Influence of Surface Characteristics of Palm Shell Activated Carbon Modified with Nanostructured Nickel for Reactive Adsorption of Hydrogen Sulfide

Hydrogen sulfide (H2S) is a colourless and toxic gas that could harms people and environment. Due to its acidic and toxic properties, H2S cannot be burnt directly, hence it is necessary to remove it. The aim of this work is to study the influence of surface characteristics of modified palm shell act...

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Bibliographic Details
Published in:Journal of Applied Science and Engineering
Main Author: Abdullah N.; Mohamed A.R.; Ramli M.Z.; Nor N.M.
Format: Article
Language:English
Published: Tamkang University 2022
Online Access:https://www.scopus.com/inward/record.uri?eid=2-s2.0-85118921039&doi=10.6180%2fjase.202206_25%283%29.0017&partnerID=40&md5=2790d1e0c778e58d54e4dcbb03e59e40
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Summary:Hydrogen sulfide (H2S) is a colourless and toxic gas that could harms people and environment. Due to its acidic and toxic properties, H2S cannot be burnt directly, hence it is necessary to remove it. The aim of this work is to study the influence of surface characteristics of modified palm shell activated carbon (PSAC) with Nickel nanoparticles (Ni nps) towards H2S removal. Surface characteristics consist of a combination of various analysis on the adsorbent's surface such as, surface morphology, surface area, surface porosity, and surface functional groups. The Ni nps were synthesized by using alkaline precipitation method at different synthesis parameters; pH (8 - 10), precipitant molarity (6.5M - 7.5M) and temperature (55°C - 65°C). To study the adsorption of H2S, the PSAC adsorbent was modified with the synthesized Ni nps at 400°C for 3 hours. The performance of modified Ni nps with PSAC (Ni-PSAC) adsorbents were tested in a custom-design H2S scrubber for H2S removal application. The surface characteristics of modified Ni-PSAC adsorbent were analysed by using TGA, TEM, SEM, and FTIR. Among the impregnated adsorbents, Ni-PSAC with pH 10, 6.5 M of precipitant molarity and temperature of 65°C gives the highest adsorption capacity (9.60 mg H2S/g Ni-PSAC) and breakthrough time (14 minutes) compared to the rest of adsorbents. The introduction of Ni nps in the PSAC adsorbent structures resulted in better H2S removal compared to unimpregnated PSAC adsorbent. The existence of Ni nps help to increase the availability of oxygen vacancies in the adsorbent with the aid of nanostructured added in the adsorbent. © 2022 Tamkang University.
ISSN:27089967
DOI:10.6180/jase.202206_25(3).0017