List of Center Publications for Flammability

Flammability Characteristics of Light Hydrocarbons and its Mixtures at Elevated Conditions

Gan, Ning (2018). Flammability Characteristics of Light Hydrocarbons and Their Mixtures at Elevated Conditions. Doctoral dissertation, Texas A & M University. https://oaktrust.library.tamu.edu/handle/1969.1/174319

Systematic Analysis of Spontaneously Combustible Substances

Proddutoor, Abhishek (2018). Systematic Analysis of Spontaneously Combustible Substances. Master’s thesis, Texas A & M University. https://oaktrust.library.tamu.edu/handle/1969.1/173704
Yuan, S., Jiao, Z., Quddus, N., Kwon, J. S. I., & Mashuga, C. V. (2019). Developing quantitative structure–property relationship models to predict the upper flammability limit using machine learning. Industrial & Engineering Chemistry Research, 58(8), 3531-3537. https://doi.org/10.1021/acs.iecr.8b05938

Development of Machine Learning Based Prediction Models For Safety Related Properties and Consequences

Jiao, Z., Escobar-Hernandez, H., Parker, T., & Wang, Q. (2019). Review of Recent Developments of Quantitative Structure-Property Relationship Models on Fire and Explosion Related Properties. Process Safety and Environmental Protection. https://doi.org/10.1016/j.psep.2019.06.027
Jiao, Z., Yuan, S., Zhang, Z., & Wang, Q. (2020). Machine learning prediction of hydrocarbon mixture lower flammability limits using quantitative structure‐property relationship models. Process Safety Progress, 39(2), e12103. https://doi.org/10.1002/prs.12103

Other Publications

Hatanaka, L.C., L. Ahmed, S. Sachdeva, Q. Wang, Z. Cheng and M.S. Mannan, “Thermal degradation and flammability of nanocomposites composed of silica crosslinked to poly(methyl methacrylate),” Plastics, Rubber and Composites, vol. 45, no. 9, 2016, pp. 375-381.
Sikes, T., M.S. Mannan and E.L. Petersen, “Laminar Flame Speeds of Nano-Aluminum/Methane Hybrid Mixtures,” Combustion and Flame, vol. 166, April 2016, pp. 284–294.
Zhao, F. and M.S. Mannan, “Numerical Analysis for Nitrogen Dilution on Flammability Limits of Hydrocarbon Mixtures,” Journal of Loss Prevention in the Process Industries, vol. 43, September 2016, pp. 600-613.
Jiang, J., Y. Liu, C.V. Mashuga and M.S. Mannan, “Validation of a New Formula for Predicting the Lower Flammability Limit of Hybrid Mixtures,” Journal of Loss Prevention in the Process Industries, vol. 35, May 2015, pp. 52-58.
Jiang, J., Y. Liu and M.S. Mannan, “A Correlation of the Lower Flammability Limit for Hybrid Mixtures,” Journal of Loss Prevention in the Process Industries, vol. 32, November 2014, pp. 120-126.
Le, H., Y. Liu and M.S. Mannan, “Lower Flammability Limits of Hydrogen and Light Hydrocarbons at Subatmospheric Pressures,” Industrial and Engineering Chemistry Research, vol. 52, no. 3, 2013, pp. 1372–1378.
Le, H., S. Nayak and M.S. Mannan, “Upper Flammability Limits of Hydrogen and Light Hydrocarbons in Air at Subatmospheric Pressures,” Industrial and Engineering Chemistry Research, vol. 51, no. 27, 2012, pp. 9396–9402.
Le, H., M.S. Mannan and S. Nayak, “Flammability Limits of Hydrogen in Air at Atmospheric and Sub-atmospheric Pressures,” Proceedings of 8th Global Congress on Process Safety, Houston, Texas, April 1-4, 2012.
Valenzuela, E.M., R. Vázquez-Román, S.J. Patel and M.S. Mannan, “Prediction Models for the Flash Point of Pure Components,” Journal of Loss Prevention in the Process Industries, vol. 24, no. 6, November 2011, pp. 753-757.
Lian, P., A.F. Mejia, Z. Cheng and M.S. Mannan, “Flammability of Heat Transfer Fluid Aerosols Produced by Electrospray Measured by Laser Diffraction Analysis,” Journal of Loss Prevention in the Process Industries, vol. 23, no. 2, March 2010, pp. 337-345.
Zhao, F., W.J. Rogers and M.S. Mannan, “Calculated Flame Temperature (CFT) Modeling of Fuel Mixture Lower Flammability Limits,” Journal of Hazardous Materials,” vol. 174, no. 1-3, February 2010, pp. 416-423.
Castellanos, D., D. Ng, V.H. Carreto-Vazquez, H.J. Pasman and M.S. Mannan, “Review of an Adequate Chemical Dust Suppressant Used for Prevention of Dust Explosions in Food Industry,” Proceedings of the 12th Annual Mary Kay O’Connor Process Safety Center Symposium – Beyond Regulatory Compliance: Making Safety Second Nature, College Station, Texas, October 27-28, 2009, pp. 697-701.
Vidal, M., W. Wong, W.J. Rogers and M.S. Mannan, “Evaluation of Lower Flammability Limits of Fuel-Air-Diluent Mixtures Using Calculated Adiabatic Flame Temperatures,” Journal of Hazardous Materials, vol. 130, no. 1-2, March 2006, pp. 21-27.
Vidal, M., W.J. Rogers, and M.S. Mannan, “Prediction of Minimum Flash Point Behavior for Binary Mixtures,” Transactions of the Institute of Chemical Engineers, Part B, Process Safety and Environmental Protection, vol. 84, no. B1, January 2006, pp. 1-9.
Vidal, M., W. Wong, M.S. Mannan, and W.J. Rogers, “Evaluation of Lower Flammability Limits of Fuel-Air-Diluent Mixtures,” Proceedings of the 7th Annual Mary Kay O’Connor Process Safety Center Symposium – Beyond Regulatory Compliance: Making Safety Second Nature, College Station, Texas, October 26-27, 2004, pp. 401-416.
Vidal, M., W.J. Rogers, J.C. Holste, and M.S. Mannan, “A Review of Estimation Methods for Flash Points and Flammability Limits,” Process Safety Progress, vol. 23, no. 1, March 2004, pp. 47-55.
Sposato, C., F. Tamanini, W.J. Rogers, and M.S. Mannan, “Effects of Plate Impingement on the Flammable Volumes of Fuel Jet Releases,” Process Safety Progress, vol. 22, no. 4, December 2003, pp. 201-211.
Vidal, M., J.P. Wagner, W.J. Rogers, and M.S. Mannan, “Charge Generation During Filling of Insulated Tanks,” Process Safety Progress, vol. 21, no. 3, September 2002, pp. 181-184.
Vidal, M., J.P. Wagner, W.J. Rogers and M.S. Mannan, “Electrostatic Hazards and Flammable Liquids,” Proceedings of the 4th Annual Mary Kay O’Connor Process Safety Center Symposium, Beyond Regulatory Compliance: Making Safety Second Nature, College Station, Texas, October 30-31, 2001, pp. 723-734.