Abstract
Slow pyrolysis using a batch reactor at 450 °C was applied to the polypropylene (PP) powder derived from Coronavirus Disease 2019 (COVID-19) isolation gown waste to yield char briquettes, using sugar palm starch (SPS) and a manual hydraulic press. These studies are significant because of reductions in plastic waste from the preparation of barbecue coal due to environmental sustainability. The results presented here include the physical, morphological, thermal, combustion, and mechanical properties of char when reinforced with various percentages of SPS loadings (0, 10, 20, 30, and 40%), which act as a matrix/binder to produce char/sugar palm starch (C/SPS) composites. The physical and morphological characteristics of C/SPS composites were determined using Fourier transform infrared (FTIR) and field emission scanning electron microscopy (FESEM). On the other hand, the thermal and combustion properties of the C/SPS briquettes were studied via thermogravimetric and bomb calorimeter analysis. The results show that the compressive strength of the briquettes increased as the SPS loading increased, whereas the higher heating values (HHV) reduced. The findings indicate that C-80/SPS-20 briquettes presented excellent combustion characteristics (1,761,430 J/g) with satisfactory mechanical strength (1.463 MPa) in the compression test. Thus, C-80/SPS-20 briquettes are the most suitable composites for domestic and commercial uses.
Highlights
The Ministry of Health (MOH) Malaysia used personal protective equipment (PPE)made from non-woven fabric polypropylene (PP) to fabricate masks, isolation gowns, hair nets, and shoe covers [1]
This microstructure proves that good bonding of the fine particles and decreased porosity were obtained for the briquettes with sugar palm starch (SPS) loading compared to the neat ones
The elemental, mechanical, and higher heating values (HHV) results indicated that PP waste has the potential to be utilized for charcoal briquette production with the aid of sugar palm starch (SPS) as a binder
Summary
The Ministry of Health (MOH) Malaysia used personal protective equipment (PPE)made from non-woven fabric polypropylene (PP) to fabricate masks, isolation gowns, hair nets, and shoe covers [1]. 59 million units of PPE are being used by health staff under the MOH per month. High utilization of plastic products will lead to high production of environmental plastic waste. Polypropylene waste (PP) takes 20–30 years to decay completely. These plastics contain additive materials—including colorants, plasticizers, and stabilizers—composed mainly of cadmium and lead [3], which are harmful to the environment. Plastic waste can emit significant contaminants into the atmosphere when burned openly. Due to these harmful impacts of plastic waste and its management practices on the environment, more environmentally sustainable methods for plastic waste disposal should be created
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