relation: https://eprints.untirta.ac.id/46072/
title: SINTESIS MICROSPHERE KATALIS FLUID CATALYTIC  CRACKING (FCC) DENGAN METODE SPRAY DRYING
creator: Mutolib, Permana Harry Triyudhanto
creator: Widyatmoko, Rahadi
subject: TP Chemical technology
description: Fluidized Catalytic Cracking (FCC) is one of the main processes in  petroleum processing to convert heavy fractions into high value products. This FCC  catalyst microsphere was designed using local materials such as modified zeoliteY, binder, filler and matrix. The process of forming FCC catalyst microspheres  using spray drying. Spray drying involves the atomization of the slurry mixture into  small droplets in a drying chamber where hot air flows and forms microsphere  particles with uniform size and distribution. As time progresses, Indonesia's need  for FCC from 2022-2030 continues to increase to 3.35% in the global market.  Based on this, this research aims to determine variations in nebulizer speed and  additive variations on the physical and chemical properties of the FCC catalyst.  The method used is to make a precursor and zeolite solution, then mix and stir for  3 hours and continue with the spray drying process until a product is obtained that  will be tested, such as attrition, XRD, XRF, PSD, LOI tests. The results obtained in  the lowest attrition test, namely 4-K-105, were 3.4%. In the XRF test, the best Si/Al  results were obtained for 6-N-105, namely 0.65. The lowest LOI test results on 4-  K-105 were 6.4%. In the XRD and UCS tests, the results showed that in 4-K-105 :  6-N-105 : 7-K-95 : 8-K-95 : 9-K-95 zeolite was formed on the catalyst. From the  results obtained it can be concluded that 4-K-105 is a good catalyst.
date: 2024-02-05
type: Thesis
type: NonPeerReviewed
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identifier: https://eprints.untirta.ac.id/46072/1/Permana%20Harry%20T.M%20%26%20Rahadi%20Widyatmoko_3335200060%20%26%203335200037_Fulltext%20Laporan%20Penelitian.pdf
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identifier: https://eprints.untirta.ac.id/46072/2/Permana%20Harry%20T.M%20%26%20Rahadi%20Widyatmoko_3335200060%20%26%203335200037_03.pdf
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identifier: https://eprints.untirta.ac.id/46072/3/Permana%20Harry%20T.M%20%26%20Rahadi%20Widyatmoko_3335200060%20%26%203335200037_02.pdf
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identifier: https://eprints.untirta.ac.id/46072/5/Permana%20Harry%20T.M%20%26%20Rahadi%20Widyatmoko_3335200060%20%26%203335200037_%2004.pdf
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identifier: https://eprints.untirta.ac.id/46072/6/Permana%20Harry%20T.M%20%26%20Rahadi%20Widyatmoko_3335200060%20%26%203335200037_%20Lamp.pdf
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identifier: https://eprints.untirta.ac.id/46072/7/Permana%20Harry%20T.M%20%26%20Rahadi%20Widyatmoko_3335200060%20%26%203335200037_%20Ref.pdf
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identifier: https://eprints.untirta.ac.id/46072/8/Permana%20Harry%20T.M%20%26%20Rahadi%20Widyatmoko_3335200060%20%26%203335200037_05.pdf
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identifier: https://eprints.untirta.ac.id/46072/9/Laporan%20Penelitian_Permana%20Harry%20dan%20Rahadi%20Widyatmoko_CP.pdf
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identifier: https://eprints.untirta.ac.id/46072/10/Permana%20Harry%20T.M%20%26%20Rahadi%20Widyatmoko_3335200060%20%26%203335200037_01.pdf
identifier:   Mutolib, Permana Harry Triyudhanto and Widyatmoko, Rahadi  (2024) SINTESIS MICROSPHERE KATALIS FLUID CATALYTIC CRACKING (FCC) DENGAN METODE SPRAY DRYING.  S1 thesis, Fakultas Teknik Universitas Sultan Ageng Tirtayasa.