Repository Universitas Pakuan

Detail Karya Ilmiah Dosen

Pengki Irawan, Wahyu Gendam Prakoso, Roh Santoso Budi Waspodo

Judul : River Capacity for Sectoral Water Pollution Loads (Case Study: Cilamajang River) City of Tasikmalaya

Abstrak :
The increasing population in the city of Tasikmalaya has an impact on increasing the pace of development in various sectors. population growth and changes in land use have resulted in current environmental conditions in a number of areas in the city of Tasikmalaya showing a decline in quality. This is due to the increased use of natural resources including the use of surface water sourced from river water. Cilamajang River is a Ciwulan sub-basin located in the city of Tasikmalaya. The area of the Cilamajang watershed reaches 29.53 km2 . Simulation of discharge using 15-year FJ Mock series method data provide a minimum discharge of the Cilamajang River of 474.95 Liters/second. Simulation of discharge and loading of pollution in 2018 has exceeded water quality standards according to PP 82 of 2001, BOD parameters are 131.72 mg/L, the COD parameter is 1.41 mg/L and the TSS parameter is 91.41 mg/L. This condition must receive serious attention for the local government in managing the water environment

Tahun : 2020 Media Publikasi : Prosiding

Kategori : Prosiding No/Vol/Tahun : 012022 / 477 / 2020

ISSN/ISBN : 1755-1315

PTN/S : Universitas Siliwangi Program Studi : TEKNIK SIPIL

Bibliography :
[1] Suriawiria, Unus. 2003. Air dalam Kehidupan dan Lingkungan yang Sehat. Penerbit Alumni. Bandung.

[2] Manik, K. E. S, 2016, PengelolaanLingkunganHidup, Djambatan, Jakarta

[3] Saraswati, P. S., Sunyoto, Kironoto, B. A., &Hadisusanto, S. 2013. Kajian Bentuk dan SensitivitasRumusIndeks PI, Storet, CCME UntukPenentuan Status MutuPerairan Sungai Tropis di Indonesia. Manusia dan Lingkungan, 21, 129-142.

[4] Azwir. 2006. Analisa Pencemaran Air Sungai Tapung Kiri oleh LimbahIndustriKelapaSawit PT. PeputraMasterindo di KabupatenTanggerang. Tesis. UniversitasDipenogoro, Semarang

[5] Effendi, H. 2003. TelaahKualitas Air: BagiPengelolaanSumberDayaAlam dan LingkunganPerairan. PenerbitKanisius, Yogyakarta

[6] Iskandar. (2007). Panduan PelatihanPengelolaanKualitas Air

[7] Sihotang, Hotland, Purwanto, M Yanuar JWidiatmaka and Basuni, Sambas. 2012. Model KonservasiSumberdaya Air DanauToba. JurnalPengelolaanSumberdayaAlam dan Lingkungan

[8] WayanSutapa, I.2015. Study water availability of malino river to meet the need of water requirement in District Ongka Malino, central sulawesi of Indonesia. International Journal of Engineering and Technology

[9] Sutapa, I. Wayan, Bisri, Moh., RispiningtatiMontarcih, and LilyModeling. 2015. Discharge of the Bangga Watershed under Climate Change. Jurnal Applied Mechanics and Materials

[10] Wulandari,W.Tarigan, and Ahmad PerwiraMulia. 2013. AnalisisKebutuhan Air dan BangunanKantong Lumpur Di Daerah IrigasiPayaSordangKabupatenTapanuli Selatan. Jurnal Teknik Sipil USU

[11] Siahaan, Ratna, Indrawan, and AndrySoedharma. 2011. Kualitas Air Sungai Cisadane ,Jawa Barat - Banten (Water Quality of Cisadane River , West Java - Banten). JurnalImliahSains

[12] Prayogo, Tri Budi. 2015. AnalisisKualitas Air dan StrategiPengendalianPencemaran Air Sungai Metro di Kota KepanjenKabupaten Malang. Journal PAL

