Analysis of thermal stability and characterization of paraffin-blended hybrid fuels

Purpose The purpose of this study is to investigate the physical, chemical and thermal characteristics of paraffin-blended fuels to determine their suitability as fuel in hybrid rockets. Design/methodology/approach Wax fuels are viable and efficient alternatives to conventional rocket fuels, having excellent structural strength and thermal and mechanical properties. The authors report a study of the morphological, chemical and thermal properties of paraffin wax with and without additives for use as fuels in hybrid rockets. Scanning electron microscopy, X-ray diffraction and Fourier transform infrared spectroscopy were used for the morphological and chemical characterizations of the fuel blends. The thermal stability and combustion characteristics were assessed under an atmosphere of nitrogen by the simultaneous application of thermogravimetry and differential scanning calorimetry techniques. Findings The melting temperatures for pure paraffin and other formulations were around 61 degrees C as seen in differential scanning calorimetry experiments. Variations in the compositions of monoesters, n-alkanes, fatty acids, carboxylic acids methyl and hydroxyl esters in the fuel samples were assessed using Fourier transform infrared spectroscopy. The assessment criterion was chosen as the relative content of carbonyl groups, and the ratio of the stretching vibration of the C-C bonds to the deformation vibration of the aliphatic carbon-hydrogen bonds was taken as the basis for the quantitative calibration. The crystal phases identified by X-ray diffraction were used to identify nonlinear chemicals and alkane lengths. Scanning electron microscopy validated homogeneity in the paraffin-blended samples. Originality/value This study presents the thermal stability and other relevant characteristics of fuel formulations comprising unconventional blends.

Automated summary

This study investigates the physical, chemical, and thermal characteristics of paraffin-blended fuels for potential use in hybrid rockets. Various analytical techniques were used to assess the properties of fuel blends, providing valuable insights for unconventional fuel formulations.