CHETAH 11.0

    The ASTM Computer Program for Chemical Thermodynamic and Energy Release Evaluation CHETAH®, Version 11.0


    Key Reference Articles About CHETAH

    10 Articles Total

    Articles and Books About Using CHETAH

    137 Articles Total

    • Bellair, Robert J., and Lawrence Hood. “Comprehensive Evaluation of the Flammability and Ignitability of HFO-1234ze.” Process Safety and Environmental Protection, vol. 132, Dec. 2019, pp. 273–284. EBSCOhost, https://doi:10.1016/j.psep.2019.09.033.
    • Anothairungrat, S., S. Ouajai, and K. Piyamongkala. "Screening Test of Evaluation Thermal Hazard for H2O2 by DSC." IOP Conference Series: Earth and Environmental Science. Vol. 219. No. 1. IOP Publishing, 2019.https://doi.org/10.1088/1755-1315/219/1/012017
    • Palmer, David A. CRC handbook of applied thermodynamics. CRC press, 2019 https://doi.org/10.1201/9781351070980.
    • Vuori, Hannu T., et al. "Benson group additivity values of phosphines and phosphine oxides: Fast and accurate computational thermochemistry of organophosphorus species." Journal of computational chemistry 40.3 (2019): 572-580.https://doi.org/10.1002/jcc.25740
    • Copelli, Sabrina, et al. "A predictive model for the estimation of the deflagration index of organic dusts." Process Safety and Environmental Protection 126 (2019): 329-338.https://doi.org/10.1016/j.psep.2019.04.012
    • Mohamed Esmail, Abdelhamid. "The importance of Training on Engineering Control of Hazardous." Journal of Engineering and Computer Science (JECS) 20.1 (2019): 64-71.http://repository.sustech.edu/handle/123456789/23755
    • Lu, Yi-Ming, Shang-Hao Liu, and Chi-Min Shu. "Evaluation of thermal hazards based on thermokinetic parameters of 2-(1-cyano-1-methylethyl) azocarboxamide by ARC and DSC." Journal of Thermal Analysis and Calorimetry 138.4 (2019): 2873-2881.https://doi.org/10.1007/s10973-019-08827-z
    • Britton, L. G., & Harrison, B. K., Minimum explosible concentrations of mist and dust clouds. Process Safety Progress, Vol. 37(1), Pages 4-17, (2018). https://doi.org/10.1002/prs.11959
    • Pey, Alexis. “Drum Burst Due to Runaway Reaction and the Limits of MOC.” Loss Prevention Bulletin, no. 259, Feb. 2018, pp. 9–12. EBSCOhost, search.ebscohost.com/login.aspx?direct=true&db=bth&AN=129148606&site=eds-live DOI: 10.3303/CET1648135.
    • Dai, Yi-min, et al. “Estimation of Thermal Decomposition Temperatures of Organic Peroxides by Means of Novel Local and Global Descriptors.” Journal of Central South University, vol. 25, no. 7, July 2018, p. 1535.https://doi.org/10.1007/s11771-018-3846-0
    • Albahri, T.A. & Esmael, N. A.M., SGC based prediction of the flash point temperature of pure compounds, Journal of Loss Prevention in the Process Industries, Vol. 54, Pages 303-311, (2018). https://doi.org/10.1016/j.jlp.2018.05.005
    • Farr, James; Gorman, Dave; Sliva, Dan; Hielscher, Al; Nguyen, Trong; Baran, George; Drake, Brenton; Ford, Emory; Frurip, Dave; Mulligan, Kirk; Ryan, John W.; Viveros, Dalina, Expanded Chemical Reactivity Worksheet (CRW4) for Determining Chemical Compatibility, Past, Present, and Future. Process Safety Progress, Vol. 36 Issue 1, p24-29, 6p. Publisher: John Wiley & Sons, (2017), https://doi.org/10.1002/prs.11833
    • Chiang, Chin-Lung, et al. “Thermal Release Hazard for the Decomposition of Cumene Hydroperoxide in the Presence of Incompatibles Using Differential Scanning Calorimetry, Thermal Activity Monitor III, and Thermal Imaging Camera.” Journal of Thermal Analysis & Calorimetry, vol. 127, no. 1, Jan. 2017, pp. 1061–1069. .doi:10.1007/s10973-016-5799-6.
    • Huang, An-Chi; Chen, Wei-Chun; Huang, Chung-Fu; Zhao, Jing-Yu; Deng, Jun; Shu, Chi-Min. Thermal stability simulations of 1,1-bis( tert-butylperoxy)-3,3,5 trimethylcyclohexane mixed with metal ions, Journal of Thermal Analysis & Calorimetry. Nov 2017, Vol. 130 Issue 2, p949-957. 9p. https://doiI: 10.1007/s10973-017-6439-5.
    • Deng, Jun; Zhao, Jing-Yu; Xiao, Yang; Zhang, Yan-Ni; Huang, An-Chi; Shu, Chi-Min. Thermal analysis of the pyrolysis and oxidation behaviour of 1/3 coking coal, Journal of Thermal Analysis & Calorimetry. Sep 2017, Vol. 129 Issue 3, p1779-1786. 8p. DOI: 10.1007/s10973-017-6331-3
    • Mathieu, Didier, et al. “From Theoretical Energy Barriers to Decomposition Temperatures of Organic Peroxides.” Journal of Thermal Analysis & Calorimetry, vol. 129, no. 1, July 2017, pp. 323–337. EBSCOhost, doi:10.1007/s10973-017-6114-x.
    • Shanmugam, B. K., Easwaran, S.N., Lakra, R., Deepa, P. R., & Mahadevan, S., Metabolic pathway and role of individual species in the bacterial consortium for biodegradation of azo dye: A biocalorimetric investigation, Chemosphere, Vol. 188, Pages 81-89, (2017). https://doi.org/10.1016/j.chemosphere.2017.08.138
    • Fumagalli, A., Derudi, M., Rota, R., Snoeys, J., Copelli, S., Prediction of the deflagration index for organic dusts as a function of the mean particle diameter, Journal of Loss Prevention in the Process Industries, Vol. 50, Part A, Pages 67-74,(2017). https://doi.org/10.1016/j.jlp.2017.08.015
    • Editor: Urben, P. G., Bretherick's Handbook of Reactive Chemical Hazards (Eighth Edition), Elsevier, Pages 1189-1204, (2017). ISBN 9780081009710, https://doi.org/10.1016/B978-0-08-100971-0.00005-6
    • Harrison, B.K., CHETAH 10.0, the ASTM computer program for the prevention of reactive and flammability hazards, Journal of Testing and Evaluation, Vol. 44 (3), Pages 1035-1049, (2016). https://doi.org/10.1520/JTE20160081
    • Britton, L. G., Clouthier, M. P., Harrison, B. K., & Rodgers, S. A. (2016). Limiting oxygen concentrations of gases. Process Safety Progress, Vol. 35(1), Pages 107-114, (2016). https://doi.org/10.1002/prs.11806
    • Editors: Chakrabarty, A., Mannan, S., Cagin, T., Chapter 3 - Molecular-Level Modeling and Simulation in Process Safety, Editor(s): Arnab Chakrabarty, Multiscale Modeling for Process Safety Applications, Butterworth-Heinemann, Pages 111-210, (2016). ISBN 9780123969750, https://doi.org/10.1016/B978-0-12-396975-0.00003-6
