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Journal : FLUIDA

 1 
Efektivitas Biji Kelor sebagai Koagulan Alami pada Pengolahan Limbah Cair Tahu Melalui Proses Anaerobik-Aerobik Laily Isna Ramadhani; Yurike Dwiayu Rahmaningsi; Nanda Ravenia Amanda; Herawati Budiastuti
Fluida Vol 13 No 1 (2020): FLUIDA
Publisher : Jurusan Teknik Kimia, Politeknik Negeri Bandung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35313/fluida.v13i1.2060

Abstract

ABSTRAK Limbah cair tahu merupakan salah satu limbah cair dengan kandungan organik yang tinggi dan berpotensi merusak lingkungan. Pada penelitian ini digunakan dua metode pengolahan dengan mengkombinasikan metode pengolahan biologi dan proses koagulasi-flokulasi menggunakan koagulan alami, biji kelor. Tujuan dari penelitian ini adalah mempelajari pengaruh dosis dan ukuran partikel koagulan terbaik. Dosis biji kelor divariasikan dari 1.000, 2.000, 3.000, dan 4.000 ppm. Dosis terbaik digunakan untuk menentukan ukuran partikel koagulan terbaik dengan variasi ukuran 250, 500, 1.000, dan 2.000 µm. Hasil penelitian menunjukkan bahwa dosis biji kelor terbaik untuk metode 1 (aerobik dan koagulasi flokulasi) adalah 2.000 ppm dan untuk metode 2 (kombinasi anaerobik-aerobik dan koagulasi flokulasi) adalah 4.000 ppm. Ukuran partikel terbaik yaitu 500 µm untuk kedua metode dengan efisiensi penurunan kekeruhan sebesar 94,57% untuk efluen metode 1 dan 78,28% untuk efluen metode 2. Kata kunci: Limbah cair tahu, biji kelor,koagulan alami, koagulasi- flokulasi ABSTRACT Tofu wastewater is one of the pollutant wastewater that potentially cause the serious damage to the environment due to its high organic content. The combination of biology method in the help of microorganism and coagulation-flocculation method using kelor seed were applied in this study. This research aims were determining the best dose and the optimum size of coagulant. Doses variation were 1,000, 2,000, 3,000 and 4,000 ppm of coagulant. The best dose resulted would be used to determine the optimum size of coagulant by variating 250, 500, 1,000 and 2,000 µm. The result showed that 2,000 ppm was the best coagulant dose for the first method (aerobic and coagulation-flocculation method) and 4,000 ppm was the optimum dose for the second method (combination of anaerobic-aerobic and coagulation-flocculation method). 500 µm was determined as the optimum particle size of the coagulant for both methods with % removal turbidity level were 94,57% for the first method and 78,28% for the second method. Keywords:Tofu wastewater, kelor seed, natural coagulant, coagulation-flocculation
Penyisihan Kadar Amoniak dalam Limbah Cair Industri Pupuk Menggunakan Sequencing Batch Reactor Robby Sudarman; Herawati Budiastuti; Nancy Siti Djenar; Efniarsi S. Panggalo; Ajie Nurhasyim
Fluida Vol 13 No 2 (2020): FLUIDA
Publisher : Jurusan Teknik Kimia, Politeknik Negeri Bandung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35313/fluida.v13i2.2264

