Surface Pyrolysis of High Energy Materials

Luigi Deluca; Maurizio Veeri; Fabio Cozzi; Giovanni Colombo

doi:10.14429/dsj.48.3965

Luigi Deluca 32, Piazza Leonardo da Vinci ,Italy
Maurizio Veeri 32,Piazza Leonardo da Vinci ,Italy
Fabio Cozzi 32,Piazza Leonardo da Vinci ,Italy
Giovanni Colombo 32,Piazza Leonardo da Vinci ,Italy

DOI: https://doi.org/10.14429/dsj.48.3965

Keywords: Kinetic compensation, Arrhenious pyrolysis, Surface pyrolysis jacobian, Vieille ballistic law, Zeldovich ballistic law

Abstract

The Arrhenius zero-order phenomenological pyrolysis law, commonly used in conjunction with the Vieille ballistic law to study pressure-driven burning of energetic materials, is revisited. Motivated by experimental and theoretical work performed in 1984 in this Laboratory , a relationship among several interplaying parameters is found under steady-state conditions. This relationship corresponds to the Jacobian of the pyrolysis sensitivity parameters used in the Zeldovich-Novozhilov approach. The Arrhenius pyrolysis is still expressed in terms of a global surface activation energy, but consistency with the experimental ballistic law may require an explicit pressure dependence as well. This conclusion is supported by a variety of arguments drawn from different areas. The linear dependence of the pre-exponential factor on surface activation energy (known as kinetic compensation) is proved and extended to the pressure exponent, for any given experimental data set under steady burning. Experimental results are reported for about a dozen solid propellants of different nature. The effects of surface pyrolysis explicit pressure dependence, although modest on steady-state burning, are potentially far-reaching for unsteady regime and/or unstable burning. The paper is mainly focussed on pressure-driven burning and Arrhenius pyrolysis, but the implemented method is believed to apply in general. Thus, enforcing KTSS zero-order phenomenological pyrolysis with the Vieille ballistic law yields similar results and requires an explicit pressure dependence. In case, the Zeldovich ballistic law is enforced instead of the classical Vieille law, no explicit pressure dependence is required. The unifying concept for these different trends is the pyrolysis Jacobian as a consistency requirement between the implemented steady pyrolysis and ballistic laws."

Author Biographies

Luigi Deluca, 32, Piazza Leonardo da Vinci ,Italy

Dr Luigi DeLuca obtained his PhD (Aerospace & Mechanical sciences) from Princeton University, USA, in 1976. Presently, he is working as Professor of Aerospace Propulsion, School of Engineering, Milan, Italy. He is an associate fellow.-AIAA and Italiarl National Representative, former AGARD PEP (Propulsion and Energetics Panel) now RTO A V'f. He has co-edited three books on aerospace propulsion, published more than 75 papers on combustion in English, Italian and French. His areas of research include fundamental combustion problems of solid materials, with specific attention to nonsteady burning and intrinsic stability of solid energetic materials.

Maurizio Veeri, 32,Piazza Leonardo da Vinci ,Italy

Dr Maurizio Verri obtained his Laurea (Physics) from the Univ~rsity degli studi di Milano, Milan, Italy, in 1975. Presently, he is working as professor of Mathematical Analysis, School of Engineering, Milano, Italy. He has published about 30 research papers. His areas of research include applied mathematics, specifically semigroup theory and partial differential equations with applications to quantum statistical theory, inverse problems arisjng in potential theory, hydrodynamics and combustion theory of solid materials.

Fabio Cozzi, 32,Piazza Leonardo da Vinci ,Italy

Mr Fabio Cozzi obtain'ed his Laurea (Aeronautical Engineering) from Politecnico di Milano, Milan, Italy, in 1993. Presently, he is working as researcher in Aerospace Propulsion, School of Engineering, Milan, Italy. He has published several papers on combustion in English and Italian. His areas of research include fundamental combustion problems of solid materials under thermal radiation, with specific attention to non steady burning and intrinsic stability of solid energetic materials.

Giovanni Colombo, 32,Piazza Leonardo da Vinci ,Italy

Mr Giovanni Colombo obtained his Diploma di Maturita Scientifica, Busto Arsizio, Varese, Italy, in 1979. Presently, he is working as Laboratory Technician, Dipartimento di Energetica, Politecnico di Milano, Italy. He has published about 15 papers and several reports. His areas of research include applied research programmes on solid propellant combustion and pyrolysis of thermal protections for space propulsion making use of electrooptical diagnostic techniques and use of power lasers to control combustion processes and pyrolysis of solid materials.