    • Elioff, Michael S., Jordan Hoy, and John A. Bumpus. "Calculating heat of formation values of energetic compounds: a comparative study." Advances in Physical Chemistry 2016 (2016).http://dx.doi.org/10.1155/2016/5082084
    • Albahri, T.A., MNLR and ANN structural group contribution methods for predicting the flash point temperature of pure compounds in the transportation fuels range, Process Safety and Environmental Protection,Vol. 93, Pages 182-191, (2015). https://doi.org/10.1016/j.psep.2014.03.005
    • Editor: Pasman, H., Chapter 3 - Loss Prevention History and Developed Methods and Tools, Risk Analysis and Control for Industrial Processes - Gas, Oil and Chemicals, Butterworth-Heinemann, Pages 79-184, (2015). ISBN 9780128000571, https://doi.org/10.1016/B978-0-12-800057-1.00003-1
    • Editor: Dennis P. Nolan, D. P., Chapter 4 - Physical Properties of Hydrocarbons and Petrochemicals, Handbook of Fire and Explosion Protection Engineering Principles (Third Edition), William Andrew Publishing, Pages 55-77, (2014). ISBN 9780323313018, https://doi.org/10.1016/B978-0-323-31301-8.00004-0
    • Shanmugam, B. K., & Mahadevan, S. Metabolism and biotransformation of azo dye by bacterial consortium studied in a bioreaction calorimeter, Bioresource Technology, Vol. 96, Pages 500–8, (2015). http://doi.org/10.1016/j.biortech.2015.07.108
    • Editor: Dennis P. Nolan, D. P., Chapter 4 - Physical Properties of Hydrocarbons and Petrochemicals, Handbook of Fire and Explosion Protection Engineering Principles (Third Edition), William Andrew Publishing, Pages 55-77, (2014). ISBN 9780323313018, https://doi.org/10.1016/B978-0-323-31301-8.00004-0
    • Britton, L. G., & Harrison, B. K. (2014). Using CHETAH to estimate lower flammable limit, minimum ignition energy, and other flammability parameters. Process Safety Progress, Vol. 33(4), Pages 314-328, (2014). https://doi.org/10.1002/prs.11721
    • Prana, V., Rotureau, P., Fayet, G., André, D., Hub, S., Vicot, P., … Adamo, C. Prediction of the thermal decomposition of organic peroxides by validated QSPR models. Journal of Hazardous Materials, Vol. 276, Pages 216–24, (2014). http://doi.org/10.1016/j.jhazmat.2014.05.009
    • Pakdehi, S. G., Rezaei, S., Motamedoshariati, H., & Keshavarz, M. H. Sensitivity of dimethyl amino ethyl azide (DMAZ) as a non-carcinogenic and high performance fuel to some external stimuli. Journal of Loss Prevention in the Process Industries, Vol. 29, Pages 277–282, (2014). http://doi.org/10.1016/j.jlp.2014.03.006
    • C. Pasturenzi, M. Dellavedova, L. Gigante, A. Lunghi, M. Canavese, C. Sala Cattaneo, S. Copelli, Thermochemical stability: A comparison between experimental and predicted data, Journal of Loss Prevention in the Process Industries, (2014), Vol. 28, Pages 79-91, ISSN 0950-4230.
    • Sam Mannan, Chapter 22 - Reactive Chemicals, In Lees' Process Safety Essentials, edited by Sam Mannan, Butterworth-Heinemann, Oxford, Pages 409-424, ISBN 9781856177764, (2014)
    • Trevor Dzwiniel, Krzysztof Pupek, Gregory Krumdick, From beaker to bucket: The safe scale-up of organic electrolyte materials, Journal of Chemical Health and Safety, Vol. 21(3), Pages 8-12, (2014).
    • Ravendra Singh, Andy Godfrey, Björn Gregertsen, Frans Muller, Krist V. Gernaey, RafiqulGani, John M. Woodley, Systematic substrate adoption methodology (SAM) for future flexible, generic pharmaceutical production processes, Computers & Chemical Engineering, Vol. 58, Pages 344-368, ISSN 0098-1354, (2013).
    • Nick M. Vandewiele, Kevin M. Van Geem, Marie-Françoise Reyniers, Guy B. Marin, Genesys: Kinetic model construction using chemo-informatics, Chemical Engineering Journal, Vol. 207-208, Pages 526-538, ISSN 1385-8947, (2012).
    • Tareq A. Albahri, Prediction of the aniline point temperature of pure hydrocarbon liquids and their mixtures from molecular structure, Journal of Molecular Liquids, Vol. 174, Pages 80-85, ISSN 0167-7322, (2012).
    • Chapter 33 - Reactive Chemicals, In Lees' Loss Prevention in the Process Industries (Fourth Edition), edited by Sam Mannan, Butterworth-Heinemann, Oxford, Pages 2370-2416, ISBN 9780123971890 (2012).
    • Neal G. Anderson, Chapter 2 - Process Safety, In Practical Process Research and Development (Second Edition), edited by Neal G. Anderson, Academic Press, Oxford, Pages 23-45, ISBN 9780123865373, (2012).
    • F. Koschier, M.A. Gallo, X. Feng, G.E. Baxter, R. Preston, K. Stevens, W. Powers, Toxicological studies on 2,4,6-tribromoanisole, Food and Chemical Toxicology, Vol. 49, Issue 9, Pages 2074-2080, ISSN 0278-6915, (2011).
    • Yoshihiko Sato, Ken Okada, Miyako Akiyoshi, Kohichi Tokudome, Takehiro Matsunaga, Reaction hazards of triethylaluminum under closed conditions, Journal of Loss Prevention in the Process Industries, Vol. 24, Issue 5, Pages 656-661, ISSN 0950-4230, (2011).
    • H.Y. Zhao, S.T. Oyama, E.D. Naeemi, Hydrogen storage using heterocyclic compounds: The hydrogenation of 2-methylthiophene, Catalysis Today, Vol. 149, Issues 1.2, Pages 172-184, ISSN 0920-5861, (2010).
    • Guillaume Fayet, Patricia Rotureau, Laurent Joubert, Carlo Adamo, On the prediction of thermal stability of nitroaromatic compounds using quantum chemical calculations, Journal of Hazardous Materials, Vol. 171, Issues 1.3, Pages 845-850, ISSN 0304-3894, (2009).
    • D.S. Mahadevan, S. Sekar, S.S. Dhilipkumar, Biocalorimetric investigation of degradation of Acid Blue 113 by halotolerant strains, New Biotechnology, Vol. 25, Supplement, Page S49, ISSN 1871-6784, (2009).
    • Fu, Zhi-Min, Koseki, Hiroshi, Iwata, Yusaku, Investigation on Thermal Stability of Flavianic Acid Disodium Salt, Journal of Loss Prevention in the Process Industries, Vol. 22(4), Pages 477-483 (2009).
    • Maestri, Francesco, Copelli, Sabrina, Rota, Renato, Gigante, Lucia, Lunghi, Angelo, and Cardillo, Paolo, Simple Procedure for Optimal Scale-up of Fine Chemical Processes. II. Nitration of 4-Chlorobenzotrifluoride, Industrial & Engineering Chemistry Research, Vol. 48 (3), Pages 1316-1324, (2009).
