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All Journal International Journal of Architecture and Urbanism INDONESIAN JOURNAL OF URBAN AND ENVIRONMENTAL TECHNOLOGY Journal of Sustainable Infrastructure
Nur Novilina Arifianingsih
Department of Environmental Engineering, Faculty of Civil and Environmental Engineering, Institut Teknologi Bandung, Bandung, Indonesia
Agriculture, Biological Sciences & Forestry Arts Humanities Chemical Engineering, Chemistry & Bioengineering Civil Engineering, Building, Construction & Architecture Energy Engineering Environmental Science Public Health Social Sciences Transportation

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Evaluation of an Urban Drainage Channel System on Tuamang Road, Medan Hugo S. V. Pasaribu; Hanna Swesy Marbun; Nur Sakinah; Nahesson Panjaitan; Nur Novilina Arifianingsih; Wisnu Prayogo
International Journal of Architecture and Urbanism Vol. 6 No. 2 (2022): International Journal of Architecture and Urbanism
Publisher : Talenta Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (865.606 KB) | DOI: 10.32734/ijau.v6i2.9693

Abstract

The population that continues to grow every time affects the total wastewater that is accommodated and channeled by drainage. This study aims to evaluate the existing condition of drainage dimensions on Tuamang Road, Medan. To determine whether the drainage can still channel the design wastewater discharge for the next 10, 20, and 30-year return periods or if it requires re-planning. The descriptive-evaluative method is used to evaluate drainage with stages starting from collecting data on population, annual rainfall, and measuring the dimensions of drainage channels; hydrological analysis, population projections for 10, 20, and 30-year; and evaluation of drainage channels. The research location is on Tuamang Road with a length of 1,200 m from Domestic House No. 130 to No. 101. The drainage system on Tuamang Road can still channel rainwater runoff and household waste for up to 10-year, based on analysis. 20 and 30-year, the dimensions must be enlarged to 1.0 m (bottom width) and 0.7 m (wet height of the channel). Cleaning sediment at the channel bottom must continue regularly to ensure the drainage system is working properly
THE CHARACTERISATION AND POLLUTANT LOAD OF GREYWATER CONTAINING PERSONAL CARE COSMETIC PRODUCTS (PCCPS) FOR BODY CARE Marisa Handajani; Indira Nathania Pamio; Mindriany Syafila; Nur Novilina Arifianingsih
INDONESIAN JOURNAL OF URBAN AND ENVIRONMENTAL TECHNOLOGY VOLUME 6, NUMBER 2, OCTOBER 2023
Publisher : Universitas Trisakti

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.25105/urbanenvirotech.v6i2.16833

Abstract

Personal Care Cosmetic Products (PCCPs) are used on the exterior of the body, such as the skin, nails, hair, lips, external genitalia, teeth, and oral membranes. Greywater from a bathing activity is a significant contributor to domestic wastewater quantity. The greywater contains residual substances from the rinsing process of body care products. Aim: This study will focus on the characteristic and the specific pollutant load of greywater generated from the usage of shower gel. Methodology and Results: The characterization and specific pollutant loads are conducted based on artificial greywater which is made from three brands of shower gel which is diluted in tap water. The greywater from body cleaning activities has a pH value in the range of 7.26-7.33; total phosphate in the range of 1.71-3.09 mg/L; the value of NTK total Kjedahl nitrogen in the range of 2.45-4.03 mg/L; total COD in the range of 380.97-506.16 mg/L; dissolved COD values in the range of 310.92-393.68 mg/L; TSS value in the range of 62-229.50 mg/L; and TDS values in the range of 283-376.67 mg/L. The specific pollutant load generated from shower gel usage in greywater are 0.012 g TP/person/day; 0.016 g TKN/person/day; 2.14 g Total COD/person/day; 1.59 g dissolved COD/person/day; 0.94 g/person/day for TSS; and 1.48 g/person/day for TDS. Conclusion, significance, and impact study: The Greywater from shower gel usage contains physical and chemical constituents that can promote environmental deterioration. The finding of this research will provide useful information for domestic wastewater management and system design, especially for urban areas in Indonesia.
Evaluation of Drainage Channel on Meteorological Road, Laut Dendang Village, Deli Serdang Regency Fikri Damara; Desi Paskalia Tinambunan; Sakkot Matua Gong Hasibuan; Rachmat Mulyana; Meuthia Fadila; Ahmad Zulfikar; Wisnu Prayogo; I Wayan Koko Suryawan; M. Faisi Ikhwali; Iva Yenis Septiariva; Nur Novilina Arifianingsih; Sapta Suhardono; Annisa Fillaeli
Journal of Sustainable Infrastructure Vol. 1 No. 2 (2022): Environmental Impact of COVID-19 Pandemic
Publisher : Fakultas Perencanaan Infrastruktur, Universitas Pertamina

