Heat Transfer on inclined Floorings

International E-publication: Publish Projects, Dissertation, Theses, Books, Souvenir, Conference Proceeding with ISBN. International E-Bulletin: Information/News regarding: Academics and Research

Heat Transfer on inclined Floorings

Author Affiliations

¹Faculty of Special Engineering, 897, Rosina, SLOVAKIA

Res. J. Recent Sci., Volume 3, Issue (11), Pages 46-49, November,2 (2014)

Abstract

The paper deals with the results of laboratory measurements of heat transfer of several flooring materials. The results of measurements show the impact of inclination towards on the heat transfer rate and mass loss. Heat transfer spread rate, mass loss in three different flooring materials were monitored and compared. The results show exponential dependence of heat transfer rate and mass loss on inclined samples. Inclining increases the flame speed significantly in all the flooring materials. It should be considered when the decline or inclined planes are designed into public buildings with the risk of fire.

References

Müllerová J. and Mikulík M., Environmental and health risks of solid fuel boilers’emissions, Košice: Multiprint, (2010)
Müllerová J., Hloch S. and Valíek J., Decreasing of emissions released by biomass combustion in hot water boiler. Chem. Listy, 104 (9), 876-879, (2010)
Valíek J., Müllerová J., Kubna V., Koštial P., Harniárová M. and Mikulík M., Emission distribution and regulation of local heat source, Def. Dif. Forum, 326-328, 330-334, (2012)
Beníková E., Hot water boiler risk elimination for environmental safety, Hydraulika a pneumatika, 13(3-4), 52-55, (2011)
Müllerová J. and Mikulík M., Emission parametres for correct operation of gasifying boiler, Technológ 1, 9-16, (2011)
Müllerová J. and Mikulík M., Technology and safety of biomass combustion, Saarbrücken : LAP Lambert Academic Publishing, (2012)
Osvald A. and Osvaldová L., Retardácia horenia smrekového dreva, TU ZV, Zvolen 2003
Martinka J., Hroncová E., Chrebet T. and Balog K, Fire risk assessment of thermally modified spruce wood, Acta Fac. Xylologiae,55(2), 117-128 (2013)
Kaíková D. and Kaík F., Influence of thermal loading at spruce wood lignin alteration, Acta Fac. Xylologiae, 51(2)71-78, (2009)
Müllerová J.,Fire Safety Properties of Heat Treated Wood., Res. J. Recent Sci.,12, 80-82 (2013)
European Chemical Agency, Data on manufacture, import, export, uses and releases of bis (2-ethylhexyl) phthalate (DEHP) as well as information on potential alternatives to its use, Information on Chemicals, (2009)
US consumer product safety commission, Toxicity review on Diisononyl Phthalate (DINP), [on line] (2013-11-12), www.cpsc.gov, (2010)
Boberg J., Christiansen S., Axelstad M., Kledal T.S., Vinggaard A.M., Dalgaard M., Nellemann C. and Hass U., Reproductive and behavioral effects of diisononyl phthalate (DINP) in perinatally exposed rats, Reprod Toxicol, 31(2), 200-9 (2011)
David R.M., Michael R., Moore M. R., Finney D. C. and Guest D., Toxicol. Sci., 58(2), 377-385 (2000)
Lowell Center for Sustainable Production, Executive summary – Chap.2. DEHP in PVC medical devices [on line], (2013-11-15) http: //www. Sustainable production. org/ downloads/ DEHP %20Full%20Text.pdf
Plastics and Health Risks,Annual Review of Public Health, 31(1),179-194, (2010)
Directive 2005/84/EC of the European Parliament and of the Council 14 December 2005, Official Journal of the European Union., 27, (2005)
EN 13501-1:2010Fireclassification of construction products and building elements - Part 1: Classification using data from reaction to fire tests, Kupalová Z.: Nauka o materiálech. SOBOTÁLES, (2004)
Müllerová J. and Kriššák P., Introductory Thermo mechanics II, Multiprint (2007)
Mohd S., Sayyed H., Sayyed A., Vidya P. and Mazahar F., Thermodynamic Characteristics of Solvents: A Review, Res. J. Chem. Sci.3(11), 98-104 (2013)
Vráblová .. Müllerová J. and Flachbart J., Nonlinear forms of fire spread, fire simulator of backdraft Advances in fire & safety engineering,330-339 (2012)
Zachar M., Mitterová I., Xu Q., Majlingová A., Cong J. and Galla Š, Determination of fire and burning properties of spruce wood., Drvna industrija, 63(3), 217-223,(2012)

