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All Journal Jurnal Dampak Jurnal Penelitian Pendidikan IPA (JPPIPA) Jurnal Serambi Engineering Unes Law Review Jurnal Riset Teknologi Pencegahan Pencemaran Industri
Nur, Ansiha
Universitas Andalas
Agriculture, Biological Sciences & Forestry Biochemistry, Genetics & Molecular Biology Chemical Engineering, Chemistry & Bioengineering Chemistry Civil Engineering, Building, Construction & Architecture Computer Science & IT Education Energy Engineering Environmental Science Law, Crime, Criminology & Criminal Justice Materials Science & Nanotechnology Physics Public Health Social Sciences

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Journal : Jurnal Dampak

 1 
Pengaruh Laju Pembebanan Organik terhadap Reduksi Padatan pada Proses Anaerobic Co-Digestion Sampah Sayuran dengan Lumpur SBR Budhi Primasari; Ansiha Nur
Jurnal Dampak Vol 15, No 2 (2018)
Publisher : Universitas Andalas

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.25077/dampak.15.2.88-92.2018

Abstract

Anaerobic digestion is to treat organic waste such as vegetable solid waste (VSW). Anaerobic co-digestion is the mixture of two or more different waste types with the aim to enhance the efficiency of the anaerobic digestion process. In this study, anaerobic digestion of vegetable solid waste (VSW) is compared to the anaerobic co-digestion of VSW and sequencing batch reactor (SBR) sludge. This investigation is focussed  on the varying the organic loading rate (OLR) which is the mixing ratio of VSW to SBR sludge; and pH (6, 7 and 8) of the mixture. The mixtures were kept in serum bottles and placed in a shaker for 7 days at 150 rpm. Experiments with OLR 2:1, VSW composition of 1:2:1:1 and pH 6 produced the highest total biogas in anaerobic co-digestion. Thus, for anaerobic co-digestion, the optimum composition of VSW, OLR and pH are 1:2:1:1, 2:1 and 6 respectively. The range of % reduction in total solids (TS), total suspended solids (TSS) and total dissolve solids (TDS) in anaerobic co-digestion is 4-46, 0-43 and 0-64 respectively. In a comparison with single digestion, only 1 in 5 samples of co-digestion exceed that amount of biogas produced by single digestion and this shows that single anaerobic digestion resulted in higher biogas yield. The range of % reduction in TS, TSS and TDS in anaerobic digestion is 13-54, 15-66 and 9-58 respectively. Comparatively, single digestion performs better in solids removal than anaerobic co-digestion and thus, co-digestion method may not be suitable for all types of organic waste.
ELEKTROKOAGULASI MONOPOLAR UNTUK MENYISIHKAN ORGANIK DAN MINYAK LEMAK AIR BUANGAN DOMESTIK (GREY WATER) Ansiha Nur; Agus Jatnika
Jurnal Dampak Vol 14, No 2 (2017)
Publisher : Universitas Andalas

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.25077/dampak.14.2.81-86.2017

Abstract

Electrocoagulation is an electrochemical technology to treat organic and inorganic wastewater without the use of chemicals so as not to increase the burden of environmental pollution. Electrocoagulation performance is influenced by electrode type, current density and number of electrodes. The purpose of this research is to know the effectiveness of COD and oil grease removal from domestic waste water (grey water) through electrocoagulation process. The experiment was conducted in batch using monopolar electrode configuration, with aluminum electrodes 95,7%. In this research, electric current density 21-104 A/m2, detention time and pH were varied. The optimum condition was obtained at current density of 104 A/m2 for 15 minutes with COD and oil grease removal consecutively are 87.48% and 77.50%. The result of this electrocoagulation process shows COD and oil grease concentration of 15.02 mg/L and 4.20 mg/L are under the standard of Ministry of Environment Decree No. 112 Year 2011 grade 3, to be used for watering plants and flushing the hotel toilet.Keywords: electrocoagulation, aluminum electrode, monopolar, current density, grey waterABSTRAKElektrokoagulasi merupakan teknologi elektrokimia untuk mengolah limbah organik dan anorganik tanpa menggunakanbahan kimia sehingga tidakmenambah bebanpencemaran lingkungan.Kinerja elektrokoagulasi dipengaruhi oleh jenis elektroda,kerapatanarusdan jumlah elektroda.Tujuanpenelitian ini untuk mengetahuiefektifitas penurunan organik (COD) dan minyak lemak dari airbuangan domestik (grey water) melalui proses elektrokoagulasi. Percobaan dilakukan secara batch menggunakan konfigurasi susunan elektroda monopolar, dengan jenis elektrodaberupaplat alumunium 95,7%.Variasi penelitian pada reaktor batch adalah terhadap kerapatan arus listrik21-104 A/m2, waktu detensi dan pH.Kondisi optimum diperoleh pada kerapatan arus 104 A/m2pada menit ke-15 denganpenyisihanCOD dan minyak lemakyaitusebesar 87,48% dan 77,50%. Hasil proses elektrokoagulasiini menunjukkan nilai COD sebesar 15,02 mg/L dan minyak lemak 4,20 mg/Lberada di bawah baku mutu Keputusan Menteri Negara Lingkungan Hidup Nomor 112 Tahun 2011kelas 3, untuk dimanfaatkan untuk penyiraman tanaman dan penggelontoran toilet hotel.Kata kunci: elektrokoagulasi, elektroda aluminium, monopolar, kerapatan arus, grey water
Penyisihan Senyawa Organik pada Air Limbah Tahu Menggunakan Proses Elektrokoagulasi Pasangan Elektroda Aluminium Ansiha Nur; Puti Sri Komala; Uttiya Annisa D
Dampak Vol 17, No 2 (2020)
Publisher : Universitas Andalas

