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"Azo dye is one of the synthetic organic dye groups most widely used in the textile industry. The release of this component into the environment can be harmful to the living organisms and the ecosystems. Therefore, it is necessary to treat wastewater containing dye before it is discharged into the water bodies. The decolorization using mono- or mixed culture has been developed for decades because of its environmental friendly and evidence of completely mineralization. Sixteen species of pure culture bacteria derived from aerobic-anoxic membrane bioreactor were used for biodegradation of azo dye Remazol Black 5 using tempe industrial wastewater as co-substrate. The optimum co-substrate concentration for biomass growth under shaking condition was 40% v/v or 2,560-2,720 mg COD/L, while dye decolorization under this condition was not significant. The azo dye biodegradation in anaerobic condition was best shown by the Isolate A1A, Exiguobacterium sp. A2, and Bacillus sp. A4 with removal efficiency of 43.82%, 29.94% and 35.91% respectively. The highest color degrading bacteria were also the highest organics removing bacteria. It was confirmed that dye docolorization process required a carbon source addition."

"Remazol Brilliant Red merupakan salah satu zat pewarna yang banyak terdapat pada limbah cair industri tekstil dan berbahaya bagi lingkungan. Pengolahan limbah secara fisika dan biologi dinilai kurang efektif dalam mendegradasi limbah tersebut. Elektrolisis plasma merupakan metode yang telah terbukti efektif dalam mengolah limbah pewarna yang sulit terurai.Injeksi udara dapat memberikan efisiensi dan efektivitas proses yang lebih baik dalam metode elektrolisis plasma. Injeksi udara yang dilakukan langsung pada reaktor dapat menurunkan konsumsi energi dan meningkatkan pembentukan radikal hidroksil. Penelitian ini dilakukan dalam reaktor batch aliran sirkulasi dengan elektrolit NaCl 0,03 M.Tujuan dari penelitian ini adalah untuk mengetahui pengaruh laju alir injeksi udara optimum pada daya tertentu terhadap besar degradasi, produksi radikal hidroksil, besar energi, serta nilai COD, pH, dan senyawa intermediet yang terbentuk selama proses berlangsung. Variasi yang digunakan berupa daya listrik operasi sebesar 300-600 watt, serta laju alir penambahan gelembung udara sebesar 0 L/min; 0,5 L/min; 1 L/min; 2 L/min dan 3 L/min, Laju alir sirkulasi limbah sebesar 1 L/min, serta kedalaman katoda sebesar 2 cm.Hasil penelitian menunjukkan bahwa peningkatan laju alir injeksi udara dapat meningkatkan produksi radikal hidroksil dan persentase degradasi limbah pewarna tekstil Remazol Brilliant Red.

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Remazol Brilliant Red is a coloring agent that is widely found in textile wastewater and is harmful to the environment. Physical and biological waste treatment is considered to be less effective in degrading the waste. Plasma electrolysis is a method that has proven effective in treating dye wastes that are difficult to decompose.

Air injection can provide better process efficiency and effectiveness in plasma electrolysis methods. Air injection carried out directly at the reactor can reduce energy consumption and increase hydroxyl radical formation. This research was conducted in a circulation flow batch reactor with 0.03 M NaCl electrolyte.

The purpose of this study was to determine the effect of optimum air injection flow rate on certain power to the extent of degradation, hydroxyl radical production, energy size, and COD, pH, and intermediate compounds formed during the process. Variations used in the form of electrical operating power of 300 - 600 watts, and the flow rate of the addition of air bubbles by 0 L/min; 0.5 L/min; 1 L/min; 2 L/min and 3 L/min, the circulation flow rate of waste is 1 L/min, and the cathode depth is 2 cm.

The results showed that an increase in air injection flow rate could increase hydroxyl radical production and the percentage of degradation of Remazol Brilliant Red textile dye waste."

