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Abstrak :
Metode Air Plasma Electrolysis sudah banyak dibuktikan efektif mendegradasi limbah pewarna tekstil karena kemampuannya menghasilkan radikal hidroksil dalam jumlah yang besar dan menghasilkan pupuk nitrat dengan memanfaatkan gas nitrogen dan oksigen yang diinjeksikan dari udara. Penelitian ini bertujuan menguji kemampuan metode elektrolisis plasma dalam mendegradasi limbah salah satu pewarna tekstil, yaitu Remazol Brilliant Blue dan sintesis pupuk nitrat secara simultan. Penelitian dilakukan dengan membangkitkan plasma dengan katoda stainless steel dan anoda tungsten di larutan K2SO4 dan K2HPO4 serta pewarna remazol brilliant blue dalam reaktor sirkulasi internal dengan volume 1,2 L. Metode ini dilakukan pada reaktor batch menggunakan variasi konsentrasi limbah 50 ppm, 100 ppm, 150 ppm, 200 ppm, kombinasi elektrolit K2HPO4 dan K2SO4 dengan variasi konsentrasi 0,01 M; 0,02 M, daya 400 W, 500 W, 600 W, laju alir udara 0,2 lpm, 0,4 lpm, 0,6 lpm, 0,7 lpm, 0,8 lpm, 0,9 lpm, 1 lpm, serta variasi penambahan ion Fe2+ 10 ppm, 20 ppm, dan 30 ppm. Hasil optimum pada sisi degradasi didapatkan pada 0,2 M K2SO4, daya 500 W, laju alir udara 0,7 L/min, ion Fe2+ 20 ppm, serta konsentrasi awal limbah 50 ppm dan dari sisi produksi nitrat adalah 0,01 M K2SO4 dan 0,01 M K2HPO4, daya 600 W, laju alir udara 0,9 L/min, ion Fe2+ 20 ppm, serta konsentrasi awal limbah 50 ppm. Uji COD menunjukkan nilai sebesar 16,65 mg/L dan senyawa intermediet berupa nitrogen organik. Pemberian pupuk cair nitrat dengan metode APE ini terhadap 5 tanaman yaitu cabai, tomat, kacang panjang, timun, serta sawi hijau menunjukkan hasil yang lebih baik dari sisi tinggi tanaman, jumlah daun, panjang daun, dan berat basah tanaman dibandingkan tanpa pupuk maupun dengan pupuk komersial ......Air Plasma Electrolysis Method has been widely proven effective in degrading textile dye waste because of its ability to produce large amounts of hydroxyl radicals and produce nitrate fertilizer by utilizing nitrogen and oxygen gases injected from the air. This study aims to test the ability of the plasma electrolysis method in degrading the waste of one of the textile dyes, namely Remazol Brilliant Blue, and the simultaneous synthesis of nitrate fertilizer. The study was conducted by generating plasma with a stainless-steel cathode and tungsten anode in a solution of K2SO4 and K2HPO4 as well as Remazol Brilliant Blue dye in an internal circulation reactor with a volume of 1.2 L. This method was carried out on batch reactors using a variety of waste concentrations of 50 ppm, 100 ppm, 150 ppm, 200 ppm, a combination of electrolytes K2HPO4 and K2SO4 with a concentration variation of 0.01 M; 0.02 M, power 400 W, 500 W, 6 00 W, air flow rate of 0.2 lpm, 0.4 lpm, 0.6 lpm, 0.7 lpm, 0.8 lpm, 0.9 lpm, 1 lpm, as well as variations in the addition of Fe ions2 + 10 ppm, 20 ppm, and 30 ppm. The optimum results on the degradation side were obtained at 0.2 M K2SO4, power 500 W, air flow rate 0.7 L / min, Fe2+ ions 20 ppm, as well as the initial concentration of waste 50 ppm, and from the nitrate production side is 0.01 M K2SO4 and 0.01 M K2HPO4, power 600 W, air flow rate 0.9 L / min, Fe2+ ions 20 ppm, as well as the initial concentration of waste 50 ppm. The COD test showed a value of 16.65 mg / L and intermediate compounds in the form of organic nitrogen. The application of liquid nitrate fertilizer with the APE method to 5 plants, namely chili, tomatoes, long beans, cucumber, and mustard greens, showed better results in terms of plant height, number of leaves, leaf length, and wet weight of plants compared to without fertilizer or commercial fertilizers

Abstrak :
