Safety

Introduction

A Superconducting Magnet System can be operated easily and safely, provided the correct procedures are obeyed and certain precautions observed.

This safety section must be read and understood by everyone who comes into contact with a Superconducting Magnet System. They are NOT for the sole information of senior or specialist staff. Proper training procedures must be undertaken to familiarize effectively all persons concerned with such equipment with these requirements. Also since the field from the magnet is 3-dimensional, consideration must be given to floors above and below the magnet as well as the surrounding space on the same level.

The installation and operation of a Superconducting Magnet System presents a number of hazards of which all personnel must be aware. It is essential that:

• Areas in which magnet systems are worked on or used, and their installation generally, are planned with full consideration for safety.
• Such premises and installations are operated in a safe manner and in accordance with proper procedures.
• Adequate training is given to personnel.
• Clear notices are placed and maintained to effectively warn people that they are entering a hazardous area.
• All health and safety procedures are observed.

These notes outline aspects of operation and installation which are of particular importance, however, the recommendations given cannot cover every eventuality and if any doubt arises during the operation of the system, the user is strongly advised  to contact the supplier.

It is the obligation of Oxford's customers to communicate effectively to their own customers and to users of the equipment in the information in this manual regarding safety procedures and hazards associated with magnet systems.

FLOOR LOADING

Professional assistance from a civil or structural engineer should be sought when considering any installation.

The Magnetic Field

Certain precautions must be taken to ensure that hazards will not exist due to the effect of a magnetic field on magnetic materials or on surgical implants. Typical of such effects are the following:

Large attractive forces may be exerted on equipment brought near to the magnet. The force may become large enough to move the equipment uncontrollably towards the magnet. Small pieces of equipment may therefore become projectiles, large equipment (e.g. gas bottles, power supplies) could cause bodies or limbs to become trapped between the equipment and the magnet. Either type of object may cause injury or death. The closer to the magnet, the larger the force. The larger the equipment mass, the larger the force.

The operation of medical implants, such as cardiac pacemakers, may be affected either by static or changing magnetic fields. Pacemakers do not all respond in the same way or at the same field level is exposed to fields above 5 Gauss.

Other medical implants, such as aneurysm clips, surgical slips, or prostheses, may contain ferromagnetic materials and therefore would be subject to strong forces near to the magnet. This could result in injury or death. Additionally, in the vicinity of rapidly changing fields (e.g. pulsed gradient fields), eddy currents may be induced in the implant resulting in heat generation.

The operation of equipment may be directly affected by the presence of large magnetic fields. Items such as watches, tape recorders, and cameras may be magnetized and irreparably damaged if exposed to fields above 10 Gauss. Information encoded magnetically on credit cards and magnetic tape including computer floppy disks, may be irreversibly corrupted. Electrical transformers may become magnetically saturated in fields above 50 Gauss. The safety characteristics of equipment may also be affected.

To prevent situations as described above from occurring, the following general precautions are provided as guidelines. These should be regarded as minimum requirements. Every magnet site location should be reviewed individually to determine precautions to be taken against the above hazards. Also, since the field from the magnet is 3-dimensional, consideration must be given to the floors above and below the magnet as well as the surrounding space on the same level.

Before ramping the magnet to field

The following precautions must be taken,

• Ensure all loose ferromagnetic objects are moved from within 2 meters of the OVC, or 3 meters for high field magnets ( > 11 Tesla).
• At all points of access to the magnet room display warning signs that the magnet is operating.
• Display warning signs giving notice of the possible presence of magnet fields and of the potential hazards in all areas where the field may exceed 5 Gauss.
• Ensure all electronics and interfacing equipment supplied by Oxford instruments are placed in areas where the field is less than 10 Gauss.
• The safe working field level of other equipment must be individually assessed by the system manufacturer.

After ramping the magnet to field

• Do not bring ferromagnetic objects into the magnet room.
• Use only non-magnetic cylinders and dewars for storage/transfer of compressed gas or cryogenic liquids. Equipment for transportation of cylinder/ dewars must be non-magnetic.

Fire and Explosion Hazards

In the case of fire evacuate personnel from the area and sound the fire alarm.

Water must not be used on electrical equipment and when sprayed on cryogenic liquids will rapidly freeze. The magnet ventilation may become blocked by ice with subsequent risk of explosion and the release of cryogens from the system.

The surface temperature of containers for liquid nitrogen and helium, if not vacuum insulated, may be sufficiently low to condense oxygen or oxygen enriched air. This liquid in contact with flammable substances can become explosive.

Portable fire fighting equipment must be non-magnetic and should be installed by agreement with the local fire authority.

Local emergency services must be informed of the presence of a magnet operating in their area as this may affect their procedures in dealing with fires or other accidents.

In case of a large cryogen spillage avoid direct contact with the liquid; sound fire alarm and evacuate the area.

Oil mist filters should be fitted to pumps to reduce the emission of toxic oil vapors which pose both health and explosion hazards.

The Safe Handling of Cryogenic Substances