Penggunaan Biosorben Biji Pepaya Untuk Merekondisi Kualitas Minyak Jelantah

Muhammad Iqbal Nusa; Yunan Bakri Sipahutar

doi:10.30596/agrintech.v1i2.2009

Penggunaan Biosorben Biji Pepaya Untuk Merekondisi Kualitas Minyak Jelantah

Muhammad Iqbal Nusa, Yunan Bakri Sipahutar

Abstract

This research objective has to show the effectivity of the using biosorbent Papaya seed to recondition of fried oil quality. The adsorption mechanizme and the factors effected to performance of biosorbent must studied Comprehensively. Totality of extent particle surface and the long time of biosorbent with adsorbed interface determined performance adsorption. The research was compiled to producing and activating Papaya seed as biosorbent; and then to do the experiment for effectivity biosorbent according with Complete Random Factorial Design, with two factor namely Mass biosorbent to Volume fried oil ratio (A₁=5 %, A₂= 10 %, A₃ = 15 %, dan A₄ = 20 % (b/v) , and the long time of biosorbent fried oil interface (L₁ = 2, L₂ = 4, L₃ = 6, dan L₄ = 8 days). The result of data analysis to show that effect of Mass biosorbent to Volume fried oil ratio factor have significant different among factor level properly (p<0.05), the mean value of Peroxide Number, Free Acid Number, and Water Content of fried oil were tendence to below. But the value of organoleptic colour was increase. Effect of the long time of biosorbent fried oil interface have significant different among factor level properly (p<0.05), the mean value of Peroxide Number, Free Acid Number, and Water Content of fried oil were tendence to increase, and the value of organoleptic colour were also.

Keywords

Biosorbent, Fried oil, Papaya seed, Recondition

Full Text:

PDF

References

Atsushi M; Rangaswamy; Mitsutoshi, N. 2003. Membrane And Additional Adsorption Processes for Quality improvement for Used Frying Oils. JAOCS. 80: 927-932

Badan Standar Nasional (BSN). 2002. SNI01-3741-2013. Minyak Goreng. Badan Standarisasi Nasional. Jakarta.

Belitz, H.D and W. Grosch. 1999. Food Chemistry. Second edition. Springer- Verlag. Berlin. Heidelberg.

Emi Girsang, A.Kiswandono, H. Azis, Z.Chaidir, R.Zein. 2015. Serbuk Biji Salak (Salacca Zalacca) Sebagai Biosorben Dalam Memperbaiki Kualitas Mnyak Goreng Bekas. Prosiding Seminar Nasional Pendidikan Sains.

Fatin, D.M. 2015. Modifikasi Adsorben Berbasis Katu Randu Dengan metode Pemanasan dan penerapan sebagai bahan penyerap Aktivator Asam Sulfat Penggunaan Sebagai Penjerap Ion Tembaga. Makara Sains. Vol 14, No.1

Hameed, B.H. 2009. Evaluation of Papaya Seed as Novel Non Conventional Law Cost Adsorbent for Remove of Methylene Blue. Journal of Hazardous Material.

Istighfaro, Nila. 2010. Peningkatan Kualitas Minyak Goreng Bekas Dengan metode Adsorpsi Menggunakan Bentonit-Karbon Aktif Biji Kelor (Moringa Oleifera Lamk). [Skripsi]. Universitas Islam negeri Malik Ibrahim. Malang

Katayon, S., N.,M.J. Asma, M.Gani, A.M. Suleyman. 2006. Effects of Storage Conditions of Moringa Oleifera Seeds on its Performance in Coagulation. Bioresource Technology. 97: 1455-1460

Kaur, R.,J.Sing, R.Khare, A.Ali. 2012. Biosorption The Possible Alternative to Existing Conventional Technologies for Sequence Heavy Metal Ions from Aquaeous Stream. A Review. Universal Journal of Env. Res. And Technol. 2(4):325-335

Ketaren, S. 1986. Pengantar Teknologi Minyak dan Lemak Pangan. Penerbit Universitas Indonesia.

Kurniadin, A. dan Murdiono. 2011. Penjernihan Minyak Goreng Bekas Dengan Proses Adsorpsi Menggunakan Arang Biji Salak. [Skripsi]. Jurusan Teknik Kimia. Fakultas Teknik. Universitas Diponegoro. Semarang

Munaf, E., Fitra,H.,R. Suyani. 2014. The Use of Snake Fruit (Salacca Sumatrana) Seeds Powder for Removal of Cd (II), Cu (II), and Zn (II) Ions. Envirounmental Water Resourch. Journal of Pham. Bio and Chem. Sci 5(2): 535-539

Pakpahan, J.F; T. Tambunan; A Harimby; M.Y. Ritonga. 2014. Pengurangan Free Fatty Acid (FFA) dan Warna Minyak Jelantah Dengan Adsorben Serabut Kelapa dan Jerami. Program Studi Teknik Kimia Universitas Sumatera Utara.

Pavan, F.A; E.S. Campico; E. L. Guelherme, and V.T.A Branco. 2014. Formation Pepaya Seed Powder. Preparation Characterization and Application as on Alternative Adsorbent for Removal of Crystal Violet From Aqueous Phase. Journal of Envirounmental Chemical Engiineering Vol.2. 230-238

Ramdja, A.F; L Febrina; D. Krisdianto. 2010. Pemurnian Minyak Jelantah Menggunakan Ampas Tebu Sebagai Biosorben. Jurnal Teknik Kimia. Vol.17. No.1.

Rasjiddin, R. 2006. Pembuatan Arang Aktif Dari Tempurung Biji Jambu Mede (Anacardium Occidentale) Sebagai Adsorben Pada Permurnian Minyak Goreng Bekas. [Skripsi]. Departemen Teknologi Industri Pertanian. FTP. IPB. Bogor

Rosita, Alinda. 2009. Peningkatan Kualitas Minyak Goreng Bekas KFC Menggunakan Adsorben Arang Aktif. [Skripsi]. Jurusan Teknik Kimia. Universitas Diponegoro. Semarang.

Setyawan, D; P. Handoko; Tryono; Narsito; Tutik, D. 2009. Peningkatan Kualitas Minyak Jelantah Menggunakan Adsorben H5-NZA Dalam Reaktor Sistem Fluid Fixed Bed. Universitas Jember. Jurnal Ilmu Dasar. Vol. 10. No.2

Siswani, M.Z; L.I. Ranita; D. Safitri. 2015. Pembuatan Biosorben Dari Biji Pepaya (Carica Papaya L) Untuk Penyerapan zat Warna. Program Studi Teknik Kimia Universitas Sumatera Utara. Medan

Swee, Y.F; Susan, C; S. Vicki. 2006. Evaluation of SafTest Methode for Monitoring Frying Oil Quality. JAOCS.83. 15-20

Sykes, P. 1995. A Primer to Mechanism in Organic Chemestry. Edinburgh. Addison Longman Ltd.

Wijayanto, R. 2009. Arang Aktif Dari Ampas Tebu Sebagai Adsorben Pada pemurnian Minyak Goreng Bekas. [Skripsi]. Departemen Kimia. MIPA. IPB. Bogor

Yadav, S.K; D.K. Singh; S. Sinha. 2014. Chemical Carbonization of Papaya Seed Originated Chrocoals for Sorpstionof Pb (II) From Aqueous Solution. Journal of Environmental Chemical Engineering.

DOI: https://doi.org/10.30596/agrintech.v1i2.2009

Refbacks

There are currently no refbacks.