    • Chen, Chan-Cheng, Liaw, Horng-Jang, and Kuo, Yu-Yu, Prediction of Autoignition Temperatures of Organic Compounds by the Structural Group Contribution Approach, Journal of Hazardous Materials, Vol.162(2-3), Pages 746-762, (2009).
    • Cao, H.Y., Jiang, J.C., Pan, Y., Wang, R., and Cui, Y., Prediction of the Net Heat of Combustion of Organic Compounds Based on Atom-type Electrotopological State Indices, Journal of Loss Prevention in the Process Industries, Vol. 22(2), Pages 222-227, (2009).
    • Frurip, David J., Selection of the Proper Calorimetric Test Strategy in Reactive Chemicals Hazard Evaluation, Organic Process Research and Development, 12(6), 1287-1292, (2008).
    • Wolf, Richard A., Process Research on the Preparation of 1-(3-Trimethylsilylphenyl)-2,2,2-trifluoroethanone by a Friedel.Crafts acylation Reaction, Organic Process Research and Development, Vol. 12(1), Pages 23-29, (2008).
    • Bretherick's Handbook of Reactive Chemical Hazards (Seventh Edition), edited by PG Urben, Academic Press, Oxford, Pages 133-1565, ISBN 9780123725639, (2007).
    • Morgan, David L., Use of Transformed Correlations to Help Screen and Populate Properties Within Databanks, Fluid Phase Equilibria, Vol. 256(1,2) Pages 54-61, (2007).
    • Hada, S. and Harrison, B.K., Adiabatic Temperature Rise . An Awkward Calculation Made Simple, Chemical Engineering, Vol. 114, Pages 45-48, (2007).
    • Hada, S. and Harrison, B.K., Prediction of Energy Release Hazards Using a Simplified Adiabatic Temperature Rise, Journal of Loss Prevention in the Process Industries, Vol. 20, Pages 151-157, (2007).
    • Weisenburger, G.A., Barnhart, R.W., Clark, J.D., Hawksworth, M., Higginson, P.D., Kang, Y., Knoechel, D.J., Moon, B.S., Shaw, S.M. Taber, G.P., Tickner, D.L., Determination of Reaction Heat: A Comparison of Measurement and Estimation Techniques, Organic Process Research and Development, Vol. 11(6), Pages 1112-1125, (2007).
    • Louks, D.H., and Stolz-Dunn, S.K., Kinetics for Scale-Up of a One-Pot Pathway to 5-(3-Fluorophenyl)-2,4-dihydro-2,4-dimethyl-3H-1,2,4-triazole-3-thione Using a Hybrid Model of Parallel and Consecutive Reactions, Organic Process Research and Development, Vol. 11(5), Pages 877-884, (2007).
    • Delhaye, L.,Merschaert, A., Delbeke, P., Brione, W., A Short and Efficient Synthesis of (R,R)-2-Methylcyclopropanecarboxylic Acid, Vol. 11(4), Pages 689-692, (2007).
    • Simoes, J.A.M. and da Piedade, M.E.M., Structure and Bonding in Organometallic Compounds: Organometallic Thermochemistry, In: Robert H. Crabtree and D. Michael P. Mingos, Editor(s)-in-Chief, Comprehensive Organometallic Chemistry III, Elsevier, Oxford, pp 605-638, (2007).
    • Coker, A. K, Process Safety and Pressure-Relieving Devices, Ludwig's Applied Process Design for Chemical and Petrochemical Plants (Fourth Edition), Gulf Professional Publishing, Burlington, pp 575-770, (2007).
    • Barsanti, K.C. and Pankow, J.F., Thermodynamics of the formation of atmospheric organic particulate matter by accretion reactions--Part 3: Carboxylic and dicarboxylic acids, Atmospheric Environment, 40(34), 6676-6686, (2006).
    • Carson, P.A., Fairclough, C.S., Mauduit, C., Colsell, M., Peroxy bleaches: Part 1. Background and techniques for hazard evaluation, Journal of Hazardous Materials, 136(3), 438-445, (2006).
    • Maestri, F., Dionigi, L.R., Rota, R., Gigante, L., Lunghi, A., and Cardillo, P., Safe and Productive Operation of Homogeneous Semigbatch Reactors. II. The Nitration of N-(2-Phenoxyphenyl)Methane Sulfonamide, Industrial and Engineering Chemistry Research, 45(24), 8014-8023, (2006).
    • Mimura, N., Okamoto, M., Yamashita, H., Oyama, S.T. and Murata, K., Oxidative Dehydrogenation of Ethane Over Cr/ZSM-5 Catalysts Using CO2 as an Oxidant, The Journal of Physical Chemistry B, 110(43), 21764-21770, (2006).
    • Shu, Y., Lee, Yong-Kul, and Oyama, S.T., Structure-sensitivity of hydrodesulfurization of 4,6-dimethyldibenzothiophene over silica-supported nickel phosphide catalysts, Journal of Catalysis, 236(1), 112-121, (2005).
    • Barsanti, K.C. and Pankow, J.F., Thermodynamics of the formation of atmospheric organic particulate matter by accretion reactions--2. Dialdehydes, methylglyoxal, and diketones, Atmospheric Environment, 39(35), 6597-6607, (2005).
    • Hendershot, D.C. and Sarafinas, A., Safe chemical reaction scale up, Chemical Health and Safety, 12(6), 29-35, (2005).
    • Kersten, R.J.A., Boers, M.N., Stork, M.M. and Visser, C., Results of a Round-Robin with di-tertiary-butyl peroxide in various adiabatic equipment for assessment of runaway reaction hazards, Journal of Loss Prevention in the Process Industries, 18(3), 145-151, (2005).
    • Laurent, A, Baklouti, M, Corriou, J.P., et al., A Posteriori Hazard Analysis and Feedback Information of an Accidental Event in the Grains Storage of an Agrochemical Product, Journal of Loss Prevention in the Process Industries, 19 (6): 509-515 Nov. (2006).
    • Frurip, D., Computational Thermochemistry In Support of Calorimetry for Reactive Chemicals Assessment, La Chimica e I.Industria, 88(3), 140-149, April (2006).
    • Wei, C.Y., Rogers, W.J., Mannan, M.S., Thermal Decomposition Hazard Evaluation of Hydroxylamine Nitrate Journal of Hazardous Materials, 130 (1-2): 163-168 Sp. Iss., Mar. 17 (2006).
    • Sklavounos, S, Rigas, F., Estimation of Safety Distances in the Vicinity of Fuel Gas Pipelines, Journal of Loss Prevention in the Process Industres, 19 (1): 24-31 Jan. (2006).
    • Harrison, B.K., Using the ASTM Computer Program for the Prevention of Reactive and Flammability Hazards . CHETAH, ASTM Standardization News, January, pp. 30-35, (2005).
    • Harrison, B.K., The Use of the ASTM Computer Program CHETAH as an Element in a Program to Prevent Reactive Hazards, B. Keith Harrison, 7th World Congress of Chemical Engineering, Glascow, Scotland, July (2005).
