Maria-Monika Metallinou scite author profile

It has recently been demonstrated that 50 mm thick industrial grade thermal insulation may serve as passive fire protection of jet fire exposed thick walled steel distillation columns. The present study investigates the performance of thermal insulation in conjunction to 3 mm, 6 mm, 12 mm and 16 mm steel walls, i.e., where the wall represents less heat sink, when exposed to 350 kW/m2 heat load. Regardless of the tested steel plate thicknesses, about 10 min passed before a nearly linear steel temperature increase versus time was observed. Thereafter, the thinnest plates systematically showed a faster temperature increase than the thickest plates confirming the wall heat sink effect. To study thermal insulation sintering, 50 mm thermal insulation cubes were heat treated (30 min holding time) at temperatures up to 1100 °C. No clear sign of melting was observed, but sintering resulted in 25% shrinkage at 1100 °C. Thermogravimetric analysis to 1300 °C revealed mass loss peaks due to anti-dusting material at 250 °C and Bakelite binder at 460 °C. No significant mass change occurred above 1000 °C. Differential scanning calorimetry to 1300 °C revealed endothermic processes related to the anti-dusting material and Bakelite mass losses, as well as a conspicuous endothermic peak at 1220 °C. This peak is most likely due to melting. The endothermic processes involved when heating the thermal insulation may to a large part explain the 10 min delay in steel plate temperature increase during fire testing. Overall, the tested thermal insulation performed surprisingly well also for protecting the thin steel plates.

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Small Scale Hydrocarbon Fire Test Concept

Bjørge

Metallinou

Kraaijeveld

et al. 2017

Technologies

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Abstract:In the oil and gas industry, hydrocarbon process equipment was previously often thermally insulated by applying insulation directly to the metal surface. Fire protective insulation was applied outside the thermal insulation. In some cases, severe corrosion attacks were observed due to ingress of humidity and condensation at cold surfaces. Introducing a 25 mm air gap to prevent wet thermal insulation and metal wall contact is expected to solve the corrosion issues. This improved insulation methodology does, however, require more space that may not be available when refurbishing older process plants. Relocating structural elements would introduce much hot work, which should be minimized in live plants. It is also costly. The aim of the present study is therefore to develop a test concept for testing fire resistance of equipment protected with only air-gap and thermal insulation, i.e., without the fire-protective insulation. The present work demonstrates a conceptual methodology for small scale fire testing of mockups resembling a section of a distillation column. The mockups were exposed to a small-scale propane flame in a test configuration where the flow rate and the flame zone were optimized to give heat flux levels in the range 250-350 kW/m 2 . Results are presented for a mockup resembling a 16 mm thick distillation column steel wall. It is demonstrated that the modern distance insulation in combination with the heat capacity of the column wall indicates 30+ minutes fire resistance. The results show that this methodology has great potentials for low cost fire testing of other configurations, and it may serve as a set-up for product development.

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Emergence of and Learning Processes in a Civic Group Resuming Prescribed Burning in Norway

Metallinou

2020

Sustainability

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Background: Coastal Norwegian heathlands have been regularly managed by burning for about 5000 years. This practice, supporting sustainable herbivore production, did, however, seize in the 1950s and was virtually absent for 60–70 years. Loss of biodiversity, increased fire hazard due to biomass accumulation and loss of visual landscape qualities recently propelled new interest in traditional landscape management. Loss of know-how makes this a dangerous activity. The present study focuses on the emergence and learning processes of a civic group established for resuming prescribed burning in Northern Rogaland in order to possibly assist similar initiatives elsewhere. Methods: Study of written information, interviews with core prescribed burners and participant observation have been undertaken. The topics at four annual prescribed burning seminars, arranged by the studied civic group, have been analyzed. Participant observation at civic group winter meetings, debriefing sessions and field work has also been undertaken. Results: Pioneers who, without guidance, resumed prescribed burning relied on experience gained as part-time firefighters and relations to farming, in particular sheep grazing. Building good relations with local fire brigades and support by local and regional environmental authorities (especially the local agricultural advisory office) enhanced the practice. Short weather window, assembling a big enough burner group on the working days, as well as possible liability issues were identified as challenges. They were self-taught through “learning by doing” and open to new technologies/artifacts, i.e., leaf blowers for fire control. Their use of artifacts, together with supporting the fire brigades during a wildfire, strengthened their group identity. A connection to academia improved the focus on safe and effective prescribed burning through deeper insight into the physical parameters that govern burning in the terrain. Conclusions: The study provides valuable insight into favorable preconditions and possible key personnel for resuming prescribed burning in other areas in Norway and elsewhere. Content and teaching methods for a possible future standardized prescribed heathland burning course are suggested.

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Thermal conductivity measurements using a short transient hot-strip method

Log¹,

Metallinou²

1992

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Single‐ and double‐loop organizational learning through a series of pipeline emergency exercises

Metallinou

2017

Contingencies & Crisis Mgmt

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Onshore pipelines represent a risk to society due to potential leaks. Training and exercising emergency response systems are therefore part of the legislation in affected countries. In the present work, a series of three biannual exercises, simulating leaks from Norwegian onshore hydrocarbon pipelines, is assessed. Single‐ and double‐loop learning theory is used to analyse the learning processes. Seven single‐loop and two double‐loop learning processes are documented. Among others, public notification and establishment of evacuation centres were greatly improved. A conceptual change in risk assessment, followed by development of artefacts and improved communication lines, also occurred. It is demonstrated that a series of full‐scale exercises, with successive learning steps, is a sound way to improve the performance of emergency response systems.

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