Simultaneous co-hydrothermal carbonization and chemical activation of food wastes to develop hydrochar for aquatic environmental remediation
- Authors
- Ahmed, Alshareef Shareefa; Abdullah, Alqadami Ayoub; Ali, Khan Moonis; Alanazi, Hamdah S.; Raza, Siddiqui Masoom; Jeon, Byong-Hun
- Issue Date
- Mar-2022
- Publisher
- ELSEVIER SCI LTD
- Keywords
- Arabic coffee ground; Olive oil cake; Adsorption; Cationic dyes; Solid waste management
- Citation
- BIORESOURCE TECHNOLOGY, v.347, pp.1 - 9
- Indexed
- SCIE
SCOPUS
- Journal Title
- BIORESOURCE TECHNOLOGY
- Volume
- 347
- Start Page
- 1
- End Page
- 9
- URI
- https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/139376
- DOI
- 10.1016/j.biortech.2021.126363
- ISSN
- 0960-8524
- Abstract
- Locally generated food wastes, such as Arabic coffee ground (ACG) and olive oil cake (OOC) were converted to N-ACG: OOC – 3 hydrochar (HC) through simultaneous co-hydrothermal carbonization (Co-HTC) and chemical activation. The optimized ACG: OOC mass ratio (g: g) and chemical activation agent used were 1.2: 0.8 and 0.1 M HNO3, respectively. Spectroscopic analyses confirmed the dominance of oxygen-containing functionalities, whereas the X-ray diffraction pattern displayed peaks for both sucrose and cellulose on N-ACG: OOC – 3. The developed HC was tested for methylene blue (MB) and crystal violet (CV) adsorption in aqueous systems. Batch scale adsorption studies showed pH, initial concentration (Co), time (t), and temperature (T) dependent dye uptake. Maximum dye uptake was observed at pH 7, with 50 – 70% and 76 – 90 % CV and MB removal achieved within 15 min at varied Co: 50 – 200 mg/L. Adsorption was governed by multiple mechanisms, including hydrogen bonding, electrostatic interactions, π–π interactions, and n-π interactions. Dye elution was higher in ethanol (EtOH: C2H5OH), and CV elution (50.8%) was more significant than MB elution (14.8%).
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