16th February 2017, London
The rapid four-week installation of a lightweight fire insulation blanket from Morgan Advanced Materials, a leading engineering company, aims to provide extensive thermal protection for three separator vessels on the Statoil Mariner offshore platform.
Morgan’s FireMaster vessel fire protection system is being used to maintain structural integrity of the separators against jet and hydrocarbon pool fires. Fire protection is crucial because these separators contain hydrocarbon inventory, which can become additional fuel to a fire in the event of structural failure, the company reports. Thermal weakening and failure occur when the walls of the separator are heated by the exposing fire case. With increased temperature of the steel vessel shell, the applied stress on it increases, causing rupture. Morgan’s FireMaster protection is said to ensure that the steel shell temperature does not reach breaking point as temperatures surge.
The design fire scenario stated that the separators should be able to withstand fire loads of five minutes of jet fire at 350w/m2, followed by five minutes of jet fire at 250kw/m2, and an additional 50 minutes of hydrocarbon pool fire. Morgan’s FireMaster solution was considered the most effective and easy-to-install option for the project, which had to be completed within the space of just one month, according to the manufacturer.
The initial plan for the project prior to Morgan’s involvement was to use traditional cellular glass, alkaline earth silicate wool, and stainless steel cladding. However, the project party agreed that it would be more beneficial to seek out a lighter, more immediate insulation solution. Morgan’s FireMaster vessel protection system was chosen for its strong and proven resistance to fire, its ability to provide a tested and certified solution for vessels, and its low rate of water absorption. The approach was to provide fire protection using FireMaster blanket alone with stainless cladding applied over the blanket to provide the necessary protection against erosion from the jet fire.
Upon receiving the design information, Morgan used its database of jet fire testing to validate finite element modelling to calculate the specified insulation thickness required to satisfy the critical temperature requirements of the vessel shell. With the tight project timescale in mind, this process was accelerated and Morgan’s team of engineers advised that the first stage separator would require an insulation thickness of 50mm, with the second stage separator and test separator requiring a thickness of 63mm.
The penetrations, which were to be insulated after erection, would require a coatback of 150mm to reduce the heat input into the vessels. Consideration also had to be given to the nozzle welds, which are inspected after one year and subsequently every five years following that. To facilitate easy access, the inspection hatches were installed according to Statoil’s own insulation handbook.
A key contributing factor to the fast and successful insulation of the separator vessels was the close collaboration between all parties involved in the project; Statoil, Daewoo Shipbuilding and Marine Engineering (DSME), and Morgan Advanced Materials, the company reports.
“This was a particularly challenging project due to the tight timescales we had to meet, and the restraints around insulating the penetrations on the top side of the separators. Indeed, one of these vessels is extremely geometrically complicated, so the use of a product that is easily adapted to suit complex shapes was key,” commented Allan Beeston, Global Fire Protection Manager at Morgan Advanced Materials.
“We were fortunate in that the design of our FireMaster insulation blanket lends itself to fast installation, but we could not have made this project such a success without the co-operation and collaboration of all the parties involved. Everyone was open to suggested new ways of working to accommodate the short timescale, and this attitude led to a successful job completed on time, amid several challenges.”