LAPSE:2023.1248
Published Article
LAPSE:2023.1248
Effect of Acidic Hydrochar on Plastic Crude Oil Produced from Hydrothermal Liquefaction of Waste PVC
February 21, 2023
Abstract
In this study, the effect of hydrothermal liquefaction (HTL) of waste PVC was investigated in the presence of acidic hydrochar. The hydrochar was prepared by hydrothermal carbonization of pineapple waste at 250 °C and at 1 h in the presence of citric acid. Hydrochar was acidic, stable, and porous and contained acidic functional groups. Hydrochar was co-fed with PVC during HTL to enhance HTL conversion and quality of the plastic crude oil. HTL experiments were performed at 300−350 °C, 0.25−4 h of reaction times, and 0−20 wt% hydrochar-to-PVC ratio. The plastic crude oil was separated from the solid residue to evaluate HTL conversion and to analyze elemental compositions, boiling point distribution, alteration of chemical bonds, and chemical compositions. The results showed that acidic hydrochar enhances HTL conversion with a maximum value of 28.75 at 5 wt% hydrochar content at 350 °C and 0.5 h. Furthermore, plastic crude oils contained no chloride but contained significantly high carbon and hydrogen, resulting in a higher heating value of up to 36.43 MJ/kg. The major component of the plastic crude oil was 3, 5 dimethylphenol produced ranging from 61.4 to 86.4% (percentage of total identified area) according to gas chromatography mass spectroscopy (GCMS) data.
In this study, the effect of hydrothermal liquefaction (HTL) of waste PVC was investigated in the presence of acidic hydrochar. The hydrochar was prepared by hydrothermal carbonization of pineapple waste at 250 °C and at 1 h in the presence of citric acid. Hydrochar was acidic, stable, and porous and contained acidic functional groups. Hydrochar was co-fed with PVC during HTL to enhance HTL conversion and quality of the plastic crude oil. HTL experiments were performed at 300−350 °C, 0.25−4 h of reaction times, and 0−20 wt% hydrochar-to-PVC ratio. The plastic crude oil was separated from the solid residue to evaluate HTL conversion and to analyze elemental compositions, boiling point distribution, alteration of chemical bonds, and chemical compositions. The results showed that acidic hydrochar enhances HTL conversion with a maximum value of 28.75 at 5 wt% hydrochar content at 350 °C and 0.5 h. Furthermore, plastic crude oils contained no chloride but contained significantly high carbon and hydrogen, resulting in a higher heating value of up to 36.43 MJ/kg. The major component of the plastic crude oil was 3, 5 dimethylphenol produced ranging from 61.4 to 86.4% (percentage of total identified area) according to gas chromatography mass spectroscopy (GCMS) data.
Record ID
Keywords
crude oil, hydrochar, hydrothermal liquefaction, subcritical water, waste plastics
Subject
Suggested Citation
Ghalandari V, Smith H, Volpe M, Messineo A, Reza T. Effect of Acidic Hydrochar on Plastic Crude Oil Produced from Hydrothermal Liquefaction of Waste PVC. (2023). LAPSE:2023.1248
Author Affiliations
Ghalandari V: Department of Biomedical and Chemical Engineering and Sciences, Florida Institute of Technology, 150 West University Boulevard, Melbourne, FL 32901, USA
Smith H: Department of Biomedical and Chemical Engineering and Sciences, Florida Institute of Technology, 150 West University Boulevard, Melbourne, FL 32901, USA
Volpe M: Faculty of Engineering and Architecture, University of Enna, Kore, viale delle Olimpiadi snc, 94100 Enna, Italy [ORCID]
Messineo A: Faculty of Engineering and Architecture, University of Enna, Kore, viale delle Olimpiadi snc, 94100 Enna, Italy [ORCID]
Reza T: Department of Biomedical and Chemical Engineering and Sciences, Florida Institute of Technology, 150 West University Boulevard, Melbourne, FL 32901, USA [ORCID]
Smith H: Department of Biomedical and Chemical Engineering and Sciences, Florida Institute of Technology, 150 West University Boulevard, Melbourne, FL 32901, USA
Volpe M: Faculty of Engineering and Architecture, University of Enna, Kore, viale delle Olimpiadi snc, 94100 Enna, Italy [ORCID]
Messineo A: Faculty of Engineering and Architecture, University of Enna, Kore, viale delle Olimpiadi snc, 94100 Enna, Italy [ORCID]
Reza T: Department of Biomedical and Chemical Engineering and Sciences, Florida Institute of Technology, 150 West University Boulevard, Melbourne, FL 32901, USA [ORCID]
Journal Name
Processes
Volume
10
Issue
12
First Page
2538
Year
2022
Publication Date
2022-11-29
ISSN
2227-9717
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Original Submission
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PII: pr10122538, Publication Type: Journal Article
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LAPSE:2023.1248
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https://doi.org/10.3390/pr10122538
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Feb 21, 2023
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