Utilization of Jengkol Peel (Pithecellobium jiringa (Jack) Prain) as Lead (II) Ions Bio-sorbent with Column Method

Wardani, Gatut Ari; Nuramalia, Lia; Wulandari, Winda Trisna; Nofiyanti, Estin

doi:10.14710/jksa.23.5.160-166

Cited by 3 publications

(3 citation statements)

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“…Activation with a strong base will dissolve the lignin (Yuniati, 2015). NaOH as an activator will break down lignocellulose into cellulose and lignin (Wardani et al, 2020). The hydroxyl group bound to cellulose will play a role in the adsorption process of Fe metal on the Jengkol peel adsorbent (Yuniati, 2015).…”

Section: Research Results and Discussionmentioning

confidence: 99%

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Utilization of Jengkol Peel (Pithecellobium jiringa) as an Adsorbent of Iron Metal

Fildza

Rohmatullaili²,

Oktasari³

2022

Walisongo J. Chem.

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Cellulose, which has the active group OH, is found in Jengkol peel. Jengkol peel has the potential to be utilized as an adsorbent for Iron (Fe) metal because it contains these active groups. The FT-IR spectrophotometer instrument was used to confirm the presence of the -OH group in the Jengkol peel adsorbent, which was observed at the peak of the OH vibration at wave number 3293 cm1. Utilizing NaOH (0.1 M), the active group was activated. With an adsorption percentage of 96.24%, pH 7 was the optimum adsorption pH. With an adsorption percentage of 99.20%, 25 minutes was indeed the optimum contact time. With an adsorption capacity value of 8.581 mg/g, the binding of Fe metal by the adsorbent active group occurs in the complex formation mechanism, it was indicating a relatively high adsorption efficiency.

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Section: Research Results and Discussionmentioning

confidence: 99%

“…It is a typical plant found in Southeast Asia (Hutauruk, 2010). Jengkol peel contains chemical compounds in the form of cellulose, hemicellulose, and lignin (Wardani et al, 2020). Jengkol peel can be utilized as an adsorbent because these compounds contain hydroxyl and carboxyl groups, which can adsorb heavy metals (Idanta, 2017).…”

Section: Introductionmentioning

confidence: 99%

Utilization of Jengkol Peel (Pithecellobium jiringa) as an Adsorbent of Iron Metal

Fildza

Rohmatullaili²,

Oktasari³

2022

Walisongo J. Chem.

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“…Sistem adsorpsi dengan arang aktif sebagai adsorben dapat dilakukan dengan dua metode, yaitu metode batch dan kolom (Wardani et al, 2020). Proses adsorpsi menggunakan metode kolom mampu mendapatkan hasil optimal, karena larutan yang mengandung adsorbat selalu dikontakan dengan material adsorben.…”

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Arang Aktif Ampas Tebu Termodifikasi Kitosan sebagai Adsorben Tetrasiklin: Pemanfaatan Metode Kolom

Wardani

Octavia

Fathurohman

et al. 2022

Kovalen

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Currently, antibiotics are considered environmental pollutants because of their undesirable effects on human health and the environment, including the waste of antibiotics tetracycline hydrochloride. While on the other hand, bagasse is an agricultural waste that has no economic value. This study aims to study the characteristics of activated charcoal from bagasse and the use of bagasse as chitosan-modified activated charcoal using the column method to determine the variation of adsorbent height, flow rate, and acidity of the solution in the ability of the bagasse adsorbent to adsorb tetracycline hydrochloride. Bagasse goes through a carbonation process using a furnace at a temperature of 350°C until charcoal is formed. The next process is activation using 2 M phosphoric acids and compared based on SNI 06-3730-1995 regarding technically activated charcoal. Determination of functional groups using Fourier Transform Infra-Red, adsorbent morphology using Scanning Electron Microscope, and crystallinity using X-Ray Diffraction. The concentration of tetracycline hydrochloride before and after adsorption was measured using an Ultra Violet-Visible spectrophotometer. The best absorption results in the adsorption process were found at the adsorbent height of 14 cm (99%), the flow rate of 0.5mL/minute (92%), and pH 4 (93%).

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Adsorptive removal of boron from aqueous solutions using peels of jering seeds (Archidendron pauciflorum): isotherm, kinetic and thermodynamic studies

Al-Badaii,

Hassan,

Jalil

et al. 2023

Desalination and Water Treatment

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Utilization of Jengkol Peel (Pithecellobium jiringa (Jack) Prain) as Lead (II) Ions Bio-sorbent with Column Method

Cited by 3 publications

References 20 publications

Utilization of Jengkol Peel (Pithecellobium jiringa) as an Adsorbent of Iron Metal

Utilization of Jengkol Peel (Pithecellobium jiringa) as an Adsorbent of Iron Metal

Arang Aktif Ampas Tebu Termodifikasi Kitosan sebagai Adsorben Tetrasiklin: Pemanfaatan Metode Kolom

Adsorptive removal of boron from aqueous solutions using peels of jering seeds (Archidendron pauciflorum): isotherm, kinetic and thermodynamic studies

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