PENGARUH PENAMBAHAN EPOKSIDASI ASAM RISINOLEAT MINYAK JARAK (CASTOR OIL) DAN KOSURFAKTAN TERHADAP KINERJA SODIUM LIGNOSULFONAT (SLS) DALAM MENURUNKAN INTERFACIAL TENSION (IFT) PADA PROSES ENHANCED OIL RECOVERY (EOR)

PENGARUH PENAMBAHAN EPOKSIDASI ASAM RISINOLEAT MINYAK JARAK (CASTOR OIL) DAN KOSURFAKTAN TERHADAP KINERJA SODIUM LIGNOSULFONAT (SLS) DALAM MENURUNKAN INTERFACIAL TENSION (IFT) PADA PROSES ENHANCED OIL RECOVERY (EOR)

Sodium Lignosulfonate (SLS) is a potential anionic surfactant that used for substituting petroleum sulfonate in Enhanced Oil Recovery (EOR) process. The abundance and the low cost of raw material and the quality of eco-friendly are the superiority in using SLS as surfactant. One of the limitations o...

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Main Author: TEKE, JUNARTIN
Format: Theses and Dissertations NonPeerReviewed
Published: [Yogyakarta] : Universitas Gadjah Mada 2015
Subjects:
Chemical Science
Organic Chemistry
Other Chemical Sciences
Online Access:https://repository.ugm.ac.id/134685/
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spelling id-ugm-repo.1346852016-04-07T04:02:10Z https://repository.ugm.ac.id/134685/ PENGARUH PENAMBAHAN EPOKSIDASI ASAM RISINOLEAT MINYAK JARAK (CASTOR OIL) DAN KOSURFAKTAN TERHADAP KINERJA SODIUM LIGNOSULFONAT (SLS) DALAM MENURUNKAN INTERFACIAL TENSION (IFT) PADA PROSES ENHANCED OIL RECOVERY (EOR) TEKE, JUNARTIN Chemical Science Organic Chemistry Other Chemical Sciences Sodium Lignosulfonate (SLS) is a potential anionic surfactant that used for substituting petroleum sulfonate in Enhanced Oil Recovery (EOR) process. The abundance and the low cost of raw material and the quality of eco-friendly are the superiority in using SLS as surfactant. One of the limitations of SLS as EOR surfactant is the ability in decreasing interfacial tension (IFT) still low. Therefore, it is necessary improved by modification of SLS. In this study, there were 2 steps used to improve the ability of SLS (1) it reacted with epoxide compounds and (2) addition of co-surfactant (isoamyl and isopropyl alcohol). Epoxide compound was made from castor oil which had been saponified. Epoxidation reaction was done in 2 steps by in-situ, first step was formation of peroxi acid from acetate acid and hydrogen peroxide and second step was reaction between paracetate acid with soap from risinoleic acid. The reaction was carried out in batch reactor equipped with a stirrer and the temperature variation were 60oC, 70oC, and 80oC in ratio of concentration (CH3COOH/H2O2) were 1 : 0,2, 1 : 0,6, 1 : 1,4 and 1 : 5,1 for 0,5-2 hours. The result of this study showed that modified SLS surfactant which had lowest value of IFT was produced at the ratio of concentration (CH3COOH/H2O2) 1 : 1,4 with the temperature was 70oC in 1 hour, where the IFT value was 4,99.10-3 mN/m, iodine value was 9,3906 mg I/g AR, and conversion of risinoleic acid was 79,67%. Kinetic study in epoxide reaction was assumed bases on second order reaction model and according to Arrhenius equation, activation energy for k1 and k3 were 0,206 dan 0,220 (J/mol) with frequency of collisions were 750,69 dan 796,876 (L/mol.minute), respectively. Interfacial tension value was obtained from SLS modification with epoxide compounds was still less than optimal in EOR processing, so that it was needed second step with addition of co-surfactant, isoamyl and isopropyl alcohol. Addition with isoamyl alcohol showed the better result than isopropyl alchohol was 4,75.10-4 mN/m. [Yogyakarta] : Universitas Gadjah Mada 2015 Thesis NonPeerReviewed TEKE, JUNARTIN (2015) PENGARUH PENAMBAHAN EPOKSIDASI ASAM RISINOLEAT MINYAK JARAK (CASTOR OIL) DAN KOSURFAKTAN TERHADAP KINERJA SODIUM LIGNOSULFONAT (SLS) DALAM MENURUNKAN INTERFACIAL TENSION (IFT) PADA PROSES ENHANCED OIL RECOVERY (EOR). Masters thesis, UGM. http://etd.ugm.ac.id/index.php?mod=penelitian_detail&sub=PenelitianDetail&act=view&typ=html&buku_id=77720
institution Universitas Gadjah Mada
building UGM Library
country Indonesia
collection Repository Civitas UGM
topic Chemical Science
Organic Chemistry
Other Chemical Sciences
