In-situ growth of zeolite-A in the fiber surface for methane adsorption

Novia Amalia Sholeha; Tekad Urip Pambudi Sujarnoko; Nyi Raden Alyaa Shofaa Eryaputri; Obie Farobie; Nanang Masruchin; Indri Susanti; Rika Wijiyanti; Nurul Sahida Binti Hassan; Rendy Muhamad Iqbal; Nurul Widiastuti

doi:10.1051/e3sconf/202345402018

In-situ growth of zeolite-A in the fiber surface for methane adsorption

Novia Amalia Sholeha
, Tekad Urip Pambudi Sujarnoko
, Nyi Raden Alyaa Shofaa Eryaputri
, Obie Farobie
, Nanang Masruchin
, Indri Susanti
, Rika Wijiyanti
, Nurul Sahida Binti Hassan
, Rendy Muhamad Iqbal
, Nurul Widiastuti^*

^*Corresponding author for this work

Institut Pertanian Bogor
National Research and Innovation Agency
Faculty of Teacher Training and Education
Sekolah Tinggi Intelijen Negara (State Intelligence College)
Universiti Teknologi Malaysia

Research output: Contribution to journal › Conference article › peer-review

1 Citation (Scopus)

Abstract

Methane as an anthropogenic gas has an effect on the atmosphere and can be used as an alternative natural gas using adsorbent material. This research aims to determine the impact of activation conditions on the surface of fibers for zeolite-A crystal growth utilized for CH4 adsorption. Glass fiber and pineapple fiber have been treated with an alkali used in this research. The concentration of NaOH and fiber immersion time determine the activation conditions. The activation process altered the crystallinity of the surface-deposited zeolite-A. Characterization by XRD and SEM revealed that zeolite-A covered the surface of those fibers when the NaOH concentration was 4M and the immersion time was 24 h. Thermal analysis revealed that the composite of zeolite-A/fibers undergoes two weight loss processes prior to achieving stability. The methane adsorption gravimetric measurements for zeolite-A supported glass fiber (glass wool) and pineapple fiber with high crystallinities are 4.644% wt and 3.461% wt, respectively.

Original language	English
Article number	02018
Journal	E3S Web of Conferences
Volume	454
DOIs	https://doi.org/10.1051/e3sconf/202345402018
Publication status	Published - 29 Nov 2023
Event	3rd International Conference on Applied Sciences 2023 on Strengthening Agro-maritime in the 21st Century with Multidisciplinary Collaboration, ICAS 2023 - Bogor, Indonesia Duration: 2 Sept 2023 → 3 Sept 2023

Access to Document

10.1051/e3sconf/202345402018

Cite this

@article{6b52075231964891b8d6188f20d87288,

title = "In-situ growth of zeolite-A in the fiber surface for methane adsorption",

abstract = "Methane as an anthropogenic gas has an effect on the atmosphere and can be used as an alternative natural gas using adsorbent material. This research aims to determine the impact of activation conditions on the surface of fibers for zeolite-A crystal growth utilized for CH4 adsorption. Glass fiber and pineapple fiber have been treated with an alkali used in this research. The concentration of NaOH and fiber immersion time determine the activation conditions. The activation process altered the crystallinity of the surface-deposited zeolite-A. Characterization by XRD and SEM revealed that zeolite-A covered the surface of those fibers when the NaOH concentration was 4M and the immersion time was 24 h. Thermal analysis revealed that the composite of zeolite-A/fibers undergoes two weight loss processes prior to achieving stability. The methane adsorption gravimetric measurements for zeolite-A supported glass fiber (glass wool) and pineapple fiber with high crystallinities are 4.644\% wt and 3.461\% wt, respectively.",

