SINTESIS DAN KARAKTERISASI KOMPOSIT ZEOLIT MAGNETIT DAN APLIKASINYA SEBAGAI ADSORBEN Ni(II)

Rosyidah, Anis; Suyanta, Suyanta

doi:10.20527/jstk.v15i1.9609

Cited by 2 publications

(2 citation statements)

References 0 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…Therefore, there was a decrease in the degree of crystallinity in MOCZ compared to the zeolite's degree of crystallinity. FeOCZ's degree of crystallinity also decreases and is lower than that of synthetic zeolite due to the increasing amount of iron oxide formed [24]. The large amorphous size causes the surface area of the adsorbent to be larger, resulting in a better adsorption capacity [25].…”

Section: The Xrd Characterization Resultsmentioning

confidence: 99%

The analysis of characterization of zeolite modified from fly ash using iron oxide and manganese oxide

Saputro,

Mahardiani,

Masykuri

et al. 2023

J. Phys.: Conf. Ser.

View full text Add to dashboard Cite

Fly ash is the residue from burning coal in the form of fine and light particles and can be harmful to the environment and life. Whereas fly ash contains high silica so that it can be used as a precursor for zeolite blinding. Zeolite as an adsorbent for aquatic waste needs to be improved so that it can absorb more adsorbate. Therefore, it is necessary to modify the zeolite from fly ash, such as coating with manganese and iron oxide. The zeolite is made from fly ash extraction and synthesize using hydrothermal method. In this study, it was found that fly ash contains about 45.20% silica and the synthetic zeolite was successfully coated with manganese and iron oxide evidenced by the results of FTIR and XRD. This is indicated by the presence of manganese oxide at an absorption of 453.29 cm−1 using FTIR and manganese oxide on XRD aimed at 2θ = 37.356°; 47.337°; 51,879°; 57.966°; 61.822° and 67.5552°. Meanwhile, the FTIR results of iron oxide were indicated by the presence of an absorption band at 447.50 cm−1 and XRD diffraction peaks at 2θ = 30,643° and 2θ = 60,322°.

show abstract

Section: The Xrd Characterization Resultsmentioning

confidence: 99%

The analysis of characterization of zeolite modified from fly ash using iron oxide and manganese oxide

Saputro,

Mahardiani,

Masykuri

et al. 2023

J. Phys.: Conf. Ser.

View full text Add to dashboard Cite

show abstract

“…Gambar 1. Aplikasi penggunaan zeolit (Król 2020) Untuk memperoleh zeolit banyak metode sintesis yang dapat digunakan yaitu metode kopresipitasi (Rosyidah and Suyanta 2021), metode hidrotermal (Pratama and Muttaqin 2017) (Ismail et al 2014) (Mahaddilla and Putra 2013) (Prajaputra et al 2019), metode hidrogel (Saraswati 2016), dan lain-lain. Metode kopresipitasi merupakan metode yang paling mudah.…”

Section: Pendahuluanunclassified

SINTESIS ZEOLIT DARI BATU APUNG (PUMICE) DAERAH IJOBALIT LOMBOK TIMUR SEBAGAI ADSORBEN LOGAM Fe

Kurniawidi

Alaa

Mulyani

et al. 2021

Orb. J. Pend. Ilm. Fis.

View full text Add to dashboard Cite

ABSTRAKAktivitas letusan besar Gunung Api Samalas di Lombok meninggalkan jejak mineral batuan beku salah satunya batu apung (pumice). Batu apung memiliki komposisi mineral utama berupa silika sebanyak 58,3%. Tujuan dari penelitian untuk identifikasi karakteristik zeolit dari batu apung sebagai adsorben logam Fe. Zeolite disintesis menggunakan metode kopresipitasi. Identifikasi gugus fungsi, kristalinitas, dan struktur kristal zeolite sintesis menggunakan FTIR dan XRD. Sedangkan analisis adsorbsi menggunakan AAS. Zeolit berhasil terbentuk dari sintesis batu apung ditandai dengan kemunculan gugus fungsi TO4 dan gugus fungsi Si-O-Si pada panjang gelombang 983,85 cm-1 dan 660,02 cm-1. Zeolit yang terbentuk dari proses sintesis batu apung yaitu tipe zeolit ZK-14 dengan struktuk kristal kubik. Adapun hasil analisis kemampuan adsorbs dari zeolite ZK-14 ini sangat baik mencapai 99,22% pada komposisi Si/Al pada 25/30. Sehingga sintesis batub apung menjadi zeolite dapat diaplikasikan sebagai penyerap logam Fe. Kata kunci: Adsorben; Batu Apung; Zeolit. ABSTRACTThe massive eruption activity of the Samalas Volcano in Lombok left traces of igneous rock minerals, one of which was pumice. The pumice has a main mineral composition of 58.3% silica. The purpose of this study is to identify the characteristics of zeolite from pumice as an adsorbent of Fe metal. Zeolite has been synthesized using a coprecipitation method. The identification of functional groups, crystallinity, and crystal structure of synthetic zeolite using FTIR and XRD. Meanwhile, AAS was implemented for the adsorption analysis. The zeolite was successfully formed from the synthesis of pumice characterized by the appearance of the TO4 functional group and the Si-O-Si functional group at wavelengths of 983.85 cm-1 and 660.02 cm-1. The zeolite fabricated from the pumice synthesis process is ZK-14 type zeolite with a cubic crystal structure. The examination results from the adsorption ability of zeolite ZK-14 are very good, reaching 99.22% at the Si/Al composition at 25/30. In fact, the synthesis of pumice into zeolite can be applied as an absorber of Fe metal. Keywords: Adsorbent; Pumice Stone; Zeolite.

show abstract

SINTESIS DAN KARAKTERISASI KOMPOSIT ZEOLIT MAGNETIT DAN APLIKASINYA SEBAGAI ADSORBEN Ni(II)

Cited by 2 publications

References 0 publications

The analysis of characterization of zeolite modified from fly ash using iron oxide and manganese oxide

The analysis of characterization of zeolite modified from fly ash using iron oxide and manganese oxide

SINTESIS ZEOLIT DARI BATU APUNG (PUMICE) DAERAH IJOBALIT LOMBOK TIMUR SEBAGAI ADSORBEN LOGAM Fe

Contact Info

Product

Resources

About