    • Mannan, s., Reactive chemicals, Lees' Loss Prevention in the Process Industries (Third Edition), Butterworth-Heinemann, Burlington,1-47, (2005).
    • Anastas, N.D. and Warner, J.C., The incorporation of hazard reduction as a chemical design criterion in green chemistry, Chemical Health and Safety, 12(2), 9-13, (2005).
    • Barsanti, K.C., Pankow, J.F., Dabdub, D., Griffin, R.J. and Seinfeld, J.H..Comment on .Semiemperical Model for Organic Aerosol Growth by Acid-Catalyzed Heterogeneous Reactions of Carbonyls, Environmental Science and Technology, 39(20), 8108-8109, (2005).
    • Britton, L.G., Cashdollar, K.L., Fenlon, W., Frurip, D, Going, J., Harrison, B.K., Niemer, J., and Ural, E.A., The Role of ASTM E27 Methods in Hazard Assessment: Part II. Flammability and Ignitability Process Safety Progress, 24, (1), 12-28, (2005).
    • Frurip, D., Britton, L., Fenlon, W., Going, J., Harrison, B.K., Niemer, J., and Ural, E.A., The Role of ASTM E27 Methods in Hazard Assessment: Part I. Thermal Stability, Compatibility, and Energy Release Estimation Methods Process Safety Progress, 23, (4), 266-278, (2004).
    • Ohtani, H., Experimental Study on Flammability Limits of Perfluorocarbons in a Fluorine Atmosphere. Journal of Loss Prevention in the Process Industries 17 (5): 377-379. (2004).
    • Ohtani, H., Flammability Limits of Silane/Perfluorocarbon Nitrogen Mixtures. Journal of Loss Prevention in the Process Industries 17 (5) 381-383 (2004).
    • Saraf, S.R., Rogers, W.J., Ford , D.M., et al. Integrating Molecules Modeling and Process Safety Research. Fluid Phase Equilibria 222: 205-211 (2004).
    • Wei, C., Rogers, W.J., Ford, D.M., et al. Application of Screening Tools in the Prevention of Reactive Chemical Incidents. Journal of Loss Prevention in the Process Industries 17 (4): 261-269 (2004).
    • Crowl, D.A., Elwell, T.I., Identifying Criteria to Classify Chemical Mixtures as .Highly Hazardous. Due to Chemical Reactivity. Journal of Loss Prevention in the Process Industries 17 (4): 279-289 (2004).
    • Melhem, Geogres A. Reactivity Screening Made Easy. Process Safety Progress, 23, (2), (2004).
    • Saraf, S.R., Rogers, W.J., Mannan, M.S., Classifying Reactive Chemicals. CEP. 34-38. (2004).
    • Lifshitz, A., Tamburu, C., Suslensky, A. and Dubnikova, F., Decomposition, Isomerization, and Ring Expansion in 2-Methylindene: Single-pulse Shock Tube and Modeling Study, The Journal of Physical Chemistry A, 108(16), 3430-3438, (2004).
    • Li, Xian-Wei, Shibata, E., and Nakamura, T., Theoretical Calculation of Thermodynamic Properties of PolybrominatedDibenzo-p-dioxins, Journal of Chemical and Engineering Data, 48(3), 727-735, 2003).
    • Saraf, S.R., Rogers, W.J., Mannan, M.S., Prediction of Reactive Hazards Based on Molecular Structure. Journal of Hazardous Materials 98 (1-3): 15-29 (2003).
    • Saraf, S.R., Rogers, W. J., Mannan, M.S., Application of Transition State Theory for Thermal Stability Prediction. Industrial & Engineering Chemistry Research, 42(7), 1341-1346. (2003).
    • Britton, Laurence G.; Frurip, David J. Further Uses of the Heat of Oxidation in Chemical Hazard Assessment. Process Safety Progress, 22 (1), 1-19, (2003).
    • Saraf S. R.; Rogers, W.J.; Mannan, M.S. Prediction of Reactive Hazard Based on Molecular Structures Journal of Hazardous Materials, 98 (1-3), 15-29, (2003).
    • Johnson, Robert W.: Rudg, Steven W.; Unwin, Stephan D. Essential Practices for Managing Chemical Reactivity. (2003).
    • Murphy, M.R., Singh, S.K., and Shanley, E.S., Computationally Evaluate Self-Reactivity Hazards, CEP, 54-61, Feb. (2003).
    • Cardillo, P.; Gignate, Lucia; Lunghi, A, Di Bari, Cinzia; Ludovisi, G. Thermodynamics for Chemical Safety: Predictive Criteria of Thermal Instability RivistadeiCombustibili, 56 (4-5), 209-223, (2002).
    • Britton, L.G., Using Heat of Oxidation to Evaluate Flammability Hazards, Process Safety Progress, 21(1),31-54 (2002).
    • Saraf S. R,; Rogers, W.J., Mannan, M.S., Predictive Technique for Reactive Chemicals Hazard Evaluation. Proceedings of the NATAS Annual Conference on Thermal Analysis and Applications 30th, 576-581, (2002).
    • Dalmazzone, D., Laforest, J.C., Petit, J.M. Application of Thermo Chemical Energy Hazard Criteria to the Prediction of Lower Flammability Limits of Hydrocarbons In Air. Oil & Gas Science and Technology, 56 (4), 365-372, (2001).
    • Amery, G., Reactive Chemical Hazard Evaluation in the Scale-Up of Chemical Processes, Aldrichimica ACTA, 34(2), 61-67, (2001).
    • Harrison, B. Keith, Computerized Screening of Chemicals for Energy Release Hazards Proceedings of ESCAPE10: European Symposium of Computer Aided Process Engineering, Florence Italy, May 2000, edited by SauroPierucci, Elsevier Science Publishing, ISBN: 0-444-50520-2, 799-804, (2000).
    • Grewer, T., Frurip, D.J., and Harrison, B. K., .Prediction of Thermal Hazards of Chemical Reactions. Journal of Loss Prevention in the Process Industries, 12, 391-398 (1999).
    • Nomen.R, Sempere, J., Serra, E., Core, D., Predictive Methods for Risk Assessment of Pure Substances and Their Mixtures: ASTM CHETAH (Chemical Thermodynamics and Energy Hazard Evaluation Program), Safety Subjects: 11, 54(469), 182-186, (1998).
    • Bruneton, C., Hoff, C., Barton, P.I., Thermal Stability Analysis Via Elucidation of Hazards Reaction Stoichiometries. Computers Chem. Engng, 22 (6) 735-745 (1998).
    • Grewer, T., Frurip, D.J., Harrison B.K. Predictions on the Thermal Risk Potential of Reactions. Praxis der Sicherheistechnik4(ChemischeReaktionenErkennnng und BeherrschungSicherheistechnischRelevanterZustaende und Ablaeufe), 173-194. (1997).
    • Dalmazzone, D., Laforest, J.C., Petit, J.M. Prediction of Lower Explosivity Limits (LEL) in Air or Organic Gases and vapors. Application of Thermochemical Criteria for Organic Gases and Vapors. Cahiers de Notes Documentaires, 167 235-248. (1997).
