AKTS-Thermokinetics Help  
1. About the program
2. Data input
3. Baseline and kinetics
4. Prediction of the reaction progress
5. References
 
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5. REFERENCES

5. REFERENCES

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[2] M. Maciejewski, Computational aspects of kinetic analysis. Part B: The ICTAC Kinetics Project - The decomposition kinetics of calcium carbonate revisited, or some tips on survival in the kinetic minefield. Thermochim. Acta, 355 (2000) 145.
[3] B. Roduit, Computational aspects of kinetic analysis. Part E: The ICTAC Kinetics Project - numerical techniques and kinetics of solid state processes. Thermochim. Acta, 355 (2000) 171.
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[6] T. Ozawa: Bull. Chem. Soc. Japan, 38 (1965) 1881.
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[8] http://www.astm.org
[9] P. Brudugeac, J. Therm. Anal., Vol. 68 (2002) 131.
[10] B. Roduit, Thermochim. Acta, 388 (2002) 377.
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[13] B. Roduit, J. Baldyga, M. Maciejewski and A. Baiker, Thermochim. Acta, 295 (1997) 59.
[14] M.Maciejewski, C.A. Müller, R. Tschan, W.-D. Emmerich, A. Baiker, Thermochim. Acta, 295 (1997) 167.
[15] M. Criado, A. Ortega, F. Gotor, Thermochim. Acta, 157 (1990) 171.
[16] B. Wunderlich, Thermochim. Acta, 355 (2000) 43.
[17] M. Reading, D. Elliott, V.L. Hill, J. Therm. Anal., 40 (1993) 949.
[18] T. Ozawa, Thermochim. Acta, 355 (2000) 35.
[19] D.W. Smith, Assessing the hazards of runaway reactions, Chem. Eng., 14, (1984) 54.
[20] D.A. Frank-Kamenetskii, Diffusion and Heat Transfer in Chemical Kinetics, Plenum Press, New York, London, 1969.
[21] T. Grewer, Thermochim. Acta, 225 (1993) 165.
[22] F. Stoessel, J. Steinbach, A. Eberz: Plant and process safety, exothermic and pressure inducing chemical reactions, In: Ullmann's encyclopedia of industrial chemistry. Weise E (Eds), VCH, Weinheim (1995):343-354.
[23] A. Keller, D. Stark, H. Fierz, E. Heinzle, K. Hungerbuehler, Journal of Loss Prevention in the Process Industries (1997) 10(1):31-41.
[24] R. Gygax, International Symposium on Runaway reactions, March 7-9, 1989, Cambridge, Massachusetts, USA, 52.
[25] F. Stoessel, Chem. Eng. Progress, October (1993) 68.
[26] U. Ticmanis, G. Pantel, S. Wilker, M. Kaiser, Precision required for parameters in thermal safety simulations, 32nd Internationl Annual Conference of ICT July, 2001, 135.
[27] U. Ticmanis, P. Guillaume, W. de Klerk, ‘The status of the HFC STANAG’, 3rd International symposium on Heat Flow Calorimetry and it’s applications for Energetic materials (2002), French Lick, IN.
[28] B. Roduit, Ch. Borgeat, B. Berger, P. Folly, B. Alonso, J.N. Aebischer, F. Stoessel, in progress (2004)
[29] B. Roduit, Ch. Borgeat, U. Ticmanis, M. Kaiser, P. Guillaume, B. Berger, P. Folly, in progress (2004)
[30] B. Roduit, Ch. Borgeat, B. Berger, P. Folly, B. Alonso, J.N. Aebischer, in progress (2004)
[31] Ya. B. Zeldovich, G.I. Barenblatt, V.B. Librovich, G.M. Makhviladze, The Mathematical Theory of Combustion and Explosions, Consultants Bureau, New York and London, 1985.
[32] W. Fickett, Introduction to Detonation Theory, University of California Press, Berkeley, Los Angeles, London, 1985.  

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