Pollution Load Analysis of Wonokromo River with Program System Dynamics (STELLA)

Filial Dhiya Thifalina; Badrus Zaman; Anik Sarminingsih

doi:10.14710/presipitasi.v20i1.1-10

DOI: https://doi.org/10.14710/presipitasi.v20i1.1-10

Pollution Load Analysis of Wonokromo River with Program System Dynamics (STELLA)

*Filial Dhiya Thifalina

- Universitas Diponegoro, Indonesia

Badrus Zaman - Universitas Diponegoro, Indonesia

Anik Sarminingsih - Universitas Diponegoro, Indonesia

Citation Format:

Abstract

Population growth, the increase in the industrial sector and the presence of waste from activities that haven’t been treated properly can make a water river being contaimined high pollutants. The pollutant parameters identified is Total Suspended Solid (TSS), Biological Oxygen Demand (BOD), Chemical Oxygen Demand (COD), Dissolved Oxygen (DO) and E.Coli. One of the polluted rivers is Wonokromo River which is located in Surabaya City, according from monitoring results Balai Besar Wilayah Sungai (BBWS) Brantas in 2021 the pollutant value in river with TSS is 484 mg/L, BOD is 15.96 mg/L, COD 23.91 mg/L, DO 3.67 mg/L, and E.coli 4.283 MPN/100 ml from the monitoring data included polluted category. Depectin model of water river conditions using the STELLA program. The results indicate that the water quality of the Wonokromo River is polluted with the parameters TSS, BOD and E. Coli, determination refers to Goverment Regulations number 22 in 2021 about “Implementation of Environmental Protection and Management” in clasification II for raw water. So Wonokromo River is not suitable as a source of raw water in that year and a policy scenario is needed to reduce water river pollution.

Note: This article has supplementary file(s).

Fulltext View|Download | Research Results

Pollution Load Analysis Of Wonokromo River With Program System Dynamics (STELLA)

Subject	Water River Quality, Wonokromo River, Dynamic System, STELLA
Type	Research Results
	Download (1MB) Indexing metadata

Keywords: River water quality; wonokromo River; dynamic system; STELLA

Article Metrics:

Article Info

Section: Regional Case Study

Language : EN

In Vol 20, No 1 (2023): March 2023

Recent articles

Biofuel Successful Strategies towards Sustainable Development: A Bibliometrics Analysis Optimizing Utilization of Hazardous Waste and Biomass as Solid Fuel for Co-Firing Compost Quality of Compost Process Grass Waste with Composting Bin Method Nutrient Recovery from Agricultural Waste Water Using Electrocoagulation Process, A Case Study of Thekelan, Semarang, Indonesia Pollution Load Analysis of Wonokromo River with Program System Dynamics (STELLA) Potential of Heavy Metal Pollution (Cd) in the Kapuas Kecil River Risk Factor Analysis of Dust Exposure with Symptoms of Respiratory Disorder in Brick Industry Workers in Tegowanuh Sub-District, Kaloran District, Temanggung Regency More recent articles

Most cited articles

PENENTUAN CAMPURAN LUMPUR LAPINDO SEBAGAI SUBSTITUSI PASIR DAN SEMEN DALAM PEMBUATAN PAVING BLOCK RAMAH LINGKUNGAN Kajian Dampak Rencana Pembangunan Kawasan Wisata Marina di Pesisir Kabupaten Belitung terhadap Kualitas Lingkungan Sekitarnya PERKEMBANGAN BIOFILM NITRIFIKASI DI FIXED BED REACTOR PADA SALINITAS TINGGI KONSERVASI ENERGI BERBASIS RENEWABLE ENERGY TECHNOLOGY DENGAN PEMANFAATAN TEKNOLOGI MICROBIAL EVALUATION ON COMMUNITY BASED FOREST MANAGEMENT IMPLEMENTATION IN RANDUBLATUNG, BLORA More cited articles