"Limbah pewarna Remazol Brilliant Blue merupakan salah satu limbah cair yang dihasilkan dari industri tekstil dan berbahaya bagi lingkungan. Metode Contact Glow Discharge Electrolysis CGDE merupakan metode yang efektif untuk mendegradasi limbah pewarna dengan memproduksi radikal bull-OH yang akan digunakan dalam proses degradasi limbah cair. Penelitian ini bertujuan untuk mengetahui pengaruh kedalaman anoda, suhu, dan laju alir injeksi udara terhadap produksi radikal hidroksil dan degradasi pewarna Remazol Brilliant Blue. Penelitian ini dilakukan dalam reaktor batch dengan elektrolit NaCl 0,03 M. Variasi yang dilakukan berupa kedalaman anoda yaitu 0,5 cm; 2 cm; 4 cm, suhu sebesar 40oC; 50oC; 60oC, serta laju alir injeksi udara sebesar 0 lpm dan 2,5 lpm. Penelitian dilakukan dengan uji karakteristik arus tegangan, uji produksi radikal hidroksil, dan uji degradasi pewarna. Degradasi Remazol Brilliant Blue mencapai 96,15 dalam waktu 30 menit dimana tegangan 750 V, konsentrasi larutan NaCl 0,03 M, penambahan ion Fe2 40 ppm, kedalaman anoda 2 cm, suhu 50oC, dan laju alir injeksi udara 2,5 lpm. Dengan kondisi yang sama, metode ini dapat menurunkan nilai COD sebesar 93,06.

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Remazol Brilliant Blue dye waste is one of the liquid waste produced from the textile industry and harmful to the environment. Contact Glow Discharge Electrolysis CGDE method is an effective method to degrade dye waste by producing OH radicals which will be used in liquid waste degradation process. This study aims to determine the effect of anode depth, temperature, and flow rate of air injection on the production of hydroxyl radicals and dye degradation of Remazol Brilliant Blue. This research was conducted in batch reactor with electrolyte NaCl 0,03 M. Variation which done is anode depth which is 0,5 cm 2 cm 4 cm, temperature of 40oC 50oC 60oC, and air injection flow rate of 0 lpm and 2.5 lpm. The research was conducted by voltage ndash current characteristic test, hydroxyl radical production test, and dye degradation test. Remazol Brilliant Blue degradation reached 96.15 within 30 minutes where the tension was 750 V, 0.03 M NaCl solution concentration, Fe2 40 ppm, 2 cm anode depth, 50oC temperature, and 2.5 lpm air injection flow rate. Under the same conditions, this method can reduce the COD value by 93.06."

"Limbah pewarna merupakan limbah cair yang banyak dihasilkan dari Industri Tekstil dan sangat berbahaya bagi lingkungan. Metode Elektrolisis Plasma merupakan metode yang efektif dalam mendegradasi limbah pewarna karena kemampuannya dalam memproduksi OH radikal dalam jumlah besar. Penelitian ini bertujuan menguji kemampuan metode elektrolisis plasma dalam mendegradasi limbah salah satu pewarna tekstil, yaitu Remazol Brilliant Blue dengan penambahan ion Fe2 dan gelembung mikro. Degradasi limbah pewarna mencapai 99,74 selama 180 menit dengan penambahan ion Fe2 sebesar 40 mg/L akibat adanya reaksi fenton. Penambahan gelembung mikro akan meningkatkan produksi OH radikal hingga sebesar 4,8 dan mampu menurunkan konsumsi energi sebesar 11,3 Nilai COD turun menjadi 20,56 mg/L dan telah memenuhi baku mutu Pemerintah sebesar 50 mg/L. Selain itu, konsentrasi limbah berkurang dari 150 mg/L menjadi 0,388 mg/L. Dimana kondisi maksimum didapatkan dengan menggunakan Na2SO4 0,02 M, tegangan operasi 700 Volt, dan kedalaman anoda 1 cm.

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Dye waste is a liquid waste that mostly generated from the textile industry and is very dangerous for the environment. Plasma electrolysis method is an effective method in degrading dye waste because of its ability to produce radical OH in large quantities. This study aims to test the ability of plasma electrolysis method to degrade one of the textile dyes, Remazol Brilliant Blue, with the addition of Fe2 ion and microbubble. The dye waste degredation reached 99.74 for 180 minutes with the addition of 40 mg L of Fe2 ion as a result of fenton reaction. The addition of microbubble will also increase OH radical production by up to 4.8 and be able to reduce energy consumption by 11.3. The COD value decreased until 20.56 mg L and has fulfilled the Government standard of 50 mg L. In addition, the dye waste concentration decreased significantly from 150 mg L to 0.388 mg L. Maximum conditions are obtained by using 0.02 M Na2SO4, 700 Volt operating voltage, and 1 cm anode depth."

