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Program Studi Teknik Lingkungan Fakultas Teknik, Universitas Batanghari Jambi Jl. Slamet Ryadi, Broni-Jambi, Kodepos: 36122
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Jurnal Daur Lingkungan
Published by Universitas Batanghari Jambi
ISSN : -     EISSN : 26151626     DOI : http://dx.doi.org/10.33087/daurling
Core Subject : Engineering,
Control & Systems Engineering
Jurnal Daur Lingkungan is a scientific journal published regularly twice a year in February and August by Program Studi Teknik Lingkungan Universitas Batanghari (Department of Environmental Engineering, Univesity of Batanghari). Jurnal Daur Lingkungan is published media for research results of environmental engineering field focusing on environmental management and pollution controll such as latest idea, concept and technology. These results are published in such an original scientific articel and a review. Submitted manuscript must be original, no plagiat and unpublished. Manuscript is submitted online via Open Journal System (OJS), must follow author guideline and writting template. All submission will be blind reviewed by qualified reviewers in their field.
Arjuna Subject : Teknik (semua kategori) - Teknik Kontrol dan Sistem
Articles 113 Documents
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Cacing Tanah (Lumbricus Rubellus) Sebagai Agen Bioremediasi Tanah Tercemar Minyak Bumi dengan Penambahan Vermikompos Sebagai Bulking Agent Reynaldi Saputra; Lita Darmayanti; Muhardi Muhardi
Jurnal Daur Lingkungan Vol 5, No 2 (2022): Agustus
Publisher : Universitas Batanghari Jambi

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33087/daurling.v5i2.97

Abstract

Petroleum is one of natural resources. Provinsi Riau is one of the petroleum producers in Indonesia. Exploitationsuch as petroleum drilling can result in pollution on the lands in the area around drilling. One method of processing contaminated oil waste that is relatively economical, easy and environmentally friendly is bioremediation. This research aims to process oil-polluted soil with bioremediationusing vermikomposting techniques. The study was conducted by varying the ratio of the weight of polluted soil with vermikompos, 1:2; 1:1; 2:1 (b/b). Observations were made over 49 days. During the study pH values, temperature, and water content were observed. The results showed the best results in reactors with a ratio ofpolluted soil and vermikompos (1:2) w/w, with an additional 20 worms with an allowance efficiency of 85.19%. pH values during observation ranged from 7-8, temperatures were 25ºC, and water levels fluctuated from 81-141%. The addition of 5% of rice husks to reactors with polluted soil composition: vermikompos (1:2) can increase the efficiency of the allowance to 90.05%.
Penilaian Kualitas Air Zona Tengah Sungai Batanghari Jambi Lailal Gusri; Siti Umi Kalsum; Ratna Juwita
Jurnal Daur Lingkungan Vol 5, No 2 (2022): Agustus
Publisher : Universitas Batanghari Jambi

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33087/daurling.v5i2.142

Abstract

Good, clean, healthy and safe water quality is very important for the survival of humans and living creatures on earth. The application of the water quality index (WQI) method at a certain location and time can provide an assessment of water quality. This study took samples of water in the middle zone of Jambi Province which is at the Regencies: Tebo, Bungo, Sarolangun and Batanghari in order to test the water quality using Potential Hydrogen (pH), temperature, Dissolved oxygen (DO), Biological Oxygen Demand (BOD), turbidity, total phosphorus, nitrate nitrogen, E.coli and fecal coliforms as parameters. The purpose of the study was to identify river water pollutants level and to assess the ranking of the water quality index based on the application of the water quality index (WQI) method and the calculation of the CCME water quality index. The results of the test based on the water quality index method using the water quality index calculator for Tebo regency and Batanghari regency at rank 3 or moderate with the index is 53.72 and 53.28 respectively, while Bungo regency and Sarolangun regency are in rank 4 or bad with the index is 46.78 and 43.52, respectively. The overall water quality assessment for the middle zone is ranked 4 which is bad and the index is 49.77. While the calculation of the CCME water quality index shows the overall water quality of the middle zone is ranked 3, which is moderate and the index is 71.1. 
Analisis Pengaruh Limbah Domestik terhadap Kualitas Air Anak Sungai Asam G. M Saragih; Hadrah Hadrah; Ekki Prayoga
Jurnal Daur Lingkungan Vol 5, No 2 (2022): Agustus
Publisher : Universitas Batanghari Jambi