Alihar, F. 2018. Penduduk akses air bersih di kota semarang. Jurnal Kependudukan Indonesia 13(1), 67-76
Arisandi, P 2014. Air, dua juta orang surabaya sulit mendapatkannya. Ecological Observation and Wetlands Conservation (Ecoton). Gresik
Chang, Tsai, Chen, Coynel & Vachaud. 2015. Modelling water quality in an urban river using hydrological factors. Journal of Enviromental Management 151 (Supplement C) 87-96
Chapra, S. C. 1997. Surface water-quality modelling. McGraw-Hill Companies, Inc, Singapore
Deaton, M. L. & Winebrake, J. J. 2012. Dynamic modeling of environmental systems. Springer Science & Business Media
Effendi, H. 2003. Telaah kualitas air bagi pengelolaan sumber daya dan lingkungan. Kasius Publisher. Yogyakarta
Gilad, B. 2003. Early warning: using competitive intelligence to anticipate market shifts, control risk, and create powerful strategies. American Management Association, New York. USA
Guneralp, B. and Barlas, Y. 2003. Dynamic modelling of a shallow freshwater lake for ecological and economic sustainability. Ecological Modelling 167, 115 – 138
Karnaningroem, N. and Putri, F. A. 2019. prediction of water pollution in kali surabaya river segment karang pilang - ngagel using STELLA model. Institut Teknologi Sepuluh Nopember, Surabaya
Karnaningroem, N. 2018. dissolved oxygen dynamic system model for the determination of the assimilating capacity at brantas river malang city. Institut Teknologi Sepuluh Nopember, Surabaya
Kementrian Lingkungan Hidup. 2003. Keputusan menteri lingkungan hidup nomor 115 tahun 2003 penentuan status mutu air dengan metode indeks pencemaran. Jakarta
Kementerian Lingkungan Hidup. 2010. Peraturan Menteri Negara Lingkungan Hidup Nomor 01 Tahun 2010 Tata Laksana Pengendalian Pencemaran Air. Kementerian Negara Lingkungan Hidup. Jakarta
Kementerian Lingkungan Hidup. 2011. Indeks kualitas lingkungan hidup indonesia 2010. Kementerian Negara Lingkungan Hidup. Jakarta
Khan, S. Yufeng, L. & Ahmad, A. 2009. Analysing complex behaviour of hydrological systems through a system dynamics approach. Environmental Modelling & Software 24 (12)
Kunc, M. 2016. System dynamics: a behavioral modeling method. Proceedings of the 2016 Winter Simulation Conference 53 – 64
Kurniawan, O. and Ngatilah, Y. 2017. Kebijakan perbaikan kualitas air sungai pegirikan dengan metode sistem dinamik. Surabaya
Mitsch, W., and Gosselink, J. 1993. Wetlands in water quality prevention, identification and management of disfuse pollution. Van Nostrand Reinhold, New York
Muhammadi, E. A. 2001. Analisis Sistem Dinamis. Jakarta
Novitasari, R. 2010. Mampukah kebijakan pergulaan nasional meningkatkan perolehan pendapatan petani tebu : sebuah penghampiran dinamika sistem. Institut Teknologi Sepuluh Nopember, Surabaya
Pavita, K. D., Widiatmono, B. R., and Dewi, L. 2017. Studi penentuan daya tampung beban pencemaran sungai akibat buangan limbah domestik (studi kasus kali Surabaya – Kecamatan Wonokromo). Brawijaya University, Malang
Pemerintah Daerah Provinsi Jawa Timur. 2008. Peraturan Daerah Jawa Timur Nomor 2 Tahun 2008 Pengelolaan Kualitas Air dan Pengendalian Pencemaran Air Di Provinsi Jawa Timur. Jawa Timur, Indonesia
Pemerintah Republik Indonesia. 2001. Peraturan pemerintah republik indonesia nomor 82 tahun 2001 pengelolaan kualitas air dan pengendalian pencemaran air. Indonesia
Qin, X. S., Huang, G. H., Zeng, G. M., Chakma, A., & Huang, Y. F., 2007. An interval – parameter fuzzy nonlinear optimization model for stream water quality management under uncertainty. European Journal of Operational Research 180(3), 1331-1357
Suwari. 2010. Model pengendalian pencemaran air pada wilayah Kali Surabaya. Bogor Agricultural University, Bogor
Salim, H. 2002. Beban pencemaran limbah domestik dan pertanian di DAS Citarum Hulu. Journal of Environmental Technology 2(3): 107-111
Standar Nasional Indonesia – SNI. 2008. Air dan Air Limbah. SNI 6989.57:2008 Bagian 57. Indonesia
Yudo, S and Said, N. I. 2019. Kondisi Kualitas Air Sungai Surabaya. South Tangerang
Xiang, N., Sha, J., Yan, J., & Xu, F. 2013 dynamic modeling and simulation of water environment management with a focus on water recycling. Water 6(1), 17-31

Last update:

No citation recorded.

Last update: 2025-12-14 16:47:03

No citation recorded.

The author sends the manuscript and understands that if the manuscript is accepted for publication, the copyright of the article will be given to Jurnal Presipitasi, Diponegoro University, as the journal publisher. Once accepted, the authors will receive a Copyright Transfer Agreement (CTA), which must be completed and submitted to Jurnal Presipitasi.

Copyright includes the exclusive right to publish and provide articles in all forms and media, including reprints, photographs, microfilms, and the like, as well as translations. The publication of every part of this journal, storage in databases, and distribution such as electronic, electrostatic, and mechanical copies, photocopies, records, magnetic media, etc., will be permitted only with written permission from Jurnal Presipitasi, Diponegoro University.

Jurnal Presipitasi, Diponegoro University, and the editors and Editorial of the International Advisory Board make every effort to ensure that no false or misleading data, opinions, or statements are published in the journal. The contents of articles published in Jurnal Presipitasi, Diponegoro University, are the sole and exclusive responsibility of each author.