[ref1] Müllerová J. and Mikulík M., Environmental and health risks of solid fuel boilers’emissions, Košice: Multiprint, (2010)

[ref2] Müllerová J., Hloch S. and Valíek J., Decreasing of emissions released by biomass combustion in hot water boiler. Chem. Listy, 104 (9), 876-879, (2010)

[ref3] Valíek J., Müllerová J., Kubna V., Koštial P., Harniárová M. and Mikulík M., Emission distribution and regulation of local heat source, Def. Dif. Forum, 326-328, 330-334, (2012)

[ref4] Beníková E., Hot water boiler risk elimination for environmental safety, Hydraulika a pneumatika, 13(3-4), 52-55, (2011)

[ref5] Müllerová J. and Mikulík M., Emission parametres for correct operation of gasifying boiler, Technológ 1, 9-16, (2011)

[ref6] Müllerová J. and Mikulík M., Technology and safety of biomass combustion, Saarbrücken : LAP Lambert Academic Publishing, (2012)

[ref7] Osvald A. and Osvaldová L., Retardácia horenia smrekového dreva, TU ZV, Zvolen 2003

[ref8] Martinka J., Hroncová E., Chrebet T. and Balog K, Fire risk assessment of thermally modified spruce wood, Acta Fac. Xylologiae,55(2), 117-128 (2013)

[ref9] Kaíková D. and Kaík F., Influence of thermal loading at spruce wood lignin alteration, Acta Fac. Xylologiae, 51(2)71-78, (2009)

[ref10] Müllerová J.,Fire Safety Properties of Heat Treated Wood., Res. J. Recent Sci.,12, 80-82 (2013)

[ref11] European Chemical Agency, Data on manufacture, import, export, uses and releases of bis (2-ethylhexyl) phthalate (DEHP) as well as information on potential alternatives to its use, Information on Chemicals, (2009)

[ref12] US consumer product safety commission, Toxicity review on Diisononyl Phthalate (DINP), [on line] (2013-11-12), www.cpsc.gov, (2010)

[ref13] Boberg J., Christiansen S., Axelstad M., Kledal T.S., Vinggaard A.M., Dalgaard M., Nellemann C. and Hass U., Reproductive and behavioral effects of diisononyl phthalate (DINP) in perinatally exposed rats, Reprod Toxicol, 31(2), 200-9 (2011)

[ref14] David R.M., Michael R., Moore M. R., Finney D. C. and Guest D., Toxicol. Sci., 58(2), 377-385 (2000)

[ref15] Lowell Center for Sustainable Production, Executive summary – Chap.2. DEHP in PVC medical devices [on line], (2013-11-15) http: //www. Sustainable production. org/ downloads/ DEHP %20Full%20Text.pdf

[ref16] Plastics and Health Risks,Annual Review of Public Health, 31(1),179-194, (2010)

[ref17] Directive 2005/84/EC of the European Parliament and of the Council 14 December 2005, Official Journal of the European Union., 27, (2005)

[ref18] EN 13501-1:2010Fireclassification of construction products and building elements - Part 1: Classification using data from reaction to fire tests, Kupalová Z.: Nauka o materiálech. SOBOTÁLES, (2004)

[ref19] Müllerová J. and Kriššák P., Introductory Thermo mechanics II, Multiprint (2007)

[ref20] Mohd S., Sayyed H., Sayyed A., Vidya P. and Mazahar F., Thermodynamic Characteristics of Solvents: A Review, Res. J. Chem. Sci.3(11), 98-104 (2013)

[ref21] Vráblová .. Müllerová J. and Flachbart J., Nonlinear forms of fire spread, fire simulator of backdraft Advances in fire & safety engineering,330-339 (2012)

[ref22] Zachar M., Mitterová I., Xu Q., Majlingová A., Cong J. and Galla Š, Determination of fire and burning properties of spruce wood., Drvna industrija, 63(3), 217-223,(2012)