Thermo-chemical conversion of waste rubber seed shell to produce fuel and value-added chemicals

Abstract

Rubber seed shell (RSS), comprises of 96.67 wt% organic content and 38.6% crystallinity index, was used for the production of biofuel and value-added chemicals through semi-batch pyrolysis. Thermogravimetric analysis (TGA) of RSS at heating rate of 20 °C/min showed R50 value as 12.72%/min at 376.5 °C. The gaseous product evolved during the decomposition of RSS were analyzed through inline Fourier transform infrared (FT-IR) coupled with TGA instrument. The effects of pyrolysis temperatures (350°C-600 °C) and heating rates (10°C/min–40 °C/min) on the product distribution (liquid, gas and bio-char) were investigated. The maximum yield of liquid product (46.14 wt%) and the carbon-rich bio-char (31.92 wt%) were obtained at 550 °C temperature for heating rate of 30 °C/min. The fuel characteristics of produced bio-char such as higher calorific value (34.5 MJ/kg), higher fixed carbon (79.74 wt%), lower ash (1.87 wt%) and lower moisture content (2.11 wt%) suggested its potential to be used as solid fuel. Value-added organic compounds such as acetic acid, phenolic compounds, creosol, pilocarpine, benzene and levoglucosan were identified in the liquid product using gas chromatography. The pH values of liquid products (2.55–3.0) support the presence of organic acids and phenolic fraction. The presence of various functional groups was also identified using FT-IR spectroscopy. In depth analysis of physico-chemical-thermal properties of RSS and obtained products (liquid and bio-char) suggested that RSS can be considered as a suitable feedstock for the production of value added chemicals including fuel.