    • Kowalczyk, B.A., Roberts, P.N., McEwen, G. K., Robinson, J., Scale-Up of the Nitration of 1-Acetyl-3,4-dichloro-1,2-(ethylenedioxy)benzene Using Nitric Acid/Trifluoroacetic Acid. Organic Process Research & Development, 1(5), 355-358. (1997).
    • Melhem, G.A., Shanley, E.S., On the Estimation of Hazard Potential for Chemical Substances. Proceedings of the Annual Loss Prevention Symposium, 30th 8/g,1-10. (1996).
    • Melhem, G.A., Shanley, E.S., On the Estimation of Hazard Potential for Chemical Substances. Process Safety Progress, 15(3), 168-172, (1996).
    • Harrison, B.K., CHETAH, A Program for Convenient Thermo Chemistry Applications. Book of Abstracts, 212th ACS National Meetings, Orlando, FL, August 25-29(1996).
    • Rowe, Stephen M., The Role of Calorimetry Chemical Plant Safety: A Chlorination Reaction. ThemochimicaActa 289, 167-175 (1996).
    • Yokoyama, Toshiharu, Naoko Fujita, Takao Maki., Formation of Dihydrogen and Carboxylic Acid From Water and Aldehyde Over Metal Oxide Catalysts. Applied Catalysis A: General. 125, 159-167 (1995).
    • Thompson, D., Enthalpies of Formation and Entropies of Chlorinated Dibenzo-p-dioxins and Dibenzofurans; Selected Data for Computer-Based Studies. ThermochimicaActa 261, 7-20 (1995).
    • Uehara, Yoichi, Otani, Hideo, Oka, Yasushi. Reaction Hazard Caused by Mixing of Waste. Haikibutsu Gakkaishi,6(4),322-9. (1995).
    • Negyes, Gyoergy. Examination of Friction Sensitivity of Nonexplosive Compounds. Magyar KemikusokLapja , 50(9),392-6. (1995).
    • Anon. CHETAH, Chemical Engineering Progress, 91(1), 86. (1995).
    • Frurip, D.J., Chakrabarti, A., Downey, J.R., Ferguson, H.D., Gupta, S.K., Hofelich, T.C., Labarge, M.S., Pasztor, A.J. Jr., Peery, L.M., Eveland, S.M., and Suckow, R.A., .Determination of Chemical Process Heats by Experiment and Prediction. in International Symposium of Runaway Reactions and Pressure Relief Design, G. A. Melhem and H.G> Fisher, Eds., AIChE, 95-149 (1995).
    • Gustin, J.L., .Thermal Stability Screening and Reaction Calorimetry. Application to Runaway Reaction Hazard Assessment at Process Safety Management., J. Loss Prev. Process Inc., 6(5), (1993).
    • Homes, D.A., Harrison, B. K., and Dolfing J., Estimation of Gibbs Free Energies of Formation for PolychlorinatedBiphenyls Environmental Science and Technology, 27, 725-731, (1993).
    • Cardillo, Paolo and Nebuloni, Marino, .Reactively Limits of Aluminum and Halohydrocarbon Mixtures: Determination bythe ASTM CHETAH Program, J. Loss Prev. Process Ind., S (2), (1992).
    • Frurip, D.J. Estimation of Energy Release for Chemicals and Chemical Processes Using the ASTM CHETAH Program. Chimica e l.Industria (Milan), 74(8/9), 637-40 (1992). . Dalmazzone, D., Sannier, H. Development and Applications of the CHETAH Program (ASTM Chemical Thermodynamic and Energy Hazard Evaluation). Calorimetrie et Analyse Thermique,23 377-83. (1992).
    • Tanaka, Noriaki, Hwang, Dong-Rong; Hosoya, Fumio, Tamura, Masamitu, Yoshida, Tadao, Measurement of Evaporation and Sublimation Heat Using DSC. Kogyo Kayaku, 51(1), 28-34. (1992).
    • Cardillo, Paolo & Marino Nebuloni. Reactivity Limits of Aluminium and Halohydrocarbon Mixtures: Determination by the ASTM CHETAH Program. J. Loss Prev. Process Ind., 5(2). (1992).
    • Cardillo, Paolo and Marino Nebuloni. Theoretical and Calorimetric Evaluation of Thermal Stability of Glycidol. J. Loss Prev. Process Ind., 4, (1991).
    • Mniszewski, K.R., The Use of Computerized Thermodynamics Tools in Fire/Explosion Investigation, Journal of Fire Protection Engineering, 3(3), 69-79, (1991).
    • Frurip, David J., Freedman, Eli, Hertel, George R. A New Release of the ASTM CHETAH Program for Hazard Evaluation: Versions For Mainframe and Personal Computer. Int. Symp. Runaway React., 39-51. (1989).
    • Ducros, M., Sannier, H. Use of the Program CHETAH to Study the Sensitivity of Oxygen Compounds and To Estimate the Lower Limits of Flammability, Journal of Hazardous Materials, 19(1), 33-49 (1988).
    • Davies, C. A., Kipnis, I.M., Chase, M.W., Treweek, D.N. The Thermochemical and Hazard Data of Chemicals. Estimation Using the ASTM CHETAH Program. ACS Symposium Series, 274 (Chem. Process Hazard Rev.), 81-90. (1985).
    • Laforest, J. C., Leleu, J. Dangerous Chemical Reactions: Predicting the Risk. Cahiers de Notes Documentaires, 105, 481-91(1981).
    • Leach, James T., Staples, John M. Hazards of Inadvertent Mixing of Chemicals Used in the Bachmann Processes for Manufacturing the Military Explosives RDX and HMX. Journal of Hazardous Materials, 4(3), 271-81. (1981).
    • Ducros, M., Gruson, J. F., Sannier, H. Method for the Estimation of Flammability Limits. ThermochimicaActa, 48(3),351-9. (1981).
    • Arai, Mitsuru, Toyama, Kazuhiro, Tamura, Masamitsu, Yoshida, Tadao. Correlations Between CHETAH Decomposition Heats and Performance of Explosive Compounds. Kogyo Kayaku, 41(5), 293-9. (1980).
    • Arai, Mitsuru, Andoh, Takayuki, Tamura, Masamitsu, Yoshida, Tadao. Some Applications of M. O. Theories to the Chemistry of Explosives. I. A Calculation of Heat of Formation for the Explosive Compounds. Kogyo Kayaku, 41(1), 8-12. (1980)
    • Treweek, D.N., Alexander, C.A., Hoyland, J.R., Fentiman, A.F., Pardue, W.M. Estimation of Chemical Incompatibility (Other-Chemical Reactivity) By Computer. Ohio Journal of Science, 80(4), 160-6. (1980)
    • Murali, B. K. Mohan, Ganesan, V., Rao, K. Bhujanga, Mohan, V. Krishna. Hazard Characteristics of IsosorbideDinitrate-Lactose Mixtures. Journal of Hazardous Materials, 3(2), 177-82. (1979)
    • Treweek, D.N., Pardue, W.M., Hoyland, J.R., Alexander, C.A., Seaton, W.H., Freedman, E.. Estimation of Explosive Hazard by Computer. Ohio Journal of Science (1978), 78(5), 245-54.
    • Domalski, E.S. A Second Appraisal of Methods for Estimating Self-Reaction Hazards. U. S. NTIS, PB Rep., (PB-266925), 160 (1977).
    • Coffee, R.D. Evaluation of Chemical Stability. Fire Technology, 7(1), 37-45. (1971).

