Method for comparison of different fire extinguishing technologies – Part 5. How do we determine the foam blanket thickness that is necessary for the successful extinguishment in two minutes?
Method for comparison of different fire extinguishing technologies – Part 4. To understand, why the increased foam application rate is so important, for the first we must understand the mechanism that makes the foam moving on the hydrocarbon surface. Let us take a model, where the foam is flowing down […]
Method for comparison of different fire extinguishing technologies – Part 3. How can we improve the success rate of the Storage Tank fire fighting? We have good news for the Fire Experts: we have the opportunity for positive influence on the measured efficiency by changing the parameters of the tank fire […]
Method for comparison of different fire extinguishing technologies – Part 2. Introducing the Foam Application Efficiency: proposal for the industry for comparison method of fire fighting technologies for Storage Tank Fires. The R&d Department of FoamFatale International Inc. suggests to use the FOAM APPLICATION EFFICIENCY (η) as the numerical […]
Method for comparison of different fire extinguishing technologies – Part 1. Sometimes the management of a Storage Site has to face with the problem of comparison and choosing the possibly best tank fire extinguishing strategy and technology to protect their tanks. The comparison usually happens when new tanks are intended […]
Introduction of the ISO 14001 to the disaster recovery – part 8/8. Fire protection: how an environmental aware system works In the case of fire in any of the A, B or C storage tanks, its fire detector sends an alarm signal to the pneumatically operated foam valve control […]
Introduction of the ISO 14001 to the disaster recovery – part 7/8. Extinguishing tank fire – outline of the task In the northern provinces of Canada, oil pipelines run in a length of several thousands of kilometers in uninhabited areas. The pump stations that convey the oil operate without an […]
Introduction of the ISO 14001 to the disaster recovery – part 6/8. What are the main features of the latest tank fire extinguishing systems? The amount of foaming agent necessary for extinguishing is less than 10% of the amount used by former techniques The foam is not produced at […]
Introduction of the ISO 14001 to the disaster recovery – part 5/8. Tank fire protection development: the main research task is to eliminate the drawbacks. Research covered three key areas: elaboration of a strategy improving the success ratio of fire fighting determination of new technical parameters for extinguishing development of […]
Introduction of the ISO 14001 to the disaster recovery – part 4/8. Tank fire fighting development at U.S. companies is based on the assumption that in the case of fire, because of the long preparation time, fire will inevitably destroy the devices necessary to conduct the built-in or semi-stable extinguishing procedure, […]
Introduction of the ISO 14001 to the disaster recovery – part 3/8. Experiences unambiguously show that the combustion of over 60,000 m3 tanks cannot be extinguished with the most of applied extinguishing methods. What now? At the present time, the fire prevention strategy used by oil and chemical companies is […]
Introduction of the ISO 14001 to the disaster recovery – part 2/8. Impact on the environment can no longer be ignored when using technological equipment in the chemical and oil industry. Guidelines are provided and obligations are laid down by law with regard to the permissible extent of environmental impacts; soil, […]
The laws intended to safeguard our environment prescribe only indirectly that those provisions related to the use of the environment should be respected also during disaster recovery. ISO 14001 sets out the criteria for an environmental management system. It does not state requirements for environmental performance, but maps out […]
A boilover type of fire refers to an extremely hazardous situation where an attempt is made to extinguish semi-enclosed oil or petrochemical fueled fire with water. The hazard results due to the difference in density between oil and water. Boilover is also common in the home as a chip […]