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- Auswirkungsbetrachtungen (1)
- Batterie (1)
- Battery (1)
- Combustion efficiency (1)
- Combustion factor (1)
- Cone calorimeter (1)
- Detektion (1)
- Elektrische Energiespeicher (1)
- Fire load density (1)
- Frühe Brandphase (1)
Organisationseinheit der BAM
The amount of heat, which is released by fire loads during the combustion
process, depends on the material characteristics, the ventilation
conditions, the storage density and the distribution. To evaluate the
structural stability of buildings in case of fire, the fire load has to be
quantified. In Germany, the fire load is quantified by using the combustion
factor m, while internationally the combustion efficiency χ is
applied. Both factors assess the burning behavior of materials, but the
determination is carried out in different ways. Since the testing facility
was abolished fifteen years ago, it is not possible to determine the combustion
factor m anymore. So, it should be found out, if the combustion
efficiency χ is a convenient method to quantify the fire load under the
consideration of the German standards. As a part of the research, combustion
efficiencies χ were determined for eight materials in the cone
calorimeter and the single burning item test at different heat fluxes.
The values of the combustion efficiencies χ as well as the corresponding
combustion factors m were discussed and compared to the values of the
literature. The results show an influence of the testing facility on the
combustion efficiency. The values of the combustion efficiency determined
in the single burning item test were higher than the values from
the cone calorimeter.
Im Rahmen des BMBF geförderten Verbundprojekts „TEBRAS – Konzepte und Techniken zur Branderkennung, Bekämpfung und Selbstrettung in der frühesten Brandphase“ arbeiten sechs Partner aus der Wissenschaft und der Industrie gemeinsam an Lösungen zur schnelleren Branddetektion und Bekämpfung. Ausgehend von Brandschadenstatistiken werden zunächst häufige Brandentstehungsszenarien, Brandursachen und die beteiligten Objekte und Materialien identifiziert. Auf dieser Basis wird ein Testszenario entwickelt, das es erlaubt, einen repräsentativen Entstehungsbrand unter definierten Testbedingungen zu untersuchen. Typische Brandkenngrößen werden anhand der ausgewählten Referenzszenarios des Schwelbrands einer Mischbrandkrippe vorgestellt. Der Fokus liegt dabei auf den freigesetzten Brandgasen.
Lithium ion batteries (LIBs) are prone to spontaneous and subsequent fire or explosion resulting from thermal runaway. The vented gases are not only toxic and flammable, their emission can also raise the surrounding pressure rapidly. In this study, characteristic variations of explosion pressure rise, rate of explosion pressure rise and 𝐾(sT)-value have been evaluated. The characteristic 𝐾(𝑠𝑇)-values were determined to evaluate the explosive behavior of LIBs during thermal runaway. The estimated values were compared to that of other explosive substances.