In this paper, we discuss the dynamical properties of a chemical reactor model including Lyapunov exponents, bifurcation, stability of equilibrium and chaotic attractors as well as necessary conditions for this system to generate chaos. We study the synchronization of chemical reactors model via sliding mode control scheme. The stability of proposed method is proved by Barbalate’s lemma. Numerical Simulation is provided for illustration and verification of the proposed method.
Kheiri, H., & Naderi, B. (2015). Dynamical Behavior and Synchronization of Chaotic Chemical Reactors Model. Iranian Journal of Mathematical Chemistry, 6(1), 81-92. doi: 10.22052/ijmc.2015.9129
MLA
H. Kheiri; B. Naderi. "Dynamical Behavior and Synchronization of Chaotic Chemical Reactors Model", Iranian Journal of Mathematical Chemistry, 6, 1, 2015, 81-92. doi: 10.22052/ijmc.2015.9129
HARVARD
Kheiri, H., Naderi, B. (2015). 'Dynamical Behavior and Synchronization of Chaotic Chemical Reactors Model', Iranian Journal of Mathematical Chemistry, 6(1), pp. 81-92. doi: 10.22052/ijmc.2015.9129
VANCOUVER
Kheiri, H., Naderi, B. Dynamical Behavior and Synchronization of Chaotic Chemical Reactors Model. Iranian Journal of Mathematical Chemistry, 2015; 6(1): 81-92. doi: 10.22052/ijmc.2015.9129
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