Fire and explosion hazard evaluation for the acetone aqueous solutions: Using weighting analysis of influence factors by grey system theory and 20-L-apparatus flammability investigations
Chang, Y.M.; You, M.L.; Lin, C.H.; Wu, S.Y.; Tseng, J.M.; Lin, C.P.; Wang, Y.L.; Shu, C.M.
J. Therm. Anal. Calorim 106(1): 179-189
2011
ISSN/ISBN: 1388-6150 Accession: 075482827
PDF emailed within 1 workday: $29.90
Related References
Chang, Y.; You, M.; Lin, C.; Wu, S.; Tseng, J.; Lin, C.; Wang, Y.; Shu, C. 2011: Fire and explosion hazard evaluation for the acetone aqueous solutions Journal of Thermal Analysis and Calorimetry 106(1): 179-189Chad, V. Mashuga; Daniel, A. Crowl 1998: Application of the flammability diagram for evaluation of fire and explosion hazards of flammable vapors Process Safety Progress 17(3): 176-183
Chiou ChyiRong; Zhen JenJane; Yang ChiMing; Huang WenDar 2006: Application of grey system theory on biology: (5) grey relational analysis of the climate factors and forest fire frequency and area in Mt. Dadu area Crop, Environment and Bioinformatics 3(4): 355-360
Wang, Y.; Li, M.; Yang, B.; Yang, C. 2012: An Urban Rail Transit Hazard Evaluation Methodology Based on Grey System Theory Procedia - Social and Behavioral Sciences 43: 764-772
Liaw, H.; Liou, Y. 2021: Systematic thermal and flammability hazard analysis of a DMPAT explosion accident in Taiwan Process Safety and Environmental Protection 148: 20-33
Chen, C.; You, M.; Wen, K. 2015: The Weighting Analysis of TOPSIS via Grey System Theory – An Example in School Exam's Score International Journal of Information and Education Technology 5(2): 95-99
Luo, J.; Wang, Q.; Chung, Y.; Volli, V.; Shu, C.; Cheng, Y. 2021: Hazard evaluation, explosion risk, and thermal behaviour of magnesium- aluminium alloys during the polishing process by using a 20-L apparatus, MIEA, and TGA Process Safety and Environmental Protection 153: 268-277
Lin, J.; Frey, P.A. 2000: Strong Hydrogen Bonds in Aqueous and Aqueous−Acetone Solutions of Dicarboxylic Acids: Activation Energies for Exchange and Deuterium Fractionation Factors Journal of the American Chemical Society 122(45): 11258-11259
Hsu, J.; Lin, C. 2018: Numerical analysis of fire consequences and effective solutions in a corn starch explosion fire based on computational fire dynamics simulator Cluster Computing 22(S 6): 14411-14418
Indrek, S. Wichman 2003: Material flammability, combustion, toxicity and fire hazard in transportation Progress in Energy and Combustion Science 29(3): 247-299
Rybiński, P.; Żukowski, W.; Bradło, D. 2016: Effect of cenospheric fillers on the flammability and fire hazard of silicone rubber composites Journal of Thermal Analysis and Calorimetry 125(3): 1373-1386
Shorr, N.; Steinsapir, K.D. 1994: Flammability of high-density porous polyethylene: a potential intraoperative fire hazard Archives of Ophthalmology 112(10): 1276-1277
Janowska, G.; Kucharskajastrzabek, A.; Rybinski, P. 2011: Thermal stability, flammability and fire hazard of butadiene-acrylonitrile rubber nanocomposites Journal of Thermal Analysis and Calorimetry 103(3): 1039-1046
Bradburn, N.; Coker, R.D.; Jewers, K.; Tomlins, K.I. 1990: Evaluation of the ability of different concentrations of aqueous acetone aqueous methanol and aqueous acetone to methanol 1 to 1 to extract aflatoxin from naturally contaminated maize Chromatographia 29(9-10): 435-440
Bradburn, N.; Coker, R.D.; Jewers, K.; Tomlins, K.I. 1990: Evaluation of the ability of different concentrations of aqueous acetone, aqueous methanol and aqueous acetone : methanol (1:1) ot extract aflatoxin from naturally contaminated maize Chromatographia (Wiesbaden) 29(9-10): 435-440
Bradburn, N.; Coker, R.D.; Jewers, K.; Tomlins, K.I. 1990: Evaluation of the ability of different concentrations of aqueous acetone, aqueous methanol and aqueous acetone:methanol (1:1) to extract aflatoxin from naturally contaminated maize Chromatographia 29(9/10): 435-440
Greene, B.A. 1941: The Hazard of Fire and Explosion in Anesthesia Anesthesiology 2(2): 144-160
Lv, C.; Wang, J.; Zhang, F. 2018: Forest fire spread model based on the grey system theory The Journal of Supercomputing 76(5): 3602-3614
Zeng, L.; Liang, H.; Wang, Z.; Zhang, Q. 2021: Explosion Hazard of AP/HTPB in Fire Condition Combustion Science and Technology: 1-15
F.Z.Qiang; Sun QiHong; Cai YunLong; Dai ErFu 2002: Research on forecasting model of forest fire based on grey-system theory Scientia Silvae Sinicae 38(5): 95-100