The removal of antibiotics in water by chemically modified carbonaceous adsorbents from biomass: a systematic review.
Antibiotics are extensively used in treating infectious diseases for both humans and animals. However, they are generally not fully digested in the body and are released as active compounds into aquatic systems through domestic sewage treatment plants, where they can cause chronic toxicity and some...
Main Authors: | , , , , , , |
---|---|
Format: | Article |
Published: |
Elsevier Ltd.
2023
|
Subjects: |
_version_ | 1811132321729871872 |
---|---|
author | Anuar, Nur Faradila Shah Iskandar Shah, Darween Rozehan Ramli, Fitri Fareez Md. Zaini, Mohd. Saufi Mohammadi, Nasrin Agha Mohamad Daud, Ahmad Rafizan A. Syed-Hassan, Syed Shatir |
author_facet | Anuar, Nur Faradila Shah Iskandar Shah, Darween Rozehan Ramli, Fitri Fareez Md. Zaini, Mohd. Saufi Mohammadi, Nasrin Agha Mohamad Daud, Ahmad Rafizan A. Syed-Hassan, Syed Shatir |
author_sort | Anuar, Nur Faradila |
collection | ePrints |
description | Antibiotics are extensively used in treating infectious diseases for both humans and animals. However, they are generally not fully digested in the body and are released as active compounds into aquatic systems through domestic sewage treatment plants, where they can cause chronic toxicity and some potentially major health and environmental risks. Many researchers reported that conventional wastewater treatment processes cannot completely eradicate antibiotic residue and that these residues may be discharged to the receiving rivers and streams. Adsorption was claimed to be able to remove these contaminants even at low concentrations and under a variety of pH conditions. Biomass-based adsorbent materials have recently been used to remove antibiotics due to their wide availability, eco-friendly nature, good surface characteristics, and low cost. This study conducted a systematic review of biomass-based carbon adsorbents used for antibiotic removal. The surface chemistry and maximum antibiotic adsorption capacities were reviewed and discussed based on the type of biomass and chemical modification. The effect of influential variables such as pH, initial concentration of antibiotics and adsorbent dosage was also discussed in detail. After the screening process, four articles were found to be suitable for the detail analysis on reusable efficiency. Results of the detail analysis shows coconut shell and sawdust based-carbon adsorbent could remove antibiotics with 89% reusable efficiency after the fourth cycle of reuse. Overall, this systematic review ascribes the research work for synthesizing an excellent performance of biomass-based carbon adsorbent. |
first_indexed | 2024-09-24T00:01:41Z |
format | Article |
id | utm.eprints-106354 |
institution | Universiti Teknologi Malaysia - ePrints |
last_indexed | 2024-09-24T00:01:41Z |
publishDate | 2023 |
publisher | Elsevier Ltd. |
record_format | dspace |
spelling | utm.eprints-1063542024-06-29T06:57:53Z http://eprints.utm.my/106354/ The removal of antibiotics in water by chemically modified carbonaceous adsorbents from biomass: a systematic review. Anuar, Nur Faradila Shah Iskandar Shah, Darween Rozehan Ramli, Fitri Fareez Md. Zaini, Mohd. Saufi Mohammadi, Nasrin Agha Mohamad Daud, Ahmad Rafizan A. Syed-Hassan, Syed Shatir TP Chemical technology Antibiotics are extensively used in treating infectious diseases for both humans and animals. However, they are generally not fully digested in the body and are released as active compounds into aquatic systems through domestic sewage treatment plants, where they can cause chronic toxicity and some potentially major health and environmental risks. Many researchers reported that conventional wastewater treatment processes cannot completely eradicate antibiotic residue and that these residues may be discharged to the receiving rivers and streams. Adsorption was claimed to be able to remove these contaminants even at low concentrations and under a variety of pH conditions. Biomass-based adsorbent materials have recently been used to remove antibiotics due to their wide availability, eco-friendly nature, good surface characteristics, and low cost. This study conducted a