Characteristics physical and chemical properties of fuel from plastic waste for mineral water glasses

World Journal of Advanced Engineering Technology and Sciences Pub Date : 2024-02-28 DOI:10.30574/wjaets.2024.11.1.0050

Ida Bagus, I. B. Alit, I. Made

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Abstract

This research aims to convert plastic waste, especially plastic cups for packaging mineral water, into fuel oil through a pyrolysis process. The experimental method used is with the following stages: first, 1kg of plastic raw material is chopped before being put into a pyrolysis tube. Next, the tube is heated to change the plastic into a liquid form which then evaporates. The hot steam from this plastic is channeled to a heat exchanger to be condensed. Cooling is carried out using water flowing in the opposite direction to the direction of the steam. The results of plastic vapor condensation are collected to analyze their physical and chemical properties. Testing of physical and chemical properties includes specific gravity, heating value, kinematic viscosity, flash point, ash, lead and sulfur content. The result is that fuel from plastic bottle waste has a density value of 742 kg/m3, kinematic viscosity of 1.76 cSt, lower heating value of 43.28 MJ/kg, flash point of 1OC, ash, lead and sulfur content respectively of 0.003905%, 0.0000231%, and 0.000462%.

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矿泉水瓶塑料废弃物燃料的物理和化学特性

本研究旨在通过热解过程将塑料垃圾，特别是包装矿泉水的塑料杯转化为燃料油。实验方法分为以下几个阶段：首先，将 1 千克塑料原料切碎，然后放入热解管中。然后，加热管子，使塑料变成液态，然后蒸发。从塑料中产生的热蒸汽被输送到热交换器中冷凝。冷却时使用的水流方向与蒸汽方向相反。收集塑料蒸汽冷凝的结果是为了分析其物理和化学特性。物理和化学特性测试包括比重、热值、运动粘度、闪点、灰分、铅和硫含量。结果表明，塑料瓶废弃物燃料的密度值为 742 kg/m3，运动粘度为 1.76 cSt，较低的热值为 43.28 MJ/kg，闪点为 1OC，灰分、铅和硫含量分别为 0.003905%、0.0000231% 和 0.000462%。

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World Journal of Advanced Engineering Technology and Sciences

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