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.25077/dampak.17.2.62-71.2020

Abstract

This study aims to determine the efficiency of organic removal in the form of Chemical Oxygen Demand (COD), Nitrate (NO3), and TSS of tofu wastewater with electrocoagulation process of aluminum electrode pairs with the monopolar arrangement. A two liters batch reactor and aluminum electrode (aluminum content of 95.7%) were used. Variations in current density (21 - 104 A / m2) and contact time (2 - 60 minutes). The optimum conditions were obtained at a current density of 104 A / m2 in 10, 15, and 2 minutes for COD, NO3, and TSS, respectively. The optimum removal efficiency for COD, NO3, and TSS were 95%, 69.64%, and 99.99%, respectively at a current density of 104 A/m2. Increases in current density and contact time were directly correlated with improvements in COD, NO3, and TSS removal effectiveness. The pH of wastewater has increased to 8.5. While the temperature of wastewater only increased in the 2nd minute to 27°C. Meanwhile, conductivity in wastewater decreases with increasing contact time. The decrease in conductivity is inversely proportional to the efficiency of pollutant reduction. The effluent of the results of this study has met the quality standards of Minister of Environment Regulation No. 5 of 2014 Attachment XVIII concerning Wastewater Quality Standards for Soybean Processing Businesses and/or Activities.Keywords: COD, electrocoagulation, aluminum electrodes, tofu wastewater, monopolar.ABSTRAKPenelitian ini bertujuan menentukan efisiensi penyisihan senyawa organik berupa Chemical Oxygen Demand (COD),Nitrat (NO3), dan Total Suspended Solid (TSS) air limbah pabrik tahu dengan proses elektrokoagulasi pasangan elektroda aluminium dengan susunan monopolar. Penelitian menggunakan reaktor batch dua liter dan elektroda aluminium (kandungan aluminium sebesar 95,7%). Variasi yang dilakukan adalah variasi rapat arus ( 21 - 104 A/m2) dan waktu kontak (2 – 60 menit). Kondisi optimum diperoleh pada kerapatan arus 104 A/m2 selama 10, 15, dan 2 menit untuk masing-masing COD, NO3, dan TSS. Efisiensi penyisihan optimum untuk COD, NO3 dan TSS masing-masing sebesar 95%, 69,64% dan 99,99 % pada rapat arus 104 A/m2. Peningkatan efisiensi penyisihan COD, NO3 dan TSS berbanding lurus dengan peningkatan rapat arus dan waktu kontak. pH air limbah mengalami peningkatan hingga 8,5. Temperatur air limbah hanya meningkat pada menit ke-2 menjadi 27°C. Sementara itu konduktivitas pada air limbah menurun seiring dengan bertambahnya waktu kontak. Penurunan konduktivitas berbanding terbalik dengan efiisiensi penyisihan polutan. Efluen hasil penelitian ini telah memenuhi baku mutu Peraturan Menteri Lingkungan Hidup No 5 Tahun 2014 Lampiran XVIII tentang Baku Mutu Air Limbah Bagi Usaha dan/ atau Kegiatan Pengolahan Kedelai.
Co-Authors Agus Jatnika Alya Sausan Nabila Mhd. Fauzi Primasari, Budhi Puti Sri Komala Ridwan Siska Elvandari Uttiya Annisa D Wina Ermaliza Wina Ermaliza Yeggi Darnas Zulkarnaini Zulkarnaini