MITIGATING HEALTH RISKS THROUGH BIOSORPTION: EFFECTIVE REMOVAL OF NICKEL (II) AND CHROMIUM (VI) FROM WATER WITH ACID-TREATED POTATO PEELS

MITIGATING HEALTH RISKS THROUGH BIOSORPTION: EFFECTIVE REMOVAL OF NICKEL (II) AND CHROMIUM (VI) FROM WATER WITH ACID-TREATED POTATO PEELS

Introduction: Nickel (Ni(II)) and chromium (Cr(VI)) are associated with serious health risks, including respiratory problems, kidney damage, and cancer, along with potential threats to ecosystems. Given their persistence and significant toxicity, effective removal from contaminated water is essentia...

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Published in:Jurnal Kesehatan Lingkungan
Main Author: Khir N.H.M.; Salleh N.F.M.; Ghafar N.A.; Shukri N.M.
Format: Article
Language:English
Published: Airlangga University Faculty of Public Health 2024
Online Access:https://www.scopus.com/inward/record.uri?eid=2-s2.0-85208628202&doi=10.20473%2fjkl.v16i4.2024.312-320&partnerID=40&md5=58c8d3e8f6afc427d35622bf8a6b1304
id 2-s2.0-85208628202
spelling 2-s2.0-85208628202
Khir N.H.M.; Salleh N.F.M.; Ghafar N.A.; Shukri N.M.
MITIGATING HEALTH RISKS THROUGH BIOSORPTION: EFFECTIVE REMOVAL OF NICKEL (II) AND CHROMIUM (VI) FROM WATER WITH ACID-TREATED POTATO PEELS
2024
Jurnal Kesehatan Lingkungan
16
4
10.20473/jkl.v16i4.2024.312-320
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85208628202&doi=10.20473%2fjkl.v16i4.2024.312-320&partnerID=40&md5=58c8d3e8f6afc427d35622bf8a6b1304
Introduction: Nickel (Ni(II)) and chromium (Cr(VI)) are associated with serious health risks, including respiratory problems, kidney damage, and cancer, along with potential threats to ecosystems. Given their persistence and significant toxicity, effective removal from contaminated water is essential to mitigate these health risks. This study explores the efficacy of acid-treated potato peels (ATPP) as an economical and readily accessible biosorbent for the removal of Ni(II) and Cr(VI) from water solutions. Methods: The study explored two biosorbents: raw potato peels (RPP) and ATPP. Fourier Transform Infrared (FTIR) spectroscopy was utilized to analyze changes in surface functional groups. Batch biosorption experiments were performed using distinct contact times (30-180min), pH (3–11), and biosorbent dosages (0.1– 0.5 g). The Mann-Whitney U test was applied for the statistical analysis. Results and Discussion: The FTIR analysis indicated an enhancement in carboxyl groups on the ATPP surface after acid treatment, with stronger transmittance peak at 1645 cm⁻¹. ATPP showed significant improvements in biosorption capacity compared to RPP, removing 18.23% of 10 mg/L Ni(II) at pH 5 in 120minutes using 0.5 g of ATPP. For Cr(VI), 52.28% removal was achieved at pH 7 with 0.2 g of ATPP within the same time frame. Statistical analysis confirmed the superior performance of ATPP in removing Ni(II) (p = 0.024) and Cr(VI) (p = 0.004). Conclusion: ATPP offers significantly higher biosorption capabilities than RPP attributed to the increased presence of carboxyl groups on the modified surface, indicating potential for eco-friendly effective material in mitigating the heavy metal pollution's health risks. © 2024 Jurnal Kesehatan Lingkungan all right reserved.
Airlangga University Faculty of Public Health
18297285
English
Article
All Open Access; Gold Open Access
author Khir N.H.M.; Salleh N.F.M.; Ghafar N.A.; Shukri N.M.
spellingShingle Khir N.H.M.; Salleh N.F.M.; Ghafar N.A.; Shukri N.M.