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33087/daurling.v5i2.115

Abstract

The Asam River is one of the tributaries located along the RT 15 area of Paal V Village, the Asam River crossing the residential area of this river has the potential to be polluted by domestic waste. Based on data on the water quality of the Asam River according to the Jambi City Environmental Service in 2020, the water quality of the Asam River has exceeded the surface water quality standard on the parameters of TSS, turbidity, pH, BOD, COD and ammonia. The purpose of the study was to determine the disposal of domestic wastewater and to determine the quality status of the acid river in terms of the pollution index method and to know the plan for controlling the pollution of the acid river with the influence of domestic waste. Based on the calculation of the status of the Asam River water quality, which was determined using the Pollution Index (IP) method, the points AP-1 (Upstream) and AP-2 (Downstream) were in a “Lightly Polluted” condition. This is because the results of the ammonia and turbidity parameter tests at the AP-1 (Upstream) and AP-2 (Downstream) points that exceed the established quality standards. Efforts to control river pollution can be carried out by making riparian buffer strips or planting vegetation on the banks of the Asam River. , the manufacture of communal WWTPs in every existing sub-district along the Asam River and tightening of wastewater quality standards for industrial and domestic activities which must not exceed the water quality standard according to its class.
Perbandingan Proses Pengolahan Air Secara Manual Dan Sistem Scada Perumda Tirta Mayang Kota Jambi Siti Umi Kalsum; Anggrika Riyanti; Adiba Alippia Zainanda
Jurnal Daur Lingkungan Vol 5, No 2 (2022): Agustus
Publisher : Universitas Batanghari Jambi

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33087/daurling.v5i2.154

Abstract

PERUMDA Drinking Water Tirta Mayang Jambi City has two processing systems, namely a manual system and SCADA system (suvervisory control and data aqustion) both systems have a manual processing capacity with a capacity of 300 l/d while the SCADA system with a capacity of 600 l/d. The result of the two water treatment systems show differences in terms of operating units and process units as well as water quality parameters include pH, residual chlorine and turbidity. The purpose of this research is to know the difference between manual system and SCADA system water treatment processat PERUMDA drinking water Tirta Mayang Jambi City. The method used is comparative quantitative analysis which compares the existence of one or more variables in two or more different samples, or at different times. The results showed that there was a significant difference in the burbidity parameter at a percentage of 10-40% between the manual system and the SCADA system, the effect of seasons also had an effect on turbidity. Where in the rainy seasons the quality of water turbidity increases significantly compared to the dry season.
Evaluasi Kinerja Ipal Produksi Industri Crumb Rubber (Studi Kasus: PT. X Kota Jambi) Marhadi Marhadi; Hadrah Hadrah; Sri Wahyudi
Jurnal Daur Lingkungan Vol 5, No 2 (2022): Agustus
Publisher : Universitas Batanghari Jambi

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33087/daurling.v5i2.118

Abstract

Wastewater treatment is the main element in the success of a business in environmental management and monitoring, for this reason it is necessary to carry out maintenance and evaluation so that the sustainability of environmental protection continues. The crude rubber industry (crumb rubber) generally processes rubber in several stages, starting from sorting raw materials, cleaning bokars, macro mixing, pre-drying, crushing, drying and pressing, of course, this produces waste. The research method is evaluating the quality of wastewater from each treatment unit at the WWTP production of crumb rubber, as well as evaluating the WWTP units based on design criteria that are planned and described analytic descriptively. upon admission, namely COD of 12.876 mg/L, TSS of 1.112 mg/L, BOD5 of 980 mg/L, Ammonia 2.3 mg/L, Nitrogen 96 mg/L, pH 6.3. The results at the outlet are COD 19.35 mg/L, TSS 58.67 mg/L, BOD5 35.1 mg/L, Ammonia 0.2 mg/L, Nitrogen 10 mg/L, pH 7. While the WWTP unit design inefficient in terms of design criteria, this is because the residence time is calculated too quickly, therefore it is necessary to analyze the suitability of dimensions in order to meet the required design criteria.
Evaluasi dan Redesain Instalasi Pengolahan Air Limbah (Studi Kasus: Hotel X Kota Jambi) Monik Kasman; Marhadi Marhadi; Imam Mahdi Azwar
Jurnal Daur Lingkungan Vol 5, No 2 (2022): Agustus
Publisher : Universitas Batanghari Jambi

