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Investigation of heavy metal concentrations for biocoke by using ICP-OES

Erdiwansyah Erdiwansyah, Asri Gani, Hera Desvita, Mahidin Mahidin, Bahagia Bahagia, Rizalman Mamat, S.M. Rosdi

2024Results in Engineering16 citationsDOIOpen Access PDF

Abstract

• This article focuses on the investigation or analysis of heavy metal concentrations. • The object of this research is EFB, which is waste from the palm oil industry. • This research uses the ICP-OES technique to measure heavy metal concentrations. • Heavy metal concentrations in environmental samples, such as EFB, are an important. The palm oil industry produces large amounts of empty oil palm bunches (EFB) waste, which can pollute the environment if it contains hazardous heavy metals. This study aims to analyze the concentration of heavy metals in EFB using the Inductively Coupled Plasma Optical Emission Spectrometry (ICP-OES) method. The analysis showed that hazardous heavy metals such as arsenic (As), cadmium (Cd), mercury (Hg), and lithium (Li) were not detected in EFB samples. Calcium (Ca) was recorded as the metal with the highest concentration of 52.636,42 µg/g, followed by sodium (Na) at 863,67 µg/g and copper (Cu) at 6.12 µg/g. Variations in soaking temperature and water flow rate in the EFB preparation process affected the concentration of certain metals, such as a significant increase in Ca with increasing flow rate. These results indicate that EFB is relatively safe to use as a raw material for biocoke. It can partially replace coal as an alternative fuel in the combustion process because its calorific value is close to coal. In addition to supporting emission reduction efforts, this study provides a scientific basis for a more environmentally friendly and sustainable palm oil industry waste management strategy and opportunities for developing alternative fuels from biomass that can help improve energy efficiency in various industrial applications.

Topics & Concepts

Inductively coupled plasma atomic emission spectroscopyEnvironmental chemistryMetalHeavy metalsChemistryEnvironmental scienceMetallurgyInductively coupled plasmaMaterials sciencePlasmaPhysicsQuantum mechanicsHeavy metals in environmentRadioactive element chemistry and processingAnalytical chemistry methods development
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