MITIGATING HEALTH RISKS THROUGH BIOSORPTION: EFFECTIVE REMOVAL OF NICKEL (II) AND CHROMIUM (VI) FROM WATER WITH ACID-TREATED POTATO PEELS
author_facet Khir N.H.M.; Salleh N.F.M.; Ghafar N.A.; Shukri N.M.
author_sort Khir N.H.M.; Salleh N.F.M.; Ghafar N.A.; Shukri N.M.
title MITIGATING HEALTH RISKS THROUGH BIOSORPTION: EFFECTIVE REMOVAL OF NICKEL (II) AND CHROMIUM (VI) FROM WATER WITH ACID-TREATED POTATO PEELS
title_short MITIGATING HEALTH RISKS THROUGH BIOSORPTION: EFFECTIVE REMOVAL OF NICKEL (II) AND CHROMIUM (VI) FROM WATER WITH ACID-TREATED POTATO PEELS
title_full MITIGATING HEALTH RISKS THROUGH BIOSORPTION: EFFECTIVE REMOVAL OF NICKEL (II) AND CHROMIUM (VI) FROM WATER WITH ACID-TREATED POTATO PEELS
title_fullStr MITIGATING HEALTH RISKS THROUGH BIOSORPTION: EFFECTIVE REMOVAL OF NICKEL (II) AND CHROMIUM (VI) FROM WATER WITH ACID-TREATED POTATO PEELS
title_full_unstemmed MITIGATING HEALTH RISKS THROUGH BIOSORPTION: EFFECTIVE REMOVAL OF NICKEL (II) AND CHROMIUM (VI) FROM WATER WITH ACID-TREATED POTATO PEELS
title_sort MITIGATING HEALTH RISKS THROUGH BIOSORPTION: EFFECTIVE REMOVAL OF NICKEL (II) AND CHROMIUM (VI) FROM WATER WITH ACID-TREATED POTATO PEELS
publishDate 2024
container_title Jurnal Kesehatan Lingkungan
container_volume 16
container_issue 4
doi_str_mv 10.20473/jkl.v16i4.2024.312-320
url https://www.scopus.com/inward/record.uri?eid=2-s2.0-85208628202&doi=10.20473%2fjkl.v16i4.2024.312-320&partnerID=40&md5=58c8d3e8f6afc427d35622bf8a6b1304
description Introduction: Nickel (Ni(II)) and chromium (Cr(VI)) are associated with serious health risks, including respiratory problems, kidney damage, and cancer, along with potential threats to ecosystems. Given their persistence and significant toxicity, effective removal from contaminated water is essential to mitigate these health risks. This study explores the efficacy of acid-treated potato peels (ATPP) as an economical and readily accessible biosorbent for the removal of Ni(II) and Cr(VI) from water solutions. Methods: The study explored two biosorbents: raw potato peels (RPP) and ATPP. Fourier Transform Infrared (FTIR) spectroscopy was utilized to analyze changes in surface functional groups. Batch biosorption experiments were performed using distinct contact times (30-180min), pH (3–11), and biosorbent dosages (0.1– 0.5 g). The Mann-Whitney U test was applied for the statistical analysis. Results and Discussion: The FTIR analysis indicated an enhancement in carboxyl groups on the ATPP surface after acid treatment, with stronger transmittance peak at 1645 cm⁻¹. ATPP showed significant improvements in biosorption capacity compared to RPP, removing 18.23% of 10 mg/L Ni(II) at pH 5 in 120minutes using 0.5 g of ATPP. For Cr(VI), 52.28% removal was achieved at pH 7 with 0.2 g of ATPP within the same time frame. Statistical analysis confirmed the superior performance of ATPP in removing Ni(II) (p = 0.024) and Cr(VI) (p = 0.004). Conclusion: ATPP offers significantly higher biosorption capabilities than RPP attributed to the increased presence of carboxyl groups on the modified surface, indicating potential for eco-friendly effective material in mitigating the heavy metal pollution's health risks. © 2024 Jurnal Kesehatan Lingkungan all right reserved.
publisher Airlangga University Faculty of Public Health
issn 18297285
language English
format Article
accesstype All Open Access; Gold Open Access
record_format scopus
collection Scopus
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