Abstract

ABSTRAK Sifat toksik nitrogen amoniak dalam limbah cair berbahaya bagi kehidupan sehingga perlu untuk dihilangkan. Pada penelitian ini penyisihan kadar amoniak yang tinggi dalam limbah cair industri pupuk dilakukan melalui proses nitrifikasi dan denitrifikasi menggunakan Sequencing Batch Reactor (SBR). Dua reaktor SBR digunakan dimana pada reaktor pertama (R1) dilakukan pengadukan dan pada reaktor kedua (R2) dilakukan aerasi. Hasil penelitian menunjukkan bahwa pada pembebanan 0,787 mg amoniak/L/hari dan Hydraulic Retention Time (HRT) 20 hari, efisiensi penyisihan kadar amoniak mampu dicapai pada kisaran 71,26%-90,91% (R1) dan 62,32% -92,21% (R2). Pengukuran pH pada HRT 20 hari berada pada rentang 8,25-8,65 pada R1 dan pH 8,34-8,73 pada R2. Pada HRT 15 hari, efisiensi penyisihan kadar amoniak efluen pada R1 menurun yaitu dari 90,89 % menjadi 86,81% dan pada R2 menurun dari 90,59% menjadi 40,99 %. Pada HRT 15 hari, efisiensi penyisihan kadar amoniak pada R1 lebih baik dibandingkan pada R2 yang disebabkan adanya penambahan aerasi pada R1 di akhir penelitian. Kata kunci: amoniak, limbah cair, industri pupuk, sequencing batch reactor ABSTRACT The toxic nature of ammonia nitrogen in liquid waste is dangerous for life, so it needs to be eliminated. In this study, the removal of high ammonia levels in the fertilizer industry wastewater was carried out through a process of nitrification and denitrification using the Sequencing Batch Reactor (SBR). Two SBR reactors were used where the first reactor (R1) was stirred and the second reactor (R2) was aerated. The results showed that at a load of 0.787 mg of ammonia/L/day and 20 days of Hydraulic Retention Time (HRT), the efficiencies of removal of ammonia levels were achieved in the range of 71.26%-90.91% (R1) and 62.32%- 92.21% (R2). The pH measurements at 20 days of HRT were in the range of 8.25-8.65 at R1 and pH 8.34-8.73 at R2. At 15 days of HRT, the effluent ammonia level removal efficiency at R1 decreased from 90.89% to 86.81% and at R2 decreased from 90.59% to 40.99%. At 15 days of HRT, the efficiency of ammonia level removal at R1 was better than that in R2 due to the addition of aeration to R1 at the end of the study. Keywords: ammonia, liquid waste, fertilizer industry, sequencing batch reactor
Seeding and Acclimatization for Aerobic Processing of Restaurant Wastewater with Sequencing Batch Reactor Herawati Budiastuti; Laily Isna Ramadhani; Sudrajat Harris Abdulloh; Ananda Dea Maharani; Melina Melina; Robby Sudarman
Fluida Vol 16 No 1 (2023): FLUIDA
Publisher : Department of Chemical Engineering, Politeknik Negeri Bandung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35313/fluida.v16i1.4521

Abstract

Restaurant wastewater has a relatively high organic matter content, so it needs to be treated to meet the specified quality standard. One of the technologies that can be used in restaurant wastewater treatment is Sequencing Batch Reactor (SBR) technology. The purpose of this study is to set up an aerobic SBR system with seeding and acclimatization treatments to reduce the amount of organic matter in restaurant wastewater when a shock load occurs. The research was done using wastewater from a restaurant in Bandung and activated sludge from the food industry in Bogor as seeds for microorganisms. In this study, the seeding process was carried out by introducing 25% activated sludge and 75% nutrients into the reactor, and the acclimatization process was carried out by introducing a specific ratio of nutrients and wastewater into the reactor gradually until the waste concentration reached 100%. The parameters tested were COD, MLVSS, DO, pH, and temperature. During the seeding procedure, the initial COD value of 3,200 mg/L declined. It began to stabilize on the seventh day, with a COD value of 1,080 mg/L. The COD removal reached a relatively stable condition in the acclimatization process starting on day 2, where COD decreased from the original 1,280 mg/L to 480 mg/L.
Enhancing Tofu Wastewater Treatment Efficiency with Water Hyacinth Extract Addition in an Anaerobic Sequencing Batch Reactor Ramadhani, Laily Isna; Nabila, Salma Ainun; Angela, Santa; Budiastuti, Herawati
Fluida Vol. 18 No. 1 (2025): FLUIDA
Publisher : Department of Chemical Engineering, Politeknik Negeri Bandung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35313/fluida.v18i1.6164