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61078/jsi.v1i2.11

Abstract

Drainage is one way of removing unwanted excess water in an area and dealing with the effects of excess water in the system. When the rainy season comes, there are almost floods or puddles on urban roads. The large population also makes the volume of drainage channels fill up quickly, while the drainage capacity tends to decrease due to rainwater (erosion) and sedimentation. Meteorological Street, Laut Dendang Village, Percut Sei Tuan sub-district, Deli Serdang Regency, is one of the villages that is frequently flooded every time it rains. On these issues, the researcher highlights the importance of evaluating the Deli Serdang Regency's drainage system along Meteorological Road to anticipate when the rainy season comes. The general exponential method can determine whether the existing drainage volume can still accommodate terrestrial run-off and domestic wastewater in the next 30 years and calculate the population growth. Based on the research results from rainfall data obtained from Meteorology Road, the rainfall intensity value for the last ten years (2010 - 2019) was 10.538 mm/day. Thus, the amount of discharge flowing in the drainage channel (Qplansning) is equal to 0.832 m3/sec, while the planned Q for the next ten years is 0.874 m3/sec, for the next 20 years is 0.953 m3/sec, and 30 years into the future. front is 1.111 m3/sec. Based on the calculation results, Qplans exceeds Qeksisting. Therefore, a new channel plan is needed.
STATISTICAL ANALYSIS IN SELECTING THE BEST ELECTRODE BETWEEN ALUMINUM AND IRON IN TSS REMOVAL USING ELECTROCOAGULATION Mindriany Syafila; Muhammad Sonny Abfertiawan; Marisa Handajani; Faiz Hasan; Hanifah Oktaviani; Nur Novilina Arifianingsih
INDONESIAN JOURNAL OF URBAN AND ENVIRONMENTAL TECHNOLOGY VOLUME 6, NUMBER 2, OCTOBER 2023
Publisher : Universitas Trisakti

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.25105/urbanenvirotech.v6i2.17835

Abstract

Indonesia is a country that has considerable coal reserves with coal resources of 149.01 billion tons. One of the problems of coal mining is turbidity. The turbidity is caused by the excavation of the open pit mine so that rainwater contact with the main wall. So that mud is formed, which can increase turbidity levels. The concentration of Total Suspended Solids (TSS) due to this phenomenon reaches 5,400 mg/L. Aim: This study aims to set aside TSS by electrocoagulation processing method using a batch system with eight pairs of iron electrodes arranged monopolarly. Methodology and Results: Comparisons using statistically independent t-tests showed that there was no significant difference between the iron and aluminium electrodes in the pH parameter. Conclusion, significance, and impact study:There were significant differences between iron and aluminum electrodes in the parameters of TDS and TSS. In the measured TDS and TSS parameters, the electrocoagulation process using iron electrodes has a higher value than aluminum electrodes. In the TSS removal, there is no significant difference between the two electrodes (iron and aluminium).
EVALUATION OF ENHANCED SOLAR DESALINATION SYSTEM PROTOTYPE Iqbal, Rofiq; Putra, Daffa Reyhan Aldrien; Arifianingsih, Nur Novilina; Dwinandha, Dhimas
INDONESIAN JOURNAL OF URBAN AND ENVIRONMENTAL TECHNOLOGY VOLUME 7, NUMBER 2, OCTOBER 2024
Publisher : Universitas Trisakti

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.25105/urbanenvirotech.v7i2.20768

Abstract

Solar desalination technology has been one of the effective solutions to tackle the problem of water scarcity. A number of studies have been conducted at our water research group to determine which variable influences the quantity of distilled water produced by an independent solar desalination unit. Aims: This study was aimed to design and optimize a novel solar desalination unit and field-tested using the best variable from the previous studies. Methodology and results: Variables used from the previous studies were evaluated to obtain the best values for each parameter, those are: glass cover inclination, gap distance between water and glass cover, insulation thickness, water depth, and water mass flow rate. Those best values were then implemented in the optimized basin design, delivery mechanisms, evaporation techniques, and heat isolation methods. The optimized design can generate up to 2,778.2 mL/m2/8hrs of distilled water with an efficiency of 23.35% in preliminary test, and was field tested at Batukaras Beach, where it produced up to 902 mL/m2/8hrs with an efficiency of 13.56%. Conclusion, significance and impact study: Meteorological parameters and environmental conditions are important factors that greatly affect the performance and productivity of the desalination unit. The relative humidity is inversely proportional to the volume of distillate water, where the smaller the value, the greater the amount of distillate water that can be produced, and it has significant impact on the productivity of the prototype. The quality of the distillate water produced still needs improvement on the parameters of pH, turbidity, and total coliform.
Co-Authors Ahmad Zulfikar Annisa Fillaeli Desi Paskalia Tinambunan Dwinandha, Dhimas Faiz Hasan Fikri Damara Hanifah Oktaviani Hanna Swesy Marbun Hugo S. V. Pasaribu Indira Nathania Pamio Iva Yenis Septiariva M. Faisi Ikhwali Marisa Handajani Marisa Handajani Meuthia Fadila Mindriany Syafila Muhammad Sonny Abfertiawan Nahesson Panjaitan Nur Sakinah Putra, Daffa Reyhan Aldrien Rachmat Mulyana Rofiq Iqbal Sakkot Matua Gong Hasibuan Sapta Suhardono Suryawan, I Wayan Koko Wisnu Prayogo Wisnu Prayogo