Explosion of Flammable Gases at the Hydrocracker Reactor of a Refinery
A section of effluent piping ruptured on the Hydrocracker Reactor of a Refinery. A mixture of light gases (methane, butane), light and heavy gasoline, gas oil and hydrogen was released from the pipe and instantly ignited upon contact with air, causing an explosion and fire. An operator who was checking a field temperature panel at the base of the reactor was killed; 46 employees or contractors were injured, 13 hospitalised.The effluent pipe ruptured because of excessively high temperature (over 760C) stemming from catalyst bed. The excessive heat generated in a catalyst bed was initiated by a reactor temperature excursion that began with a hot spot in another bed (most likely caused by poor flow and heat distribution within the catalyst bed) and spread through the other beds. The excursion was not brought under control because the Stage 2 reactors were not depressurised and shut down as required when the reactor temperatures exceeded the 426C temperature limit specified in the written operating procedures. Operators did not activate the emergency procedure because they were confused about whether a temperature excursion was actually occurring due to poor alarms (no additional audible high temperature alarm), fluctuating readings that obliged an operator to go read the temperature under the reactor.
Event Date
January 21, 1997
Record Quality Indicator
Region / Country
Event Initiating System
Classification of the Physical Effects
Nature of the Consequences
Cause Comments
The effluent pipe ruptured because of excessively high temperature (over 760C) stemming from catalyst bed.The excessive heat was probably caused by poor flow and heat distribution within the catalyst bed.Accident and consequence were caused by a poor safety design and lacks in safety management.
Facility Information
Application Type
Application
Specific Application Supply Chain Stage
Components Involved
Effluent piping from a Hydrocracker Reactor of a Refinery.
Storage/Process Medium
Location Type
Location description
Industrial Area
Pre-event Summary
Mixture of hydrocarbon and hydrogen was transported in the pipeline.
Number of Fatalities
1
Currency
Lessons Learned
Lessons Learned
The environmental protection agency investigated the case and pointed out poor safety design and lacks in management:1.Inadequate operating conditions. 2.Poor design of the Reactor Temperature Monitoring System: 3 different instrumentation systems were used to obtain temperature data, access to the most critical monitoring points located underneath the reactors, alarm system allowing one alarm to be received at a time, no distinction between emergency alarms and other operating alarms. Hydrogen purity analysis data available to operators lagged seven minutes behind the actual time of the analysis and provided misleading information to the operators.3.Inadequate supervisory Management. No communication of incidents to management, no comprehensive operator training, including refresher training, had been No management of change program was implemented to address mechanical changes or operational changes.4.Inadequate Operational Readiness and Maintenance : the temperature monitor in the control room unreliable and/or out of service, radio communications unreliable and/or not functioning, emergency depressurization system was not tested to ensure its reliability when needed. 5.Inadequate operator training and outdated or incomplete procedures. Recommendations from several incidents were not incorporated into procedures.
Event Nature
Emergency Action
Unknown
Detonation
No
Deflagration
No
High Pressure Explosion
No
High Voltage Explosion
No
Source Category
References
References
EPA investigation 550-R-98-0094