Characterization of Coal Fly Ash Based Adsorbent for CO<sub>2</sub> Removal

Misran, Erni; Bani, Okta; Dina, Sari Farah; Harahap, Raja; Wahyuni, Novita

doi:10.1088/1742-6596/1230/1/012042

Cited by 3 publications

(1 citation statement)

References 9 publications

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“…Namun, hasil analisis XRF menunjukkan kandungan logam Cr yang relatif tinggi (berkisar 200-800 mg/L). Oleh karena itu, penelitian lebih lanjut diperlukan untuk menentukan jenis ion kromium yang dominan, sehingga pemanfaatan abu batubara dapat lebih aman bagi lingkungan (Ochedi et al, 2020 ;Misran et al, 2019 ;Anggraini et al, 2021).…”

Section: So₂ + 2h₂o + O₂ → H₂so₄unclassified

Study on The Potential Contamination of Heavy Metals: Analysis of Cr and Pb Contents From Power Plants in Indonesia Using the Batch Leaching Method

Hanum,

Salamah,

Rifai Sanuhung

et al. 2024

J. Sains Nat.

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Coal ash, stemming from the combustion process in power plants, emerges as a potential pollution source due to its metal content. Recognized for housing various metals with environmental contamination potential, this study meticulously delves into the metal analysis of chromium (Cr) and lead (Pb) within four distinct samples of fly ash (FA) and bottom ash (BA) sourced from diverse coal-fired power plants across Indonesia. Employing the batch leaching method, the coal ash samples (FABA) underwent a 6-hour immersion in deionized water, replicating environmental scenarios akin to rainwater interaction with coal ash at disposal sites. XRF analysis scrutinized the chemical composition of each sample, while the leaching filtrate underwent analysis via pH meter and AAS to ascertain pH values and the concentrations of Pb and Cr. Results unveiled a substantial pH variation in the leachate, fluctuating from the initial deionized water pH of 7.00 to a range between 6.86 and 9.18. Notably, subsequent leaching indicated undetectable concentrations of Pb in all samples, with most exhibiting low Cr concentrations post-leaching, except for FA-2, FA-4, and BA-4, which displayed modest Cr concentrations. The scarcity or low concentrations of Pb and Cr post-leaching suggest an efficacious process inhibiting heavy metal release. This study offers profound insights into the chemical intricacies of coal ash, underlining its potential environmental ramifications. The absence of detectable heavy metal concentrations post-leaching underscores a minimal risk of environmental pollution, underscoring the imperative to comprehend the chemical reactions intrinsic to the leaching process for optimal waste management strategies.

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Section: So₂ + 2h₂o + O₂ → H₂so₄unclassified

Study on The Potential Contamination of Heavy Metals: Analysis of Cr and Pb Contents From Power Plants in Indonesia Using the Batch Leaching Method

Hanum,

Salamah,

Rifai Sanuhung

et al. 2024

J. Sains Nat.

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CO2 capture enhancement by metal oxides impregnated coal fly ash: a breakthrough adsorption study

Irshad,

Aslam,

Sumbal

et al. 2024

Environ Sci Pollut Res

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Fly ash grafted poly(acrylic acid-co-acrylamide) composite hydrogel as the carbon dioxide adsorbent

Ghani,

Kumeresan,

Rabat

et al. 2024

INTERNATIONAL SYMPOSIUM ON ADVANCED MATERIALS &Amp; PROCESSING (ISAMP 2022)

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Characterization of Coal Fly Ash Based Adsorbent for CO₂ Removal

Cited by 3 publications

References 9 publications

Study on The Potential Contamination of Heavy Metals: Analysis of Cr and Pb Contents From Power Plants in Indonesia Using the Batch Leaching Method

Study on The Potential Contamination of Heavy Metals: Analysis of Cr and Pb Contents From Power Plants in Indonesia Using the Batch Leaching Method

CO2 capture enhancement by metal oxides impregnated coal fly ash: a breakthrough adsorption study

Fly ash grafted poly(acrylic acid-co-acrylamide) composite hydrogel as the carbon dioxide adsorbent

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Characterization of Coal Fly Ash Based Adsorbent for CO2 Removal

Cited by 3 publications

References 9 publications

Study on The Potential Contamination of Heavy Metals: Analysis of Cr and Pb Contents From Power Plants in Indonesia Using the Batch Leaching Method

Study on The Potential Contamination of Heavy Metals: Analysis of Cr and Pb Contents From Power Plants in Indonesia Using the Batch Leaching Method

CO2 capture enhancement by metal oxides impregnated coal fly ash: a breakthrough adsorption study

Fly ash grafted poly(acrylic acid-co-acrylamide) composite hydrogel as the carbon dioxide adsorbent

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Product

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About

Characterization of Coal Fly Ash Based Adsorbent for CO₂ Removal