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Detail Karya Ilmiah Dosen

Sutanto, Ade Heri Mulyati, Siti Warnasih

Judul : Application of continuous system electrocoagulation method for textile industry wastewater treatment

Abstrak :
Abstract.

Wastewater of textile industry containing any pollutants, turbid and strong color appearance. Electrocoagulation (EC) is a wastewater treatment alternative, which are some factors: distance of electrode, voltage application, and time operation. This research was determined the optimum voltage density and flow rate by continuous system EC. The couples of Al electrode was immercing in the EC chamber by various distance: 1,5; 3.0; 4.5; 6 cm, and applide 18 volts. The wastewater was passed to the EC chamber by ascending in varieous flow rate: 1,0; 1.5; 2.0; 2.5 mL s-1. The product was evaluated according to the regulations PermenLH RI no 5/2014, including: COD, TSS, pH, DO, Conductivity, and Al concentration. The result optimum voltage density application is 12 Vcm-1 (18 volts /1.5 cm), and a flow rate 1 mL s-1. COD Removel is 91.80% (1.683 to 138 mgL-1 ; fulfil the regulations), TSS removel is 87.83%(937 to 114 mg L-1, (not fullfil the regulations), color degradation is 83.98% (239 , 14 38,31mgL-1 PtCo). The others are pH increase in the range of tolerant, DO increase up to 8,2 mg L-1, Conductivity increase up to 5350 ïs cm-1 , and Al increase up to 2,71 mgL-1
.

Tahun : 2021 Media Publikasi : Jurnal Internasional

Kategori : Jurnal No/Vol/Tahun : Journal of Physics: Conference Series 1882 (2021) 012111 / doi:10.1088/1742-6596/1882/1/012111 / 2021

ISSN/ISBN : doi:10.1088/1742-6596/1882/1/012111

PTN/S : Universitas Pakuan Program Studi : KIMIA

Bibliography :
Reference
[1] Haryono H, M Faizal D, C Liamita N and A Rostika 2018 Pengolahan Limbah Zat Warna Tekstil
Terdispersi dengan Metode Elektroflotasi EduChemia (Journal of Chemistry and Education)
3 1 94-105
[2] Regulation of the Minister of Environment, Permen LH No 5 of 2014 concerning Attachment
XLII concerning textile industry wastewater quality standards.
[3] Peter H, Geoffrey B and Mitchell C 2006 Electrocoagulation As a Wastewater Treatment (New
South Wales: Department of Chemical Engineering, The University of Sydney)
[4] Gameissa M W, Suprihatin and Nastiti S 2012 Advance Treatment of Food Industry waste water
by Electrocoagulation Using Stainless steel Electrodes Jurnal Agroindustri Indonesia 1 1 3137
http://tin.fateta.ipb.ac.id/journal/e-jaii

[5] Chaturvedi S I 2013 Electrocoagulation: A Novel Waste Water Treatment Method International
Journal of Modern Engineering Research (IJMER) 3 1 93100
[6] Susetyaningsih R 2008 Study of Electrocoagulation Process for Liquid Waste Treatment The 4th
National Seminar on Nuclear Technology H R.
[7] Holt P K, Barton G W, Wark M and Mitchell C A 2002 A Quantitative comparison between
chemical dosing and electrocoagulation Colloids and Surfaces A: Physicochem. Eng. Aspects
211 233-248
[8] Alex A and Paul P 2015 Municipal waswater treatment by electrocoagulation, International
Journal Technology Enhancements and Emerging Engineering Research (IJTEEE) 5 5 62-65
[9] Butler E, Hung Y-T, Yeh R Y-L, Al Ahmad M S 2011 Review: Electrocoagulation in
Wastewater Treatment Water 3 495-525.doi: 10.3390 / w3020495
[10] Sulistyanthini D 2016 Ilmu Tekstil (Jakarta: PT RajaGrafindo Persada)
[11] Kaerunnas and Gusman M 2016 Analisis pengaruh parameter konduktivitas, resistivitas dan TDS
terhadap salinitas air tanah dangkal pada kondisi air laut pasang dan air laut surut di daerah
pesisir pantai Kota Padang Bina Tambang Journal 3 4 1751- 1760
[12] Mastika M, Nurhasanah and Muliadi 2017 Uji perbandingan kualitas air sumur tanah gambut dan
air sumur tanah berpasir di Kecamatan Tekarang Kabupaten Sambas berdasarkan parameter
fisika Prisma Fisika 5 1 31-36
[13] Gupta V K and Ali I 2013 Enviromental Water: Advances in Treatment, Remediation, and
Recycling (Amsterdam: Elsevier)