[Dioksin merupakan senyawa berbahaya yang dapat menyebabkan gangguan kulit, hati, hingga menimbulkan kanker. Degradasi dioksin dapat dilakukan oleh mikroorganisme seperti kapang yang menghasilkan enzim ligninolitik. Penelitian bertujuan untuk mendapatkan kapang yang memiliki enzim ligninolitik sehingga berpotensi dalam mendegradasi dioksin. Aktivitas enzim ligninolitik terlihat dari penghilangan warna pada Remazol Brilliant Blue R (RBBR) dan Poly S-119. Metode penelitian meliputi seleksi pada medium padat dan cair, pengukuran aktivitas enzim ligninolitik, serta identifikasi isolat. Seleksi kapang pada medium padat dilakukan dengan medium yang mengandung RBBR dan Poly S-119. Seleksi cair dilakukan dengan mengukur degradasi warna dan aktivitas enzim ligninolitik (lakase, mangan peroksidase, dan lignin peroksidase). Isolat hasil seleksi diidentifikasi molekular 28S rRNA menggunakan primer NL-1 dan NL-4. Hasil seleksi padat menunjukkan sembilan isolat dengan zona degradasi, yaitu FIG- KT-540.1; F-IG-KT-539.2; F-IG-PT-6.3; F-IG-PT 1.16; F-IG-PT-2.14; F-IGPT- 2.5; F-IG-PT-2.7; F-IG-PT-3.1; dan F-IG-PT-2.11. Hasil seleksi cair menunjukkan dua isolat memiliki kemampuan mendegradasi warna tinggi yaitu FIG- KT-540.1 sebesar 59% mendegradasi warna RBBR dan F-IG-PT 1.16 sebesar 85% mendegradasi warna Poly S-119. Isolat F-IG-KT-540.1 dan F-IG-PT 1.16 memiliki aktivitas MnP yang tinggi sebesar 0,0132 dan 0,0186 ΔOD/ml sampel/menit. Identifikasi kedua isolat menunjukkan isolat F-IG-KT-540.1 adalah Aspergillus oryzae dengan nilai bootstrap 99 dan isolat F-IG-PT 1.16 adalah Penicillium charlesii dengan nilai bootstrap 98. Kesimpulan yaitu isolat F-IG-KT- 540.1 dan F-IG-PT 1.16 yang memiliki kemampuan tinggi mendegradasi warna berpotensi mendegradasi dioksin. Penelitian lebih lanjut perlu dilakukan untuk mengetahui sinergi antara kedua isolat dalam mendegradasi dioksin. ......Dioxins are harmful compounds which can damage skin, liver, and cause cancer. It can be degraded by microorganisms such as fungi with its ligninolytic enzymes. The research aim was to obtain fungi that has ligninolytic enzymes which potentially degrade dioxin. Activity of ligninolytic enzymes was showed from decolorization of Remazol Brilliant Blue R and Poly S-119 dye. Methods of the research include selection on solid medium and liquid medium, measurement of ligninolytic activity, and identification of fungal isolates. Selection on solid medium was carried out using RBBR and Poly S-119 dye. Selection on liquid medium was carried out through measurement on the color degradation and activity of ligninolytic enzymes (laccase, manganese peroxidase, and lignin peroxidase). The potential isolates in liquid selection medium were identified on 28S rRNA with NL-1 and NL-4 primers. The result showed that nine isolates have the degradation zone in a solid medium. They were F-IG-KT-540.1; F-IG-KT- 539.2; F-IG-PT-6.3; F-IG-PT 1:16; F-IG-PT-2:14; F-IG-PT-2.5; F-IG-PT-2.7; FIG- PT-3.1; and F-IG-PT-2.11. In liquid selection medium, F-IG-KT-540.1 and FIG- PT 1.16 isolates showed high capability to degrade dyes. Percentage of RBBR degradation in isolate F-IG-KT-540.1 was 59% and percentage of Poly S-119 degradation in isolate F-IG-PT-1.16 was 85%. Both F-IG-KT-540.1 and F-IG-PT 1.16 isolate have high activity of MnP. Activity of MnP of those isolate were 0,0132 and 0,0186 ΔOD/ml/minutes respectively. The result of identification showed that F-IG-KT-540.1 isolate was Aspergillus oryzae with value of bootstrap 99 and F-IG-PT-1.16 isolate was Penicillium charlesii with value of bootstrap 98. From this research, F-IG-KT-540.1 and F-IG-PT 1.16 isolates which have capability to degrade dyes potential for degrading dioxin. Further research is needed to determine the synergy between isolates F-IG-KT-540.1 and F-IG-PT- 1.16 to degrade dioxin., Dioxins are harmful compounds which can damage skin, liver, and cause cancer. It can be degraded by microorganisms such as fungi with its ligninolytic enzymes. The research aim was to obtain fungi that has ligninolytic enzymes which potentially degrade dioxin. Activity of ligninolytic enzymes was showed from decolorization of Remazol Brilliant Blue R and Poly S-119 dye. Methods of the research include selection on solid medium and liquid medium, measurement of ligninolytic activity, and identification of fungal isolates. Selection on solid medium was carried out using RBBR and Poly S-119 dye. Selection