Sintesis Nano Pertikel Silika (SiO2) dari Lumpur Lapindo Sidoarjo Melalui Metode Spray Flame Pyrolysis untuk Beton Tipe Self-Compacting Concretes (SCC)

Herdianto, Hengky; Farich, Mochamad Alfi Zahwanul

doi:10.31219/osf.io/wr7p3

2019

DOI: 10.31219/osf.io/wr7p3

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Sintesis Nano Pertikel Silika (SiO2) dari Lumpur Lapindo Sidoarjo Melalui Metode Spray Flame Pyrolysis untuk Beton Tipe Self-Compacting Concretes (SCC)

Hengky Herdianto¹,

Mochamad Alfi Zahwanul Farich²

Abstract: Lumpur lapindo memiliki kandungan mineral yang baik untuk pembuatan semen dengan kandungan silika yang tinggi. Komponen silika hasil sintesis dari ML adalah 80 wt% pada 100oC dan 100 menit dalam 15 wt% larutan natrium hidroksida. Larutan asam silika dibuat dari larutan natrium silika dengan metode pertukaran ion. Kecepatan larutan natrium silika dalam kolom pertukaran ion meningkat 0,5-3,0 cm/s ketika konsentrasi ion natrium meningkat 15-95 ppm. Partikel silika dibuat dari larutan asam silika menggunakan spray… Show more

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Activity of Ni-NH<sub>2</sub>/Mesoporous Silica Material as Bifunctional Catalyst for Hydrocracking of Used Cooking Oil

Trisunaryanti

Triyono

Hadjarningrum

et al. 2021

KEM

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Synthesis of Ni-NH2/mesoporous silica bifunctional catalyst for conversion of used cooking oil into biofuel was carried out. The impregnation of Ni into the MS8 with a specific surface area of 666.6 m2/g, volume pore of 0.46 cm3/g, and diameter pore of 4.9 nm was done by wet impregnation method. The functionalization of NH2 into the MS8 and Ni/MS8 was done by the grafting method. The catalytic activity test in used cooking oil hydrocracking was done by thermal (without catalyst), catalyst physical mixture of Ni/MS8 and NH2/MS8, and Ni-NH2/MS8 bifunctional catalyst. The results showed that the Ni/MS8 catalyst with acidity values of 12.804 mmol/g was successfully modified with amine groups to produce Ni-NH2/MS8 bifunctional catalyst. This catalyst was utilized in the hydrocracking process of used cooking oil to produce the highest liquid product of 92.85 wt.% with the selectivity of gasoline and diesel fractions of 4.04 and 63.35 wt.% respectively.

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Activity of Ni-NH<sub>2</sub>/Mesoporous Silica Material as Bifunctional Catalyst for Hydrocracking of Used Cooking Oil

Trisunaryanti

Triyono

Hadjarningrum

et al. 2021

KEM

View full text Add to dashboard Cite

show abstract

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Sintesis Nano Pertikel Silika (SiO2) dari Lumpur Lapindo Sidoarjo Melalui Metode Spray Flame Pyrolysis untuk Beton Tipe Self-Compacting Concretes (SCC)

Cited by 1 publication

References 6 publications

Activity of Ni-NH<sub>2</sub>/Mesoporous Silica Material as Bifunctional Catalyst for Hydrocracking of Used Cooking Oil

Activity of Ni-NH<sub>2</sub>/Mesoporous Silica Material as Bifunctional Catalyst for Hydrocracking of Used Cooking Oil

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