spellingShingle Chemical Science
Organic Chemistry
Other Chemical Sciences
TEKE, JUNARTIN
PENGARUH PENAMBAHAN EPOKSIDASI ASAM RISINOLEAT MINYAK JARAK (CASTOR OIL) DAN KOSURFAKTAN TERHADAP KINERJA SODIUM LIGNOSULFONAT (SLS) DALAM MENURUNKAN INTERFACIAL TENSION (IFT) PADA PROSES ENHANCED OIL RECOVERY (EOR)
description Sodium Lignosulfonate (SLS) is a potential anionic surfactant that used for substituting petroleum sulfonate in Enhanced Oil Recovery (EOR) process. The abundance and the low cost of raw material and the quality of eco-friendly are the superiority in using SLS as surfactant. One of the limitations of SLS as EOR surfactant is the ability in decreasing interfacial tension (IFT) still low. Therefore, it is necessary improved by modification of SLS. In this study, there were 2 steps used to improve the ability of SLS (1) it reacted with epoxide compounds and (2) addition of co-surfactant (isoamyl and isopropyl alcohol). Epoxide compound was made from castor oil which had been saponified. Epoxidation reaction was done in 2 steps by in-situ, first step was formation of peroxi acid from acetate acid and hydrogen peroxide and second step was reaction between paracetate acid with soap from risinoleic acid. The reaction was carried out in batch reactor equipped with a stirrer and the temperature variation were 60oC, 70oC, and 80oC in ratio of concentration (CH3COOH/H2O2) were 1 : 0,2, 1 : 0,6, 1 : 1,4 and 1 : 5,1 for 0,5-2 hours. The result of this study showed that modified SLS surfactant which had lowest value of IFT was produced at the ratio of concentration (CH3COOH/H2O2) 1 : 1,4 with the temperature was 70oC in 1 hour, where the IFT value was 4,99.10-3 mN/m, iodine value was 9,3906 mg I/g AR, and conversion of risinoleic acid was 79,67%. Kinetic study in epoxide reaction was assumed bases on second order reaction model and according to Arrhenius equation, activation energy for k1 and k3 were 0,206 dan 0,220 (J/mol) with frequency of collisions were 750,69 dan 796,876 (L/mol.minute), respectively. Interfacial tension value was obtained from SLS modification with epoxide compounds was still less than optimal in EOR processing, so that it was needed second step with addition of co-surfactant, isoamyl and isopropyl alcohol. Addition with isoamyl alcohol showed the better result than isopropyl alchohol was 4,75.10-4 mN/m.
format Theses and Dissertations
NonPeerReviewed
author TEKE, JUNARTIN
author_facet TEKE, JUNARTIN
author_sort TEKE, JUNARTIN
title PENGARUH PENAMBAHAN EPOKSIDASI ASAM RISINOLEAT MINYAK JARAK (CASTOR OIL) DAN KOSURFAKTAN TERHADAP KINERJA SODIUM LIGNOSULFONAT (SLS) DALAM MENURUNKAN INTERFACIAL TENSION (IFT) PADA PROSES ENHANCED OIL RECOVERY (EOR)
title_short PENGARUH PENAMBAHAN EPOKSIDASI ASAM RISINOLEAT MINYAK JARAK (CASTOR OIL) DAN KOSURFAKTAN TERHADAP KINERJA SODIUM LIGNOSULFONAT (SLS) DALAM MENURUNKAN INTERFACIAL TENSION (IFT) PADA PROSES ENHANCED OIL RECOVERY (EOR)
title_full PENGARUH PENAMBAHAN EPOKSIDASI ASAM RISINOLEAT MINYAK JARAK (CASTOR OIL) DAN KOSURFAKTAN TERHADAP KINERJA SODIUM LIGNOSULFONAT (SLS) DALAM MENURUNKAN INTERFACIAL TENSION (IFT) PADA PROSES ENHANCED OIL RECOVERY (EOR)
title_fullStr PENGARUH PENAMBAHAN EPOKSIDASI ASAM RISINOLEAT MINYAK JARAK (CASTOR OIL) DAN KOSURFAKTAN TERHADAP KINERJA SODIUM LIGNOSULFONAT (SLS) DALAM MENURUNKAN INTERFACIAL TENSION (IFT) PADA PROSES ENHANCED OIL RECOVERY (EOR)
title_full_unstemmed PENGARUH PENAMBAHAN EPOKSIDASI ASAM RISINOLEAT MINYAK JARAK (CASTOR OIL) DAN KOSURFAKTAN TERHADAP KINERJA SODIUM LIGNOSULFONAT (SLS) DALAM MENURUNKAN INTERFACIAL TENSION (IFT) PADA PROSES ENHANCED OIL RECOVERY (EOR)
title_sort pengaruh penambahan epoksidasi asam risinoleat minyak jarak (castor oil) dan kosurfaktan terhadap kinerja sodium lignosulfonat (sls) dalam menurunkan interfacial tension (ift) pada proses enhanced oil recovery (eor)
publisher [Yogyakarta] : Universitas Gadjah Mada
publishDate 2015
url https://repository.ugm.ac.id/134685/
http://etd.ugm.ac.id/index.php?mod=penelitian_detail&sub=PenelitianDetail&act=view&typ=html&buku_id=77720
_version_ 1681233908153188352

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