[14] Bazrafshan E, Hossein M, Ferdos KM and Shina N 2013 Application of Electrocoagulation Process for Dairy Wastewater Treatment Journal of Chemistry 1-8 640139 http://dx.doi.org/10.1155/2013/640139

[15] Holt P K, Barton G W, Wark M and Mitchell C A 2006 The future for electrocoagulation as a
localized water treatment technology Chemosphere 59 35-36
[16] Ghalwa N M A, Saqer A M and Farhat N B 2016 Removal of reactive Red 24 dye by clean
electrocoagulation process using Iron and Aluminum electrodes J. Chem. Eng. Process.
Technol 7 269 Doi:10.4172 / 2157-7048.1000269
[17] Hadiwidodo M, Haryono S H and Indrasarimmawati 2009 Penurunan warna, COD dan TSS
limbah cair industri tekstil menggunakan teknologi dielectric barrier discharge dengan variasi
tegangan dan flow rate oksigen Jurnal PRESIPITASI ISSN 1907-187 7 2 16-22
[18] Setianingrum NP, Agus P and Sarto 2017 Pengurangan zat warna Remazol Red Rb menggunakan
metode elektrokoagulasi secara batch JURNAL REKAYASA PROSES 11 2 78-85
[19] Atkins P W 1997 Kimia Fisika jilid 2 4 th  ed. translator I I Kartodiprodjo (Jakarta: Penerbit Erlangga)
[20] Sunarto 2008 Teknologi Pencelupan dan Pencapan 1 (Jakarta: Ministry of National Ed.)
[21] Hao O J, Kim H and Chiang P-C 2000 Decolorization of Wastewater Critical Reviews in
Environmental Science and Technology 30 4 449-505 DOI: 10.1080/10643380091184237