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Detail Karya Ilmiah Dosen

Pengki Irawan, Wahyu Gendam Prakoso, Roh Santoso Budi Waspodo

Judul	:	River Capacity for Sectoral Water Pollution Loads (Case Study: Cilamajang River) City of Tasikmalaya
Abstrak	:	The increasing population in the city of Tasikmalaya has an impact on increasing the pace of development in various sectors. population growth and changes in land use have resulted in current environmental conditions in a number of areas in the city of Tasikmalaya showing a decline in quality. This is due to the increased use of natural resources including the use of surface water sourced from river water. Cilamajang River is a Ciwulan sub-basin located in the city of Tasikmalaya. The area of the Cilamajang watershed reaches 29.53 km2 . Simulation of discharge using 15-year FJ Mock series method data provide a minimum discharge of the Cilamajang River of 474.95 Liters/second. Simulation of discharge and loading of pollution in 2018 has exceeded water quality standards according to PP 82 of 2001, BOD parameters are 131.72 mg/L, the COD parameter is 1.41 mg/L and the TSS parameter is 91.41 mg/L. This condition must receive serious attention for the local government in managing the water environment
Tahun	:	2020	Media Publikasi	:	Prosiding
Kategori	:	Prosiding	No/Vol/Tahun	:	012022 / 477 / 2020
ISSN/ISBN	:	1755-1315
PTN/S	:	Universitas Siliwangi	Program Studi	:	TEKNIK SIPIL
Bibliography	:	[1] Suriawiria, Unus. 2003. Air dalam Kehidupan dan Lingkungan yang Sehat. Penerbit Alumni. Bandung. [2] Manik, K. E. S, 2016, PengelolaanLingkunganHidup, Djambatan, Jakarta [3] Saraswati, P. S., Sunyoto, Kironoto, B. A., &Hadisusanto, S. 2013. Kajian Bentuk dan SensitivitasRumusIndeks PI, Storet, CCME UntukPenentuan Status MutuPerairan Sungai Tropis di Indonesia. Manusia dan Lingkungan, 21, 129-142. [4] Azwir. 2006. Analisa Pencemaran Air Sungai Tapung Kiri oleh LimbahIndustriKelapaSawit PT. PeputraMasterindo di KabupatenTanggerang. Tesis. UniversitasDipenogoro, Semarang [5] Effendi, H. 2003. TelaahKualitas Air: BagiPengelolaanSumberDayaAlam dan LingkunganPerairan. PenerbitKanisius, Yogyakarta [6] Iskandar. (2007). Panduan PelatihanPengelolaanKualitas Air [7] Sihotang, Hotland, Purwanto, M Yanuar JWidiatmaka and Basuni, Sambas. 2012. Model KonservasiSumberdaya Air DanauToba. JurnalPengelolaanSumberdayaAlam dan Lingkungan [8] WayanSutapa, I.2015. Study water availability of malino river to meet the need of water requirement in District Ongka Malino, central sulawesi of Indonesia. International Journal of Engineering and Technology [9] Sutapa, I. Wayan, Bisri, Moh., RispiningtatiMontarcih, and LilyModeling. 2015. Discharge of the Bangga Watershed under Climate Change. Jurnal Applied Mechanics and Materials [10] Wulandari,W.Tarigan, and Ahmad PerwiraMulia. 2013. AnalisisKebutuhan Air dan BangunanKantong Lumpur Di Daerah IrigasiPayaSordangKabupatenTapanuli Selatan. Jurnal Teknik Sipil USU [11] Siahaan, Ratna, Indrawan, and AndrySoedharma. 2011. Kualitas Air Sungai Cisadane ,Jawa Barat - Banten (Water Quality of Cisadane River , West Java - Banten). JurnalImliahSains [12] Prayogo, Tri Budi. 2015. AnalisisKualitas Air dan StrategiPengendalianPencemaran Air Sungai Metro di Kota KepanjenKabupaten Malang. Journal PAL
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