"Elektrolisis plasma adalah proses elektrokimia di mana plasma dihasilkan oleh arus DC antara elektroda dan permukaan elektrolit di sekitarnya. Elektrolisis plasma menghasilkan radikal hidroksil, oksidator terkuat, yang jumlah jauh lebih banyak dibandingkan dengan metode oksidasi lanjut lainnya yang digunakan untuk mendegradasi banyak senyawa organik seperti pewarna,fenol, dan LAS. Penelitian ini bertujuan untuk mengevaluasi degradasi limbah pewarna batik Remazol Brilliant Blue menggunakan metode elektrolisis plasma dengan penambahan gelembung mikro dan ion Fe. Penambahan gelembung mikro dapat meningkatkan produksi radikal hidroksil dan menurunkan konsumsi energi. Kondisi yang digunakan yaitu konsentrasi pewarna 150 mg/L, Na2SO4 0,02 M, penambahan gelembung mikro and Fe 40 mg/L, tegangan 700 volt, dan kedalaman anoda 1,5 cm. Degradasi pewarna diketahui dengan mengukur absorbansi menggunakan spektrofotometer UV-Vis. Hasil yang diperoleh menunjukkan bahwa persentase degradasi limbah mencapai 99,63 dalam waktu 30 menit dengan konsentrasi akhir pewarna 0,56 mg/L, nilai COD menurun dari 121,36 mg/L menjadi 45,86 mg/L dan energi spesifik 1035,61 kJ/mmol. Nilai TOC pada menit ke 180 adalah 6,3 mg/L.

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Plasma electrolysis is a process of electrolysis with DC current to form electric sparks due to the electrons that undergo plasma excitation in the electrolyzed solution. Plasma electrolysis produce hydroxyl radicals, a powerful oxidant, greater than other advanced oxidation method which are used to degrade much weight organic compounds such as dye, phenols, and LAS. This research aims to evaluate the degradation of batik dye waste Remazol Brilliant Blue using plasma electrolysis method with addition of microbubbles and Fe Ion. The addition of microbubbles can increase hydroxyl radicals production and can decrease energy consumption. The condition used are dye concentration is 150 mg L, Na2SO4 0.02 M, in addition of microbubbles and Fe 40mg L applied voltage 700 volt, and anode depth 1.5 cm. Dye degradation is known by measure its absorbances with Spectrophotometer UV Vis. The result of this research show that the efficiency of dye degradation in addition of microbubbles is increased. The result of study showed that percentage of degradation was 99,63 in 30 minutes with final concentration of dye is 0.56 mg L, COD value decease from 121.36 mg L to 45.86 mg L and specific energy is 1035.61 kJ mmol. TOC value in minute 180 is 6.5 mg L. "

"Tesis ini menganalisis daya saing industri tekstil dan produk tekstil di Indonesia. Penelitian ini memanfaatkan data sekunder untuk periode 2002 hingga 2007. Data yang digunakan adalah data dari International Trade Centre (ITC) dengan menggunakan HS 61 dan HS 62 untuk kelompok industri garmen. Penelitian ini dilakukan menggunakan analisisi Trade Performance Index untuk mengetahui kinerja sektor tekstil dan produk tekstil. Hasil analisa menunjukkan beberapa faktor yang masih memiliki daya saing yang kurang. Berdasarkan analisis pendekatan The Generalized Double Diamond Model dan penjelasan deskriptif, perlunya peningkatan pada faktor tenaga kerja; permesinan; hulu hilir; produk dan pasar; infrastruktur; kebijakan dan perdagangan; serta moneter dan fasilitas keuangan. Perlu juga untuk mengatasi tingginya impor bahan baku kapas untuk mengurangi ketergantungan terhadap bahan baku impor. Penjabaran tersebut menunjukkan bahwa industri tekstil dan produk tekstil Indonesia masih rendah.

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This thesis analyzes the competitiveness of the textile industry and textile products in Indonesia. This study utilized secondary data for the period 2002 to 2007. The data used is the data from the International Trade Centre (ITC) using the HS 61 and HS 62 for the garment industry groups. This study was conducted using analisisi Trade Performance Index to determine the performance of the textile and textile products.

The analysis shows that several factors still have a lack of competitiveness. The approach is based on the analysis of the Generalized Double Diamond Model and descriptive explanations, the need to increase the labor factor; machining; upstream downstream; products and markets; infrastructure; and trade policies; and monetary and financial facilities. It is also necessary to overcome the high raw material imports of cotton to reduce dependence on imported raw materials. Translation of the show that textiles and textile products Indonesia is still low."