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33087/daurling.v5i2.155

Abstract

Hotels produce wastewater as much as 80% of the total use of clean water, the wastewater is categorized as domestic wastewater. Hotel X is a 4-star hotel with a need for clean water of 64,396 m3/day and the waste water produced is 49.33 m3/day. Based on observations and evaluations, it was concluded that Hotel X's wastewater was treated at the WWTP with performance that was still not optimal. So that the method used in this research is descriptively analyzing primary and secondary data, then proceed with evaluation and redesign of certain WWTP units based on existing conditions in the field. Laboratory test results show that the parameters that do not meet the quality standards are TSS 136 mg/L, BOD5 56 mg/L, and COD 174 mg/L, so the units that need to be evaluated based on existing conditions consists of grit chamber units, equalizing tanks, anaerobic tank, aerobic tanks, sludge tanks and sedimentation tanks. Based on the results of the evaluation on the existing WWTP unit at Hotel X, there are WWTP units that need to be optimized, namely equalizing tanks and aerobic tanks, where the detention time exceeds the design criteria. Redesign of dimensional changes to the equalizing tank and aerobic tank units. Based on the calculation results, the detention time in the equalizing tank was 8.5 hours and in the aerobic tank 14.38 hours. The equalizing tank unit has been modified to a depth of 2 m to reduce detention time in the initial processing to 6.8 hours, while for the aerobic tank 2 unit, it is modified to a width of 2.5 m and a length of 2.5 m, the length and width of the aerobic tank unit 2 is equated with the size of tube 1 to reduce detention time in processing to 7.6 hours.
Pemetaan Sebaran Tempat Pembuangan Sampah Sementara (TPS) Secara Spasial di Kecamatan Alam Barajo Kota Jambi Maliki Maliki; G. M Saragih; Siti Umi Kalsum
Jurnal Daur Lingkungan Vol 5, No 2 (2022): Agustus
Publisher : Universitas Batanghari Jambi

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33087/daurling.v5i2.122

Abstract

Alam Barajo Subdistrict is a division of Kota Baru Subdistrict, Jambi City with the area covering Kenali Besar Village, Rawasari Village, Mayang Mangurai Village, Bagan Pete Village and Beliung Village. There are many TPS in this area, either on the side of the road, near rivers, bushes, or in locations in the form of concrete boxes and containers provided by the government. A tool to analyze the number of TPS in question using GIS with ArcMap 10.8 software. The problem taken is the number of distribution points of TPS locations. Based on the results of the analysis found 33 TPS locations. Rawasari Village found 7 TPS locations, Kenali Besar Village found 12 TPS locations, Beliung Village found 3 TPS locations, Bagan Pete Village found 4 TPS locations, and Mayang Mangurai Village found 7 TPS locations.
Analisis Daya Tampung Beban Pencemar Biochemical Oxygen Demand (Bod) dan Chemical Oxygen Demand (COD) di Sungai Tembuku Kota Jambi Menggunakan Model QUAL2KW Freddy Ilfan; Lailal Gusri; Winny L.C.H; Citra Rebekka Maulina Siregar
Jurnal Daur Lingkungan Vol 5, No 2 (2022): Agustus
Publisher : Universitas Batanghari Jambi

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33087/daurling.v5i2.145

Abstract

Tembuku River is one of the tributaries of Batanghari River in Jambi City which is located across Thehok Village to Simpang Lampu Merah Sijenjang-Pasar Kasang. Tembuku River has the highest pollution level compared to other tributaries with the BOD value of the upstream is 38,5 mg/l and downstream is 86 mg/l, the COD value of the upstream is 42,5 mg/l, and the downstream is 95 mg/l. This research was conducted to analyze the pollutant Load Capacity of Biochemical Oxygen Demand (BOD) and Chemical Oxygen Demand (COD) that can be received by Tembuku River using Qual2kw model. Qual2kw model is a recommendation model from Peraturan Menteri Negara Lingkungan Hidup no. 1 Tahun 2010 Tentang Tata Laksana Pengendalian Pencemaran Air to calculate the capacity of pollutant load. Based on the research and analysis, the result of pollutant load capacity in Tembuku River is the BOD parameter has 180,9216 kg/day in segment 1, 62,6249 kg/day in segment 2, and 319,3344 kg/day in segment 3, for COD parameter the pollutan load capacity is 815,4432 kg/day in segment 1, 103,52448 kg/day in segment 2, and 1699,7471 kg/day in segment 3. So the value of pollutant load capacity in all parameters and each segment has positive value stating the value of pollutant load capacity can be received by Tembuku River.
Analisis Konsentrasi dan Komposisi Kandungan Logam Pada Pm10 di Udara Roadside Saat Malam Hari (Studi Kasus: Jalan Hos Cokroaminoto Kota Jambi) Febri Juita Anggraini; Rizki Andre Handika; Zuli Rhodiyah; Deliana Septiani
Jurnal Daur Lingkungan Vol 5, No 2 (2022): Agustus
Publisher : Universitas Batanghari Jambi