Abstract

Tofu production results in wastewater containing high levels of organic matter. This wastewater needs to be treated before discharging into water bodies. Anaerobic wastewater treatment is capable to decompose organic compounds in wastewater and can produce biogas. Tofu wastewater has a low C/N ratio (6.51), so it needs to be increased by adding water hyacinth extract. The reactor used is an Anaerobic Sequencing Batch Reactor (ASBR) with cow rumen extract as a starter at a concentration of 7,995 mg MLVSS/L. The concentration of tofu wastewater used was 6,000 mgCOD/L, and water hyacinth extract was added at a concentration ratio of 15:2. This research aims to determine the reduction in COD and cumulative biogas volume gain during tofu wastewater treatment with the addition of water hyacinth extract. The parameters tested in the research were MLVSS, COD, pH, and cumulative biogas volume. The efficiency of reducing COD concentration at the operational stage with adding water hyacinth extract was 87.5%, while the reduction in COD concentration without adding water hyacinth extract was only 56.25%. The cumulative volume of biogas produced for 9 days of operation was 7,300 mL, while the ASBR operation without adding water hyacinth extract was 9,590 mL for 9 days.
Sintesis Biodiesel dari Limbah Biji Alpukat melalui Proses Esterifikasi dan Transesterifikasi Budiastuti, Herawati; Rahmawati, Aisyah Auliya; Susanto, Susy Mardiana; Trirahayu, Dhyna Analyes; Rusdianasari, Rusdianasari
Fluida Vol. 16 No. sp1 (2023): FLUIDA x IRWNS Special Edition
Publisher : Department of Chemical Engineering, Politeknik Negeri Bandung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35313/fluida.v16isp1.5342

Abstract

The avocado seed is a food waste that contains vegetable oil. The amount of avocado seed waste is very abundant, but there is no optimal processing or utilization. Fossil fuels as an energy source can experience scarcity because these energy sources are non-renewable. This research has important implications in waste management and development of renewable energy sources. One type of renewable energy is biodiesel. Biodiesel is an environmentally friendly alternative fuel made from vegetable oil. The use of biodiesel as an alternative fuel has advantages including being easier to decompose in nature and reducing emissions when compared to diesel oil. One type of plant that can be used as raw material for making biodiesel is avocado. This study aims to utilize avocado seed waste as a raw material for biodiesel synthesis and to test its characteristics that have not been found in previous studies in the form of analysis of acid value, density, and oxidation stability. The method used in the synthesis of biodiesel was esterification and transesterification reactions using methanol solvent with a mole ratio of avocado seeds to methanol of 1:6 and the addition of H2SO4 catalyst as much as 0.5% of the weight of oil for the esterification process and the addition of NaOH catalyst as much as 1% of the weight of oil for the transesterification process. This study complements previous research on biodiesel from avocado seeds and compares the obtained biodiesel characteristics to the Indonesian National Standard (SNI) 04-7182:2015. The final results of this study were 34,61%, 0.98 mg-KOH/g, 977 kg/m3, and 318 minutes for biodiesel yield, acid value, density, and oxidation stability, respectively.
Co-Authors Agustin, Delliana Ahmad Fudholi Ajie Nurhasyim Alviera Wilma Fitrianie Ananda Dea Maharani Angela, Santa Bambang Soeswanto Devita Utami Mardiani Efniarsi S. Panggalo Elis Sri Wahyuni Elizabeth, Lidya Endang Kusumawati Haryadi Haryadi Hasna Mutiara Safitri Hidayatulloh, Irwan KURNIASETIAWATI, ANNISA Luthfiana Nurfauziah Melina Melina Miranti Nur Arafah Muhari, Emma Hermawati Mukhtar Ghozali Nabila, Salma Ainun Nancy Siti Djenar Nanda Ravenia Amanda Nindhytia Anandy Berliany Nira Aulia Hanifah Nurunnisa Alfi Hidayat Paramitha, Tifa Rachmawati, Anissa Nurul Raden Sukmawati Rahmawati, Aisyah Auliya Ramadhani, Laily Isna Ramadhani, Laily lsna Ririn Rismawati Robby Sudarman Rusdianasari Rusdianasari Rusdianasari Rusdianasari Rusmana Sapto Prayogo Sudrajat Harris Abdulloh Susanto, Susy Mardiana Taufiqurohim, Teguh TINA MULYA GANTINA Trirahayu, Dhyna Analyes Widiastuti, Endang YANTI SUPRIANTI, YANTI Yasinta, Fatima Yurike Dwiayu Rahmaningsi Zahra, Salma Amara