systematic review of biomass-based carbon adsorbents used for antibiotic removal. The surface chemistry and maximum antibiotic adsorption capacities were reviewed and discussed based on the type of biomass and chemical modification. The effect of influential variables such as pH, initial concentration of antibiotics and adsorbent dosage was also discussed in detail. After the screening process, four articles were found to be suitable for the detail analysis on reusable efficiency. Results of the detail analysis shows coconut shell and sawdust based-carbon adsorbent could remove antibiotics with 89% reusable efficiency after the fourth cycle of reuse. Overall, this systematic review ascribes the research work for synthesizing an excellent performance of biomass-based carbon adsorbent. Elsevier Ltd. 2023-05-15 Article PeerReviewed Anuar, Nur Faradila and Shah Iskandar Shah, Darween Rozehan and Ramli, Fitri Fareez and Md. Zaini, Mohd. Saufi and Mohammadi, Nasrin Agha and Mohamad Daud, Ahmad Rafizan and A. Syed-Hassan, Syed Shatir (2023) The removal of antibiotics in water by chemically modified carbonaceous adsorbents from biomass: a systematic review. Journal of Cleaner Production, 401 (136725). NA-NA. ISSN 9596-5260 https://doi.org/10.1016/j.jclepro.2023.136725 DOI: 10.1016/j.jclepro.2023.136725 |
spellingShingle | TP Chemical technology Anuar, Nur Faradila Shah Iskandar Shah, Darween Rozehan Ramli, Fitri Fareez Md. Zaini, Mohd. Saufi Mohammadi, Nasrin Agha Mohamad Daud, Ahmad Rafizan A. Syed-Hassan, Syed Shatir The removal of antibiotics in water by chemically modified carbonaceous adsorbents from biomass: a systematic review. |
title | The removal of antibiotics in water by chemically modified carbonaceous adsorbents from biomass: a systematic review. |
title_full | The removal of antibiotics in water by chemically modified carbonaceous adsorbents from biomass: a systematic review. |
title_fullStr | The removal of antibiotics in water by chemically modified carbonaceous adsorbents from biomass: a systematic review. |
title_full_unstemmed | The removal of antibiotics in water by chemically modified carbonaceous adsorbents from biomass: a systematic review. |
title_short | The removal of antibiotics in water by chemically modified carbonaceous adsorbents from biomass: a systematic review. |
title_sort | removal of antibiotics in water by chemically modified carbonaceous adsorbents from biomass a systematic review |
topic | TP Chemical technology |
work_keys_str_mv | AT anuarnurfaradila theremovalofantibioticsinwaterbychemicallymodifiedcarbonaceousadsorbentsfrombiomassasystematicreview AT shahiskandarshahdarweenrozehan theremovalofantibioticsinwaterbychemicallymodifiedcarbonaceousadsorbentsfrombiomassasystematicreview AT ramlifitrifareez theremovalofantibioticsinwaterbychemicallymodifiedcarbonaceousadsorbentsfrombiomassasystematicreview AT mdzainimohdsaufi theremovalofantibioticsinwaterbychemicallymodifiedcarbonaceousadsorbentsfrombiomassasystematicreview AT mohammadinasrinagha theremovalofantibioticsinwaterbychemicallymodifiedcarbonaceousadsorbentsfrombiomassasystematicreview AT mohamaddaudahmadrafizan theremovalofantibioticsinwaterbychemicallymodifiedcarbonaceousadsorbentsfrombiomassasystematicreview AT asyedhassansyedshatir theremovalofantibioticsinwaterbychemicallymodifiedcarbonaceousadsorbentsfrombiomassasystematicreview AT anuarnurfaradila removalofantibioticsinwaterbychemicallymodifiedcarbonaceousadsorbentsfrombiomassasystematicreview AT shahiskandarshahdarweenrozehan removalofantibioticsinwaterbychemicallymodifiedcarbonaceousadsorbentsfrombiomassasystematicreview AT ramlifitrifareez removalofantibioticsinwaterbychemicallymodifiedcarbonaceousadsorbentsfrombiomassasystematicreview AT mdzainimohdsaufi removalofantibioticsinwaterbychemicallymodifiedcarbonaceousadsorbentsfrombiomassasystematicreview AT mohammadinasrinagha removalofantibioticsinwaterbychemicallymodifiedcarbonaceousadsorbentsfrombiomassasystematicreview AT mohamaddaudahmadrafizan removalofantibioticsinwaterbychemicallymodifiedcarbonaceousadsorbentsfrombiomassasystematicreview AT asyedhassansyedshatir removalofantibioticsinwaterbychemicallymodifiedcarbonaceousadsorbentsfrombiomassasystematicreview |