Title: | Methods and applications of pyrolysis modelling for polymeric materials Pyrolyysimallinnuksen metodeita ja sovelluksia polymeereille |
Author(s): | Matala, Anna |
Date: | 2013 |
Language: | en |
Pages: | 85 + app. 87 |
Department: | Matematiikan ja systeemianalyysin laitos Department of Mathematics and Systems Analysis |
ISBN: | 978-951-38-8102-3 (electronic) 978-951-38-8101-6 (printed) |
Series: | VTT Science, 44 |
ISSN: | 2242-1203 (electronic) 2242-119X (printed) 2242-119X (ISSN-L) |
Supervising professor(s): | Ehtamo, Harri, Professor, Aalto University, Department of Mathematics and Systems Analysis Laboratory, Finland |
Thesis advisor(s): | Hostikka, Simo, Doctor, VTT Technical Research Centre of Finland |
Subject: | Chemistry |
Keywords: | pyrolysis modelling, simulation, polymer, cables, composites, probabilistic risk assessment (PRA), pyrolyysimallinnus, simulaatiot, polymeerit, kaapelit, komposiitit, todennäköisyyspohjainen riskianalyysi (PRA) |
OEVS yes | |
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Abstract:Tulipalot aiheuttavat todellisen uhan ihmisille ja omaisuudelle. Mikäli riskit voidaan tunnistaa jo ennen onnettomuutta, tulipalon ikäviä seurauksia voidaan rajoittaa. Paloturvallisuuden merkitys korostuu erityisesti paikoissa, joissa on paljon ihmisiä ja rajoitetut evakuointimahdollisuudet (esim. laivat ja lentokoneet), ja laitoksissa, joissa tulipalon seuraukset voivat levitä laajalle palopaikan ulkopuolellekin (esim. ydinvoimalaitokset). |
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Parts:[Publication 1]: Matala, A., Hostikka, S. and Mangs, J. (2008) Estimation of Pyrolysis Model Parameters for Solid Materials Using Thermogravimetric Data. Fire Safety Science – Proceedings of the Ninth International Symposium, International Association for Fire Safety Science, pp. 1213–1224.[Publication 2]: Matala, A., Lautenberger, C. and Hostikka, S. (2012) Generalized direct method for pyrolysis kinetic parameter estimation and comparison to existing methods. Journal of Fire Sciences, Vol. 30, No. 4, pp. 339–356.[Publication 3]: Matala, A. and Hostikka, S. (2011) Pyrolysis Modelling of PVC Cable Materials. Fire Safety Science – Proceedings of the Tenth International Symposium, International Association for Fire Safety Science, pp. 917–930.[Publication 4]: Matala, A. and Hostikka, S. (2013) Modelling polymeric material using Microscale combustion calorimetry and other small scale data. Manuscript submitted to Fire and Materials in June 2013.[Publication 5]: Matala, A. and Hostikka, S. (2011) Probabilistic simulation of cable performance and water based protection in cable tunnel fires. Nuclear Engineering and Design, Vol. 241, No. 12, pp. 5263–5274. |
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