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Tiurlan Farida Hutajulu
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The Use of Bioactive Neem For Preparation Anti Insects Eddy Sapto Hartanto; Tiurlan Farida Hutajulu
Warta Industri Hasil Pertanian Vol 29, No 01 (2012)
Publisher : Balai Besar Industri Agro

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (5420.533 KB) | DOI: 10.32765/warta ihp.v29i01.2479

Abstract

Nowadays, the use of natural plant source insecticides in one of the best chosen due to its characteristic, which of safer and easily degradable by nature (biodegradable) compared to synthetic materials. One of plant sources wiich consists of active components for insecticides is neem plant. This study aimed to determine the effect of extraction of active ingredients of neem seeds and leaves by fermentation using Effective Microorganisms (EM4). The Extraction of seed and leaf neem to produce neem's active compound was conducted by using Effective Microorganisms. The efficacy test of the neem seed and leaf was conducted by using fermented extract concentrated of 3% and 6% and observed with interval of 2 to 6 days. The formula used in this experiment which A as raw material and B as concentration of Effective Microorganisms are A1 as neem;s seed, A2 as neem's leaves; and B as concentration of effective microorganisms which is B1 as 3 %, concentration and B2 as 6 % concentration. The extraction product were evaporated with rotary vacuum evaporator. The extracts obtained were tested their solubility. Azadirachtin were obtained on combination od A1B2 for neem,s seeds for 6 days fermentation period which acquired 1313,23 ppm (61,25 %) of azadirachtin and combination of A2B2 for neem;s leaves which acquired 665,69 ppm (69,17%) of azadirachtin from raw materials. The active compounds were tested their ability as insecticide and showed that 50 ppm of azadirachtin concentration still effective for 14 days evaluation.
Peningkatan Proses Ekstraksi Minyak Biji Mimba (Neem Seed Oil) dan Purifikasinya Tiurlan Farida Hutajulu; Nobel Christian Siregar
Warta Industri Hasil Pertanian Vol 32, No 02 (2015)
Publisher : Balai Besar Industri Agro

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (607.919 KB) | DOI: 10.32765/warta ihp.v32i02.2638

Abstract

Minyak mimba (neem seed oil) dapat dimanfaatkan dalam bidang kosmetika antara lain: sabun  antiseptik, shampoo, krim lulur, dan lotion anti-serangga. Minyak mimba dapat diperoleh dengandi press ataupun diekstrak menghunakan heksan. Rendemen minyak  mimba dengan cara pengepresan relatif lebih sedikit Sehingga dilakukan pengembangan ekstraksi minyak mimba dengan pengukusan biji mimba selama 30 menit untuk membuka sel-sel dari jaringan minyak sebelum dilakukan hydroulic press dan screw press. Kemudian dilakukan penjernihan minyak dengan bleaching earth dan arang aktifsehingga diperoleh minyak yang lebih jernih. Pada penelitian ini dilakukan 2 (dua) tahap yaitu penelitian pendahuluan dan penelitian lanjutan. Penelitian pendahuluan dibagi 2 (dua) tahap yaitu tahap ke-1, persiapan bahan baku dengan cara pemisahan kulit biji mimba dan penggilingan sehingga bubuk. Tahap ke-2, proses pengukusan bubuk biji mimba selama 30 menit dan dikeringkan dioven 50oC selama 30 menit kemudian di ekstrak dengan cara hydroulic press dan screw press. Pada penelitian lanjutan, purifikasi minyak dengan arang aktif dan silikat (bleaching earth) untuk memperoleh minyak mimba yang lebih jernih. Hasil penelitian diperoleh rendemen minyak tertinggi dengan cara kukus sekitar 22 % serta hasil purifikasi/penjernihan minyak diperoleh warna minyak lebih jernih. Minyak mimba diesterifikasi dan dianalisis menggunakan Gas chromatography (GC) Hasil analisis minyak dengan gas kromatografi diperoleh dua komponen tertinggi yaitu senyawa eugenol dan asam palmitat
Preparation Process Of Curcuminoid Powder from Turmeric Rhizome (Curcuma longa domestica, Vahl) and Its Characteristic as Food Ingredients Agus Sudibyo; Tiurlan Farida Hutajulu; Maman Sukiman
Jurnal Riset Teknologi Industri Vol. 12 No.1 Juni 2018
Publisher : Balai Riset dan Standardisasi Industri Samarinda