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33087/daurling.v5i2.139

Abstract

Kegiatan transportasi merupakan salah satu kegiatan yang menyumbang sejumlah polutan ke atmosfer, dimana pembakaran bahan bakar dari kendaraan bermotor akan mengemisikan sejumlah polutan ke atmosfer. Kota Jambi sebagai ibukota dari Provinsi Jambi menjadikan Kota Jambi sebagai pusat kegiatan dari pemerintahan, perekonomian, pendidikan dan perindustrian, hal ini menyebabkan sektor transportasi di Kota Jambi semakin berkembang. Keberadaan aktifitas transportasi pada suatu wilayah akan berdampak pada kualitas udara pada daerah tersebut, begitu pula halnya dengan kualitas udara Kota Jambi. Tujuan dari penelitian ini adalah untuk mengetahui nilai konsentrasi PM10 dan komposisi unsur unsur logam di dalam PM10 pada saat malam hari yang bersumber dari  roadside salah satu jalan utama di Kota Jambi. Emisi PM10 pada penelitian ini diambil dengan menggunakan alat Nano Sampler. Analisa laboratorium untuk menentukan konsentrasi PM10 adalah menggunakan metoda gravimetri, sedangkan untuk analisa unsur unsur logam dilakukan dengan menggunakan Inductive Coupled Plasma-Mass Spectrometre (ICP-MS). Dari hasil penelitian ini didapatkan nilai konsentrasi PM10 berada pada rentang 117,72 – 157,50 µg/m3 dengan konsentrasi tertinggi dan terendah terjadi saat weekday dengan nilai konsentrasi rata-rata PM10 adalah sebesar 138,79 µg/m3 . Pada PM10 terdapat 16 jenis unsur logam yang ada di dalam PM10 yakni, Ag, As, B, Ca, Cd, Co, Cr, Cu, Fe, K, Mg, Mn, Na, Ni, Pb dan Zn dengan konsentrasi unsur logam tertinggi adalah unsur logam K dengan konsentrasi sebesar 0,8847 µg/m3 pada saat weekend dan sebesar 0,8561 µg/m3 pada saat weekday.
Aplikasi Pengolahan Limbah Batik Menggunakan Membran Keramik Berbiaya Rendah pada Kolom Batch Sarah Fiebrina Heraningsih; Oki Alfernando; Josua Sidauruk; Jesika Sinaga; Dinda Bectari; Enita Pitri; Fitri Nor Chasanah; Gabriel Adi Pratama Marpaung; Kasmiyanti Kasmiyanti; Maulidini Nabila; Mela Mauliani; Nur Sri Wahyuningsih; Riska Nofia Qona'a; Syafhira Putri Aulia
Jurnal Daur Lingkungan Vol 6, No 1 (2023): Februari
Publisher : Universitas Batanghari Jambi

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33087/daurling.v6i1.201

Abstract

Batik is a characteristic of Indonesian culture which in the manufacturing process will produce waste as a residue from the colouring process. The waste still has a high colour content so if it is not processed further it will pollute the environment. This study aims to synthesize ceramic membranes from low-cost materials and apply the use of these membranes to treat batik waste in a batch column. The variable used in this study is the processing cycle, the results of the first processing are put back into the batch column for up to 3 iterations. The parameters tested were pH, turbidity and colour testing. The results showed that the ceramic membrane was able to treat batik wastewater with a maximum turbidity rejection % of 86.67 % and a maximum % rejection of 67.51 %. Low-cost ceramic membranes are effective for use as an alternative for batik waste treatment.

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