on liquid medium was carried out through measurement on the color degradation and activity of ligninolytic enzymes (laccase, manganese peroxidase, and lignin peroxidase). The potential isolates in liquid selection medium were identified on 28S rRNA with NL-1 and NL-4 primers. The result showed that nine isolates have the degradation zone in a solid medium. They were F-IG-KT-540.1; F-IG-KT- 539.2; F-IG-PT-6.3; F-IG-PT 1:16; F-IG-PT-2:14; F-IG-PT-2.5; F-IG-PT-2.7; FIG- PT-3.1; and F-IG-PT-2.11. In liquid selection medium, F-IG-KT-540.1 and FIG- PT 1.16 isolates showed high capability to degrade dyes. Percentage of RBBR degradation in isolate F-IG-KT-540.1 was 59% and percentage of Poly S-119 degradation in isolate F-IG-PT-1.16 was 85%. Both F-IG-KT-540.1 and F-IG-PT 1.16 isolate have high activity of MnP. Activity of MnP of those isolate were 0,0132 and 0,0186 ΔOD/ml/minutes respectively. The result of identification showed that F-IG-KT-540.1 isolate was Aspergillus oryzae with value of bootstrap 99 and F-IG-PT-1.16 isolate was Penicillium charlesii with value of bootstrap 98. From this research, F-IG-KT-540.1 and F-IG-PT 1.16 isolates which have capability to degrade dyes potential for degrading dioxin. Further research is needed to determine the synergy between isolates F-IG-KT-540.1 and F-IG-PT- 1.16 to degrade dioxin.]

Abstrak :
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. ...... 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.

Abstrak :
Metode degradasi limbah cair menggunakan reaktor ozonasi injeksi berganda microbubble dan nanobubble adalah teknik pengolahan limbah tekstil yang berpotensi besar untuk dikembangkan. Penelitian ini bertujuan untuk menguji kinerja reaktor ozonasi injeksi berganda microbubble dan nanobubble dalam mengolah limbah cair Remazol biru dan memperoleh kondisi operasi optimum degradasi limbah. Degradasi limbah cair dilakukan dengan proses ozonasi, di mana limbah yang disirkulasikan ke dalam reaktor menggunakan pompa akan didegradasi oleh ozon yang diinjeksikan melalui nosel nanobubble dan microbubble. Variabel tetap dalam penelitian ini adalah volume limbah cair sebanyak 20 L, konsentrasi limbah cair sebesar 100 ppm, dan pH 5. Variabel bebas yang divariasikan adalah laju alir limbah cair, laju alir udara yang diinjeksikan, jenis fluida gas yang diumpankan, dan metode injeksi ozon yang digunakan. Hasil penelitian menunjukkan bahwa degradasi RBB-R optimum didapatkan pada kondisi tegangan pompa 10 V, laju alir gas 4 L/menit, jenis fluida gas oksigen, dan metode injeksi ozon ganda, yaitu sebesar 97,22%. Selain itu, total COD yang berhasil disisihkan menggunakan metode ini adalah sebesar 55,8 mg/L, kadar warna (Pt-Co) yang disisihkan sebesar 741,41 mg/L (89,26%), kandungan nitrat yang dihasilkan sebesar 88,55 mg/L, dan konsentrasi ozon terlarut dalam air mencapai 0,3896 mg/L. ......Liquid waste degradation using ozone microbubble and nanobubble reactor with double injections is a method with great potential to be developed. This experiment aims to test the performance of ozone microbubble and nanobubble reactor with double injection system in treating Remazol Blue waste and obtain its optimum operating conditions. Degradation is carried out by ozonation, in which liquid waste circulated into the reactor using a pump is degraded by ozone injected through the nanobubble and microbubble nozzles. The controlled variables in this experiment are the liquid waste volume of 20 L, liquid waste concentration of 100 ppm, and a pH of 5. The independent variables manipulated in this experiment are the flow rate of liquid waste, flow rate of air injected, type of gas injected, and method of ozonation used. The results showed that the optimum degradation of RBB-R was obtained under conditions of 10 V pump voltage, 4 L/minute gas flow rate, oxygen gas, and double injection method, which was 97.22%. The total COD removed was 55.8 mg/L, the color (Pt-Co) removed was 741.41 mg/L (89.26%), the nitrate produced was 88.55 mg/L, and the concentration of dissolved ozone was 0.3896 mg/L.