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (371.262 KB) | DOI: 10.26578/jrti.v12i1.2676

Abstract

Study on the preparation proces of curcuminoid from turmeric root (Curcuma longa domestica Vahl) and its characteristics as food ingredient was conducted. The results revealed that the type of solvent, the solid-liquid ratio and extraction temperature were affected to the yield of curcuminoid content. The yield of curcuminoid content ranged from 11.96% to 14.01% (for ethanolic 60% solvent extraction), ranged from 12.91% to 15.20% (ethanolic 80% solvent extraction), and ranged from 3.85% to 7.19% (ethanolic : water 1 : 1  extraction). Results showed that the highest value of total phenolic content was recorded in ethanolic extract (S/L ratio 1 : 50 and extraction temperature 60oC) with value 146.25 mg GAE/100 g; while the lowest for a mixture of ethanol and water 1 : 1 extract (S/L ratio 1 : 30) and extraction temperature 30oC with value 101.43 mg GAE/100 g.  Results also showed that the highest  value antioxidant activities was recorded in ethanolic 80% extract and 15.00 g ground dry turmeric used with value 47.65% ; while the lowest  value from a mixture of ethanolic and water 1 : 1  extract and 1.50 g ground dry turmeric used with value 20.04%.                                                                     ABSTRAK Studi pada proses pembuatan bubuk curcuminoid dari akar kunyit (Curcuma longa domestica Vahl dan karakteristiknya sebagai bahan pangan telah dilakukan. Hasil percobaan menunjukkan bahwa jenis pelarut, perbandingan antara padatan - larutan dan suhu ekstrasi yang digunakan berpengaruh terhadap rendemen kandungan curcuminoid. Kandungan curcumnoid berkisar antara 11,96% hingga 14,01% (untuk ekstrasi dengan pelarut ethanol 60%), berkisar antara 12,91% hingga 15,20% (ekstrasi dengan pelarut ethanol 80%), dan berkisar antara 3,85 hingga 7,19% (ekstrasi dengan pelarut ethanol 50 %). Hasil penelitian menunjukkan bahwa nilai ter tinggi dan terbaik kandungan total senyawa fenol tercatat pada ekstrasi dengan ethanol (perbandingan S/L 1 : 50 dan suhu ekstrasi 60o C)  dengan nilai 148,99 mg GAE/100 g sedang nilai terendah tercatat untuk ekstrasi menggunakan pelarut 50% (perbandingan S/L 1 : 30) dan suhu ekstrasi 30 o C dengan nilai 101,43 mg GAE/100 g. Hasil penelitian juga menunjukkan bahwa nilai  tertinggi aktifitas antioksidan tercatat pada ekstraksi menggunakan ethanol 80% dan menggunakan bahan kunyit kerin g sebanyak 15,0 g dengan nilai 47,65% ; sedang nilai terendah sebagai aktifitas antioksidan pada ekstrasi menggunakan ethanol 50% dan menggunakan bahan kunyit kering sebanyak 1,50 g dengan nilai 20,04% . Kata kunci : Rimpang kunyit (Curcuma longa domestica Vahl), kurkuminoid, proses ekstrasi, sifat karakteristik, ingredien pangan . 
Co-Authors Aan Yulistia Agus Sudibyo Dadang Supriatna Dhiah Nuraini Djumarman - Eddy Hartanto Eddy Sapto Hartanto Enny Hawani Lubis Hitler Guring Pohan Kurnia Hanafiah Maman Sukiman Mirna Isyanti Nobel Christian Siregar Rahma Sari Salya Sait Subagja - Tita Aviana