Bell contamination

Diver 1 subsequently returned to the bell and entered the bell and was allowed to enter without taking the necessary precautions to ensure that he was free from contamination. On removal of his diving helmet, he reported to the bellman that he felt faint.

The diver was put on to the built-in breathing system (BIBS) and the bell was flushed through. Decontamination measures were then taken and diver 2 was subsequently recovered to the bell. During this incident a Hyper-Gas II analyser situated in the bell did not alarm and the bellman said he was unaffected.

A review of the incident was carried out by the member company, noting the following points:

• The analyser in use was an infra-red analyser that looks at the specific band of light related to crude oil and condensate and cannot necessarily be relied upon when vapour from only one or two specific hydrocarbons are present, as these may fall outside the band of infra red light being analysed.
  
  
• Where the analyser is to be used in an environment where vapour from other hydrocarbons could be present, it may be advisable to reset the analyser specifically to respond to these hydrocarbons.
  
  
• While the Hyper-Gas II analyser is capable of seeing specific fractions of hydrocarbons as part of crude or condensate mix, such fractions need to be at a relatively high concentration before the unit will alarm, e.g. 10% of the anaesthetic requirement. Concentrations of other chemical substances may also be at levels well above the occupational exposure standard (OES) and be well on the way to a level that will incapacitate the bell occupants, with potentially fatal consequences, before an alarm is given.
  
  
• The levels of individual hydrocarbons which cause anaesthesia are several orders of magnitude higher than the allowed occupational exposure standard for each compound. This being so the Hyper-Gas II cannot be, and has never been presented as, a first line warning of hydrocarbon contamination in the bell.
  
  
• Human sensory awareness can, in some circumstances, detect (but not quantify) substances before electronic devices. However, this must never be relied upon as a means of detection.
  
  
• Although the bell is small, contamination may occur in one area of the bell but not in others. This will depend on gas flows within the bell, composition/molecular weight of the contaminant chemicals and also how the contaminant is introduced into the bell, e.g. by the umbilical, contaminated clothing or gaseous ingress into the bell trunk. In two- and three-man bells mixing would naturally occur due to the restricted volume.