack the plastic seals. As a result, the box will start to leak and water and oxygen can then enter the box. Another disadvantage of a glovebox is that oxygen and water can diffuse through the plastic gloves.

Inert atmosphere gloveboxes are typically kept at a higher pressure than the surrounding air, so that any microscopic leaks are mostly leaking inert gas out of the box instead of letting air in.

Hazardous materials work

At the now-deactivated Rocky Flats Plant, which manufactured plutonium triggers, also called "pits", production facilities consisted of linked stainless steel gloveboxes up to 64 feet, or 20 meters, in length, which contained the equipment which forged and machined the trigger parts. The gloves were lead-lined. Other materials used in the gloveboxes included acrylic viewing windows and Benelex shielding composed of wood fiber and plastic which shielded against neutron radiation. Manipulation of the lead-lined gloves was onerous work.

Some gloveboxes for radioactive work are under inert conditions, for instance, one nitrogen-filled box contains an argon-filled box. The argon box is fitted with a gas treatment system to keep the gas very pure to enable electrochemical experiments in molten salts.[1]

Gloveboxes are also used in the biological sciences when dealing with anaerobes or high-biosafety level pathogens.

Gloveboxes used for hazardous materials are generally maintained at a lower pressure than the surrounding atmosphere, so that microscopic leaks result in air intake rather than hazard outflow. Gloveboxes used for hazardous materials generally incorporate HEPA filters into the exhaust, to keep the hazard contained.

See also

  • Desiccators are used for storing chemicals which are moisture-sensitive, but do not react quickly or violently with water.
  • Fume hoods are used for hazardous material handling where less operator protection and the same atmosphere can be used.
  • Hot cells often use remote manipulators to provide radiological containment where more operator protection is required.
  • Schlenk lines are used for manipulating oxygen- and moisture-sensitive chemicals.

References

  • Rob Toreki (24 May 2004). "Glove Boxes". The Glassware Gallery. Interactive Learning Paradigms Incorporated.
  • American Glovebox Society
  • Hans-Jürgen Bässler und Frank Lehmann: Containment Technology: Progress in the Pharmaceutical and Food Processing Industry. Springer, Berlin 2013