A Review: Analysis of Metal and Mineral Content in the Complexity of Sidoarjo Hot Mud as a Source of Renewable Energy in Indonesia

Rokhim, Deni Ainur; ISLAMİYAH, Kafita Krisnatul; Sanjaya, Eli Hendrik

doi:10.18596/jotcsa.1093763

Cited by 2 publications

(1 citation statement)

References 13 publications

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“…In this study, sodium silicate extraction was carried out because sodium silicate and its derivatives have various benefits in industry. The silicate content in Sidoarjo mud is very high, namely 45.3% [ 34 , 35 ], this can be an alternative source of raw materials for silicate production, increasing the economic value of a material and preliminary studies to determine suitable technology for the extraction of valuable metals in Sidoarjo mud. To achieve this goal, two stages were carried out, namely the decomposition of silicate from the Sidoarjo mud with the addition of Na 2 CO 3 and water leaching to dissolve the sodium silicate formed.…”

Section: Introductionmentioning

confidence: 99%

Initial extraction of sodium silicate from sidoarjo mud by alkaline fusion and water leaching

Ningsih

Juliastuti

Darmawan

et al. 2023

Heliyon

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Section: Introductionmentioning

confidence: 99%

Initial extraction of sodium silicate from sidoarjo mud by alkaline fusion and water leaching

Ningsih

Juliastuti

Darmawan

et al. 2023

Heliyon

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Sonochemically Modified Lapindo Mud Using Sulfuric Acid for Efficient Adsorption of Phenol in Aqueous Media and Real Wastewater Samples

Wijaya,

Bhagaskara,

Sani

et al. 2024

Bull. Chem. React. Eng. Catal.

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Pharmaceutical industrial wastewater frequently contains high amounts of phenolic substances, which pose severe threats to the ecosystem and human health. Therefore, efficient removal of these pollutants is urgently needed. In the present work, sulfated Lapindo mud (SLM) was prepared using the sonochemical method and applied as an adsorbent for phenol removal in aqueous media and actual wastewater samples from Code River, Yogyakarta. Modification of Lapindo mud (LM) using sulfuric acid enables it to remove its impurities, resulting in a material containing 78.4% silica (SiO2) and 15.3% alumina (Al2O3). The SLM adsorbent demonstrated sufficient adsorption performance of 49.8% with an optimal initial phenol concentration of 120 mg/L with a contact time of 100 min at pH of 10. The maximum adsorption capacity (qmax) obtained by the Langmuir isotherm model was 27.2 mg/g. The adsorption process follows pseudo-second-order because it has two active sites, Brønsted acid sites (–SiOH and –SO3H) and Lewis acid sites (Si4+). Phenol in base condition undergoes a deprotonation reaction that is stabilized by the acid-active sites of the SLM adsorbent through intermolecular forces. Considering the large adsorption capacity and quick kinetic, the SLM adsorbent can be a promising cheap and green material to remove phenolic substances in wastewater, especially in the river near the medical facility. Copyright © 2024 by Authors, Published by BCREC Publishing Group. This is an open access article under the CC BY-SA License (https://creativecommons.org/licenses/by-sa/4.0).

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A Review: Analysis of Metal and Mineral Content in the Complexity of Sidoarjo Hot Mud as a Source of Renewable Energy in Indonesia

Cited by 2 publications

References 13 publications

Initial extraction of sodium silicate from sidoarjo mud by alkaline fusion and water leaching

Initial extraction of sodium silicate from sidoarjo mud by alkaline fusion and water leaching

Sonochemically Modified Lapindo Mud Using Sulfuric Acid for Efficient Adsorption of Phenol in Aqueous Media and Real Wastewater Samples

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