    Articles and Books Concerning Calculations within CHETAH

    61 Articles and Books Total

    • Vuori, Hannu T., et al. "Benson group additivity values of phosphines and phosphine oxides: Fast and accurate computational thermochemistry of organophosphorus species." Journal of computational chemistry 40.3 (2019): 572-580.
    • B.K. Harrison, CHETAH 10.0 User's Manual, The ASTM Computer Program for Chemical Thermodynamics and Energy Release Evaluation, ASTM, 215 pages + CD ROM, West Conshohocken, PA, (2016).
    • B.K. Harrison, CHETAH 9.0 User's Manual, The ASTM Computer Program for Chemical Thermodynamics and Energy Release Evaluation, ASTM, 200 pages + CD ROM, West Conshohocken, PA, (2009).
    • D.L. Morgan, Use of Transformed Correlations to Help Screen and Populate Properties Within Databanks, Fluid Phase Equilibria, Vol. 256, Pages 54-61, (2007).
    • S. Hada and B. Keith Harrison, Prediction of Energy Release Hazards Using a Simplified Adiabatic Temperature Rise, Journal of Loss Prevention in the Process Industries, Vol. 20, Pages 151-157, (2007).
    • B.K. Harrison, A. Madas and A. Sharma, CHETAH 8.0 Users Manual, The ASTM Computer Program for Chemical Thermodynamics and Energy Release Evaluation, ASTM, 160 pages + CD ROM, West Conshohocken, PA, (2005).
    • PROGRAM CEA2 – Chemical Equilibrium with Applications. May 21, 2004. Available from www.grc.nasa.gov/WWW/CEAWeb/ .
    • Gordon, S. and McBride, B. J., “Computer Program for Calculation of Complex Chemical Equilibrium Compositons and Applications, Part I Analysis,” NASA Reference Publication 1311, National Aeronautics and Space Administration, Oct. 1994.
    • Britton, L. G Gordon, S. and McBride, B. J., “Computer Program for Calculation of Complex Chemical Equilibrium Compositons and Applications, Part II User Manual and Program Description,” NASA Reference Publication 1311, National Aeronautics and Space Administsration, Oct. 1994.
    • Harrison, B. K., “Inorganic Thermophysical Property Estimation for Reactive Hazard Evaluation,” Thermophysical Properties for Industrial Process Design, Symposium Series 90, American Institute of Chemical Engineers, New York, 1994, pp. 64–73
    • Center for Chemical Process Safety, “Guidelines for Chemical Reactivity Evaluation and Application to Process Design,” Technical Publication 320, 1994.
    • R.G. Reid, J. M. Prausnitz, and B. E. Poling, .The Properties of Gases and Liquids, . 5th ed., McGraw-Hill, New York, 12-26 (2000) . E.S. Shanley, & G.A. Malhem,. .A Review of ASTM CHETAH7.0 Hazard Evaluation Criteria.. Journal of Loss Prevention in the Process Industries, 8 (5), 261-264 (1995).
    • B. K. Harrison, 'Inorganic Thermophysical Property Estimation for Reactive Hazard Evaluation,' Thermophysical Properties for Industrial Process Design, AIChE Symposium Series 90 (298), 64-73 (1994).
    • D. R. Lide and H.V. Kehiaian, CRC Handbook of Thermodynamics and Thermochemical Properties, diskette. CRC Press, Inc. (1994).
    • CCPS, Guidelinesfor Chemical Reactivity Evaluation and Application to Process Design, est 320 (1994).
    • D.R. Lide and G. W. A. Milne, CRC Handbook of Data on Organic Compounds, 3rd Edition, (HODOG Ill), 6554 pp CRC Press,Inc. (1994).
    • D. R. Lideabd H.V. Kehiaian, CRC Handbook of Thermophysical and Thermochemical Properties, 529 pp CRC Press Inc. (1994).
    • J. B. Pedley, Thermochemical Data and Structures of Organic Compounds, Volume 1 (975 pp) TRC, College Station, TX; ISBN: 1-883400-01-5; (1994).
    • M. Frankel, G. J. Kabo, K. N. March, G. N. Roganov, and R. G. Wilhoit, Thermodynamics of Organic Compounds in the Gas Phase, Volume 1 (815 pp) and Volume 2 (1010 pp), TRC, College Station, TX; ISBN: 1-883400-03-1 and 1-883400-04-X; (1994).
    • D. R. Lide and J. G. Grasselli, .Properties of Organic Compounds, Version 3.1, CRC Press Inc. (Catalog No. 444RA), (1993).
    • T.E. Daubert and R.P. Danner, .Physical and Thermodynamics Properties of Pure Chemicals: Data Compilation., Taylor and Francis/Hemisphere Publishing Corp. ,Bristol PA, (1989) with Supplements: (1991), 2(1992), 3(1993)
    • J. E. Hurst, Jr., and B. K. Harrison, 'Estimation of Liquid and Solid Heat Capacities Using a Modified Kopp's Rule,' Chem. Eng. Commun, 112, 21-30 (1992).
    • G. D. Ratkey and B. K. Harrison, 'Prediction of Enthalpies of Formation for Ionic Compound,' Ind. Eng. Chem. Res. 31 (10), 2362-9 (1992).
    • Fire Hazard Properties of Flammable Liquids, Gases, and Volatile Solids., NFPA 325M, 1991 ed., National Fire Protection Assoc., 1 Batterymarch Park, PO Box 9101, Quincy, MA 02269-9101 (1991).
    • R. L. Lewis, .Hazardous Chemicals Desk Reference, . 1579pp, Van Nostard Reinhold, NY (1991).
    • G. A. Olah and D. R. Squire, .Chemistry of Energetic Materials, . 212 pp, Academic Press (1991).