URL : doi:10.1088/1742-6596/1882/1/012111

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Detail Karya Ilmiah Dosen

Sutanto, Ade Heri Mulyati, Siti Warnasih

Judul	:	Application of continuous system electrocoagulation method for textile industry wastewater treatment
Abstrak	:	Abstract. Wastewater of textile industry containing any pollutants, turbid and strong color appearance. Electrocoagulation (EC) is a wastewater treatment alternative, which are some factors: distance of electrode, voltage application, and time operation. This research was determined the optimum voltage density and flow rate by continuous system EC. The couples of Al electrode was immercing in the EC chamber by various distance: 1,5; 3.0; 4.5; 6 cm, and applide 18 volts. The wastewater was passed to the EC chamber by ascending in varieous flow rate: 1,0; 1.5; 2.0; 2.5 mL s-1. The product was evaluated according to the regulations PermenLH RI no 5/2014, including: COD, TSS, pH, DO, Conductivity, and Al concentration. The result optimum voltage density application is 12 Vcm-1 (18 volts /1.5 cm), and a flow rate 1 mL s-1. COD Removel is 91.80% (1.683 to 138 mgL-1 ; fulfil the regulations), TSS removel is 87.83%(937 to 114 mg L-1, (not fullfil the regulations), color degradation is 83.98% (239 , 14 38,31mgL-1 PtCo). The others are pH increase in the range of tolerant, DO increase up to 8,2 mg L-1, Conductivity increase up to 5350 ïs cm-1 , and Al increase up to 2,71 mgL-1 .
Tahun	:	2021	Media Publikasi	:	Jurnal Internasional
Kategori	:	Jurnal	No/Vol/Tahun	:	Journal of Physics: Conference Series 1882 (2021) 012111 / doi:10.1088/1742-6596/1882/1/012111 / 2021
ISSN/ISBN	:	doi:10.1088/1742-6596/1882/1/012111
PTN/S	:	Universitas Pakuan	Program Studi	:	KIMIA
Bibliography	:	Reference [1] Haryono H, M Faizal D, C Liamita N and A Rostika 2018 Pengolahan Limbah Zat Warna Tekstil Terdispersi dengan Metode Elektroflotasi EduChemia (Journal of Chemistry and Education) 3 1 94-105 [2] Regulation of the Minister of Environment, Permen LH No 5 of 2014 concerning Attachment XLII concerning textile industry wastewater quality standards. [3] Peter H, Geoffrey B and Mitchell C 2006 Electrocoagulation As a Wastewater Treatment (New South Wales: Department of Chemical Engineering, The University of Sydney) [4] Gameissa M W, Suprihatin and Nastiti S 2012 Advance Treatment of Food Industry waste water by Electrocoagulation Using Stainless steel Electrodes Jurnal Agroindustri Indonesia 1 1 3137 http://tin.fateta.ipb.ac.id/journal/e-jaii [5] Chaturvedi S I 2013 Electrocoagulation: A Novel Waste Water Treatment Method International Journal of Modern Engineering Research (IJMER) 3 1 93100 [6] Susetyaningsih R 2008 Study of Electrocoagulation Process for Liquid Waste Treatment The 4th National Seminar on Nuclear Technology H R. [7] Holt P K, Barton G W, Wark M and Mitchell C A 2002 A Quantitative comparison between chemical dosing and electrocoagulation Colloids and Surfaces A: Physicochem. Eng. Aspects 211 233-248 [8] Alex A and Paul P 2015 Municipal waswater treatment by electrocoagulation, International Journal Technology Enhancements and Emerging Engineering Research (IJTEEE) 5 5 62-65 [9] Butler E, Hung Y-T, Yeh R Y-L, Al Ahmad M S 2011 Review: Electrocoagulation in Wastewater Treatment Water 3 495-525.doi: 10.3390 / w3020495 [10] Sulistyanthini D 2016 Ilmu Tekstil (Jakarta: PT RajaGrafindo Persada) [11] Kaerunnas and Gusman M 2016 Analisis pengaruh parameter konduktivitas, resistivitas dan TDS terhadap salinitas air tanah dangkal pada kondisi air laut pasang dan air laut surut di daerah pesisir pantai Kota Padang Bina Tambang Journal 3 4 1751- 1760 [12] Mastika M, Nurhasanah and Muliadi 2017 Uji perbandingan kualitas air sumur tanah gambut dan air sumur tanah berpasir di Kecamatan Tekarang Kabupaten Sambas berdasarkan parameter fisika Prisma Fisika 5 1 31-36 [13] Gupta V K and Ali I 2013 Enviromental Water: Advances in Treatment, Remediation, and Recycling (Amsterdam: Elsevier) [14] Bazrafshan E, Hossein M, Ferdos KM and Shina N 2013 Application of Electrocoagulation Process for Dairy Wastewater Treatment Journal of Chemistry 1-8 640139 http://dx.doi.org/10.1155/2013/640139 [15] Holt P K, Barton G W, Wark M and Mitchell C A 2006 The future for electrocoagulation as a localized water treatment technology Chemosphere 59 35-36 [16] Ghalwa N M A, Saqer A M and Farhat N B 2016 Removal of reactive Red 24 dye by clean electrocoagulation process using Iron and Aluminum electrodes J. Chem. Eng. Process. Technol 7 269 Doi:10.4172 / 2157-7048.1000269 [17] Hadiwidodo M, Haryono S H and Indrasarimmawati 2009 Penurunan warna, COD dan TSS limbah cair industri tekstil menggunakan teknologi dielectric barrier discharge dengan variasi tegangan dan flow rate oksigen Jurnal PRESIPITASI ISSN 1907-187 7 2 16-22 [18] Setianingrum NP, Agus P and Sarto 2017 Pengurangan zat warna Remazol Red Rb menggunakan metode elektrokoagulasi secara batch JURNAL REKAYASA PROSES 11 2 78-85 [19] Atkins P W 1997 Kimia Fisika jilid 2 4 th ed. translator I I Kartodiprodjo (Jakarta: Penerbit Erlangga) [20] Sunarto 2008 Teknologi Pencelupan dan Pencapan 1 (Jakarta: Ministry of National Ed.) [21] Hao O J, Kim H and Chiang P-C 2000 Decolorization of Wastewater Critical Reviews in Environmental Science and Technology 30 4 449-505 DOI: 10.1080/10643380091184237
URL	:	doi:10.1088/1742-6596/1882/1/012111