author = "\{Amalia Sholeha\}, Novia and \{Urip Pambudi Sujarnoko\}, Tekad and \{Alyaa Shofaa Eryaputri\}, \{Nyi Raden\} and Obie Farobie and Nanang Masruchin and Indri Susanti and Rika Wijiyanti and \{Sahida Binti Hassan\}, Nurul and \{Muhamad Iqbal\}, Rendy and Nurul Widiastuti",

note = "Publisher Copyright: {\textcopyright} The Authors, published by EDP Sciences, 2023.; 3rd International Conference on Applied Sciences 2023 on Strengthening Agro-maritime in the 21st Century with Multidisciplinary Collaboration, ICAS 2023 ; Conference date: 02-09-2023 Through 03-09-2023",

year = "2023",

month = nov,

day = "29",

doi = "10.1051/e3sconf/202345402018",

language = "English",

volume = "454",

journal = "E3S Web of Conferences",

issn = "2555-0403",

publisher = "EDP Sciences",

}

TY - JOUR

T1 - In-situ growth of zeolite-A in the fiber surface for methane adsorption

AU - Amalia Sholeha, Novia

AU - Urip Pambudi Sujarnoko, Tekad

AU - Alyaa Shofaa Eryaputri, Nyi Raden

AU - Farobie, Obie

AU - Masruchin, Nanang

AU - Susanti, Indri

AU - Wijiyanti, Rika

AU - Sahida Binti Hassan, Nurul

AU - Muhamad Iqbal, Rendy

AU - Widiastuti, Nurul

PY - 2023/11/29

Y1 - 2023/11/29

N2 - Methane as an anthropogenic gas has an effect on the atmosphere and can be used as an alternative natural gas using adsorbent material. This research aims to determine the impact of activation conditions on the surface of fibers for zeolite-A crystal growth utilized for CH4 adsorption. Glass fiber and pineapple fiber have been treated with an alkali used in this research. The concentration of NaOH and fiber immersion time determine the activation conditions. The activation process altered the crystallinity of the surface-deposited zeolite-A. Characterization by XRD and SEM revealed that zeolite-A covered the surface of those fibers when the NaOH concentration was 4M and the immersion time was 24 h. Thermal analysis revealed that the composite of zeolite-A/fibers undergoes two weight loss processes prior to achieving stability. The methane adsorption gravimetric measurements for zeolite-A supported glass fiber (glass wool) and pineapple fiber with high crystallinities are 4.644% wt and 3.461% wt, respectively.

AB - Methane as an anthropogenic gas has an effect on the atmosphere and can be used as an alternative natural gas using adsorbent material. This research aims to determine the impact of activation conditions on the surface of fibers for zeolite-A crystal growth utilized for CH4 adsorption. Glass fiber and pineapple fiber have been treated with an alkali used in this research. The concentration of NaOH and fiber immersion time determine the activation conditions. The activation process altered the crystallinity of the surface-deposited zeolite-A. Characterization by XRD and SEM revealed that zeolite-A covered the surface of those fibers when the NaOH concentration was 4M and the immersion time was 24 h. Thermal analysis revealed that the composite of zeolite-A/fibers undergoes two weight loss processes prior to achieving stability. The methane adsorption gravimetric measurements for zeolite-A supported glass fiber (glass wool) and pineapple fiber with high crystallinities are 4.644% wt and 3.461% wt, respectively.

UR - https://www.scopus.com/pages/publications/85180393345

U2 - 10.1051/e3sconf/202345402018

DO - 10.1051/e3sconf/202345402018

M3 - Conference article

AN - SCOPUS:85180393345

SN - 2555-0403

VL - 454

JO - E3S Web of Conferences

JF - E3S Web of Conferences

M1 - 02018

T2 - 3rd International Conference on Applied Sciences 2023 on Strengthening Agro-maritime in the 21st Century with Multidisciplinary Collaboration, ICAS 2023

Y2 - 2 September 2023 through 3 September 2023

ER -

In-situ growth of zeolite-A in the fiber surface for methane adsorption

Abstract

Access to Document

Other files and links

Fingerprint

Cite this