    • J.W. Bozzalli and E.R. Ritter, .Therm: Thermodynamic Property Estimation for Gas Phase Radicals and Molecules, .Inter. J. Chem. Kinet. 23, 767-78 (1991).
    • W. H. Seaton and B. K. Harrison, .A New General Method for Estimation of Heats of Combustion for Hazard Evaluation., J. Loss Prev. Proc. Ind. 3(3), 311-20 (1990).
    • W. H. Seaton, 'Group Contribution Method for Predicting the Potential of a Chemical Composition to Cause an Explosion, J. Chem. Educ. 66, A137-40 (1989).
    • J. D. Cox, D. D. Wagman, and V.A. Medvedev, .CODATA Key Values for Thermodynamics, . Hemisphere Publishing Company,New York (1989).
    • D.J. Frurip, E. Freedman, and G.R. Hertel, Plant Op. Program, 8, 239 (1989).
    • W. H. Seaton, J. Chem. Educ. 66, A137-40 (1989).
    • B. K. Harrison and W. H. Seaton, 'A Solution to the Missing Group Problem for Estimation of Ideal Gas Heat Capacities,' Ind. Eng. Chem. Res. 27, 1536-40 (1988).
    • R. E. Lenga, .The Sigma Aldrich Library .of Chemical Safety Data, . Volume 1 (A-L) and Volume 2 (M-Z and indices), (1988).
    • C. Jochum, M. G. Hicks, and J. Sunkel, .Physical Property Prediction Organic Chemistry, .Springer-Verlag, Germany (1988).
    • D. Weininger, SMILES, a chemical language and information system. 1. Introduction to methodology and encoding rules, Journal of Chemical Information and Modeling. Vol. 28 (1), 31–6, (1988). doi:10.1021/ci00057a005.
    • R.P. Danner and T.E. Daubert, eds., .Manual for Predicting Chemical Process Design Data., American Institute of Chemical Engineerings, New York, 11-1, (1987).
    • R. G. Reid, R.D. Naylor, and S.P. Kirby, .Thermochemical Data of Organic Compounds, . 792 pp, Chapman and Hall (1986)
    • M.W. Chase, C.A. Davies, J. R. Dowmey, D.J. Frurip, R.A. McDonald, and A.M. Syverued, .JANAF Thermochemical Tables., third ed., J. Phus. Chem. Ref. Data, 14, supp. 1, (1985).
    • T. Clark, .Handbook to Computational Chemistry: A Pratical Guide to Chemical Structure and Energy Calculations,. John Wiley and Sons, Canada (1985).
    • D.N. Treweek, and W.H. Seaton, .CEP Technical Manual, Loss Prevention-7., American Institute of Chemical Engineerings, 21-27 (1982).
    • W.J. Lyman, W.F. Reehl, and D.H. Rosenblatt, .Handbook if Chemical Properties Estimation Methods, McGraw-Hill, New York, Chapter 6 (1982).
    • F. N. Fritsch and R. E. Carlson, SIAM J. Numerical Analysis 17, 258-46 (1980).
    • F. N. Fritsch and J. Butland, UCRL-85104, Lawrence Livermore Laboratory, October, (1980).
    • J.B. Pedley and J. Rylance, .Sussex-NRL Computer Analyzed Thermochemical Data on Organic and Organometallic compounds, . University of Sussex (1979).
    • D. N. Treweek, W. H. Pardue, J.R. Hoyland, C.A. Alexander, W.H. Seaton, and E. Freedman, 'Estimation of Explosive Hazard by Computer,' Ohio J. Sci. 78, 245-54 (1978).
    • E. Wilcox and L.A. Bromley, .Method for Estimating the Heat of Formation and the Free Energy of Inorganic Compounds., Ohio J.Sci. 78, 245-54 (1978).
    • S. W. Benson, '.Thermochemical Kinetics., 2nd Edition, 'John Wiley and Sons, New York (1976).
    • J. D. Cox and G. Pilcher, .Thermochemistry of Organic and Organometallic Compounds,. Academic Press (1970).
    • S.W. Benson and J. H. Buss, J Chem. Phys. 29, 279 (1969)
    • S. W. Benson, F.R. Cruickskank, D.M. Golden. G.R. Haugon, H.E. O'Neal, A.S. Rodgers, R. Shaw, and R. Walsh, Chem. Rev. 69, 279-324 (1969).
    • D.R. Stull, E.F. Westrum, Jr. And G.C. Sinke, The Chemical Thermodynamics of Organic Compounds, 865 pp, John Wiley (1969)
    • S. W. Benson, 'Thermochemical Kinetics', John Wiley and Sons, New York (1968).
    • S. W. Benson and J. H. Buss, J. Chem. Phys. 19, 279 (1968).
    • E. Wilcox and L.A. Bromley, 'Method for Estimating the Heat of Formation and Free Energy of Formation of Inorganic Compounds,' Ind. Eng. Chem. 55, 32 (1963).
    • H.W. Anderson and L. A. Bromley, A Method For Estimating the Heat of Formation of the Halides, J. Phys. Chem. 63, 1115 (1959).
    • D.R. Stull and G.C. Sinke, `Thermodynamic Properties of the Elements, Advan. Chem. Ser. 8, (1956).
    • W.C. Lothrop and G.R. Handrick, Chem. Rev., 44, 419 (1949).
    • CHEMSAFE, joint project of the Bundesanstalt for Materialforschung und .Prufung (BAM), the DECHEMA Deutsche Gesellschaft fur ChemisvheApparatewesen, ChemischeTechnik und Biotechnologie, and the Physilalisch-TechischeBundesa-nstalt (PTB); distributed by TDS Numerica.
    • L. Bretherick, Reactive Chemical Hazards Database: An Electronic Guide to Published Data, Butterworth Heinemann Ltd. Oxford. . V. P. Glushko and L.V. Gurvich, .Thermodynamic Properties of Individual Substances,. 4 volume set in Russian, 3 volume set currently available in English.
    • V.P. Glushko and V.A. Medvedev, .Thermal Constants of Substances,. volume 1-10 in Russian: scheduled to be printed in English.

