Inner power and temperature of a carbon nanotube: Fullerenes, Nanotubes and Carbon Nanostructures: Vol 0, No 0

Summary

Modelling the hydrogen combustion response confined in carbon nanotubes (CNTs) implies the efficient management of the preliminary situations of place and velocities of the fuel and of the nanocontainer, in order to breed the strain and temperature of the system. On this work, the preliminary situations of the fuel particles had been randomly generated based on the Maxwell-Boltzmann distributions at a given temperature. As for the CNT construction, we observe a process which relates the inner power of the CNT to its temperature, which allowed us to outline the kinetic power to distribute in an effort to get hold of a CNT on the identical temperature because the reactive combination. Outcomes point out that we will find the carbon atoms at their equilibrium geometries and use $3N{\mathrm{ok}}_{\mathrm{B}}T$ for his or her common kinetic power.