Abstrak :
Teknologi elektrolisis plasma sudah banyak dibuktikan efektif mendegradasi limbah pewarna tekstil karena kemampuannya menghasilkan radikal hidroksil dalam jumlah yang besar dan menghasilkan pupuk nitrat cair dengan memanfaatkan gas nitrogen dan oksigen yang diinjeksikan dari udara. Penelitian ini bertujuan menguji kemampuan metode elektrolisis plasma dalam mendegradasi limbah salah satu pewarna tekstil, yaitu Remazol Brilliant Blue sekaligus secara simultan mensintesis pupuk nitrat cair pada tegangan tinggi. Penelitian dilakukan dengan membangkitkan plasma dengan katoda stainless steel dan anoda tungsten yang tercelup sedalam 2 cm di larutan K₂SO₄ serta pewarna remazol brilliant blue dalam reaktor sirkulasi internal dengan volume 1,2 L. Metode ini dilakukan pada reaktor batch menggunakan variasi konsentrasi limbah 100 ppm, 200 ppm, 300 ppm, tegangan 800 V, 900 V, 1000 V, 1100 V, suhu 50 ^oC, 60 ^oC, 70 ^oC, serta diameter elektroda 1 mm; 1,6 mm; dan 2,4 mm. Hasil optimum baik dari segi degradasi maupun konsentrasi nitrat terbentuk didapatkan pada tegangan 1100 V, suhu 60 ^oC, diameter elektroda 2,4 mm dan konsentrasi limbah 100 ppm. Uji COD menunjukkan nilai sebesar 16,65 mg/L dan dampak persentase ketergerusan tertinggi disebabkan oleh penurunan diameter elektroda. ......Plasma Electrolysis Technology has been proven to be effective on textile dye waste degradation due to its ability to produce large amounts of hydroxyl radicals. and producing liquid nitrate fertilizer by utilizing nitrogen gas and oxygen injected from the air. This research aims to test the ability of plasma electrolysis methods to degrade the waste of one textile dye, namely Remazol Brilliant Blue, and the simultaneous synthesis of nitrate liquid fertilizer at a high voltage. The study was conducted by generating plasma with stainless steel cathodes and tungsten anodes dyed as deep as 2 cm in electrolyte solutions of K₂SO₄ and remazol brilliant blue dye in internal circulation reactors with a 1,2 L volume. This method is carried out on batch reactors using variations in waste concentrations of 100 ppm, 200 ppm, 300 ppm, voltage of 800 V, 900 V, 1000 V, and 1100 V, temperature of 50 ^oC, 60 ^oC, and 70 ^oC, and also electrode diameter variations of 1 mm; 1.6 mm; and 2.4 mm. The optimum results on the degradation and nitrate production side are 1100 V of voltage, 60 ^oC of temperature, 2.4 mm of electrode diameter and 100 ppm of waste concentrations. The COD test showed a value of 16.65 mg/L and the highest effect of electrode’s erosion percentages is caused by electrode diameter reduction.