    Articles and Books About Earlier Versions of CHETAH

    11 Articles and Books Total

    • B.K. Harrison, B. Balaraju, K. Mudaliar, and A. Viswaanathan, CHETAH 7.3 Users Manual, The ASTM Computer Program for Chemical Thermodynamics and Energy Release Evaluation ASTM, ISBN ISBN 0-8031-2094-X, 155 pages + CD ROM, West Conshohocken, PA, (2002).
    • E.S. Shanley and G.A. Melhem, A Review and Critique of ASTM CHETAH 4th ed. Version 7.2. Journal of Loss Prevention in the Process Industries 13 (1): 67-68 (2000).
    • S.M. Ashar and B.K. Harrison .CHETAH 7.2 Users Manual, The ASTM Computer Program for Chemical Thermodynamics and Energy Release Evaluations (NIST Special Database 16). 4th Edition,, ASTM, ISBN 0-8031-1847-3, West Conshohocken, PA, (1998).
    • E.S. Shanley and G.A.Melhem, A Review of ASTM-CHETAH-7.0 Hazard Evaluation Criteria. Journal of Loss Prevention in the Process Industries 8 (5): 261-264 (1995).
    • J. R. Downey, D. J. Frurip, M. S. LaBarge, A. N. Syverud, N. K. Grant, M. D. Marks, B. K. Harrison, W.H. Seaton, D. N. Treweek, and T. B. Selover, 'CHETAH 7.0 Users Manuals: the ASTM Computer program for Chemical Thermodynamic and Energy Release Evaluation,' NIST Special Database 16, ASTM, ISBN 0-8031-1800-7, Philadelphia, PA (1994).
    • C. A. Davies, D .J. Frurip, E. Freedman, G.R. Hertel, W.H. Seaton, and D. N. Treweek, 'CHETAH 4.4: the ASTM Chemical Thermodynamic and Energy Release Program,' 2nd edition, ASTM Publication DS 51A (1990).
    • D. J. Frurip , E. Freedman and G. R. Hertel, .A New Release of the ASTM CHETAH Program for Hazard Evaluation: Versions for Mainframe and Personal Computer,. Plant/Operations Progress 8, 100-4 (1989).
    • D. J. Frurip, E. Freeman, and G. R. Hertel, .A New Release of the ASTM CHETAH Program for Hazard Evaluation: Versions for Mainframe and Personal Computer,. Proc. Intern. Symp. On Runaway Reactions, 39-51 (March, 1989).
    • G. A. Davies, 1. M. Kipnis, M. W. Chase, and D. N. Treweek, .The Thermochemical and Hazard Data of Chemicals, Estimation Using the ASTM CHETAH Program, ACS Symposium Series (274), Chemical process Hazard Review, J. M. Hoffman and D. G. Maser (eds.) 82-90 (1985).
    • E. Freedman, Screening for Potentially Hazardous Reactions. CHETAH: What Does It Do? Bulletin of Chemical Thermodynamics, 21 480. (1978).
    • W.H. Seaton, E. Freedman, D.N. Treweek, ASTM Data Series: CHETAH: The ASTM Chemical Thermodynamic and Energy Release Evaluation Program (DS 51). , 145 pp. (1974).

    Stock #: DS51HOL

    ISBN-EB: 978-0-8031-7125-1

    DS51F-C01 DS51F-C02 DS51F-C03 DS51F-C04 DS51F-C05 DS51F-C06 DS51F-C07 DS51F-F01 DS51F-F02 DS51F-R01 DS51F-R02 DS51F-R03 DS51F-SN DS51F DS51F DS51F DS51F DS51F