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Journal of Community Based Environmental Engineering and Management
Published by Universitas Pasundan
ISSN : -     EISSN : 25979736     DOI : -
Core Subject : Health, Education, Social, Engineering,
Engineering Environmental Science Public Health Other
Journal of Community Based Environmental Engineering and Management (JCBEEM) adalah jurnal yang fokus pada hasil kajian atau penelitian terkait berbagai teknologi dan manajemen lingkungan berbasis komunitas.
Arjuna Subject : -
Articles 7 Documents
 1 
Search results for , issue "Vol. 9 No. 2 (2025): September 2025" : 7 Documents clear
Changes in Waste Management Behavior in Supporting the Implementation of Green Economy in MSMEs Rusliati, Ellen; Lisda, Ruslina; Mulyatna, Lili; Ratiningsih, Saniyyah; Nurpauziah, Puspa
Journal of Community Based Environmental Engineering and Management Vol. 9 No. 2 (2025): September 2025
Publisher : Department of Environmental Engineering - Universitas Pasundan - Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.23969/jcbeem.v9i2.29436

Abstract

The green economy is an economic concept that aims to improve welfare and social justice and reduce environmental risks. The purpose of this program is to measure the implementation of the green economy in Cimincrang Village, to control waste at the source, and the application of green technology, with local government partners and PKK (Pemberdayaan Kesejahteraan Keluarga/Family Welfare Empowerment) cadres, and the subjects are MSMEs (Micro and Small, and Medium Enterprises). The method used was environmental reevaluation, data obtained through observation, interviews, questionnaire distribution, and secondary data support. Programs carried out include: (1) education and communication, (2) community involvement, (3) incentive programs, and (4) policies and regulations. The results show that the understanding of PKK cadres as guardians of the commitment to behavior change was better than MSMEs. Initial conditions show that MSMEs' understanding of waste management and the green economy is in good condition, and has increased to very good. Indicators that are still needed to be improved include: (1) sorting waste is an easy job, (2) owning loseda, (3) bringing bags/tumblers/food boxes when shopping, (4) reminding others to sort waste, (5) green economy can improve the quality of life, (6) reducing single-use plastic packaging, (7) awareness that we borrow the environment from the next generation, (8) community awareness to protect the environment. Changes in the behavior of maggot house managers are supported through facilitation of the oven provision, training implementation, and motivational encouragement, in the form of sustainability measures, so that maggot houses obtain funds for development and improvement.
PM2.5 and Heavy Metal Concentrations in Ambient Air of a Steel Industrial Zone: Influence of Meteorological Factors in Cilegon, Indonesia Prinajati, Purnomosutji Dyah; Handayani, Lidia; Astuti, Nila
Journal of Community Based Environmental Engineering and Management Vol. 9 No. 2 (2025): September 2025
Publisher : Department of Environmental Engineering - Universitas Pasundan - Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.23969/jcbeem.v9i2.29461

Abstract

This study was to examine the concentrations of PM2.5 and associated heavy metals (Fe, Pb, Zn, and Cd) in the ambient air of a steel industrial zone in Cilegon, Indonesia. Cilegon is recognized as a major industrial hub; however, comprehensive assessments of PM2.5 pollution in such heavy industry contexts remain limited. Air samples were collected from four strategic locations surrounding PT Krakatau Steel using a Sequential PM Sampler, and meteorological data were simultaneously recorded. Gravimetric analysis was applied to determine PM2.5 mass, while heavy metals were quantified via Inductively Coupled Plasma–Atomic Emission Spectroscopy (ICP-AES). The results of the study indicate that the concentrations of PM2.5 and related heavy metals (Fe, Pb, Zn, and Cd) in the ambient air of steel industry areas often exceed the WHO guideline (25 µg/m³) and, in some instances, approached or surpassed the Indonesian national standard (65 µg/m³), with higher values typically observed during periods of active industrial operations. Among the metals analyzed, iron (Fe) was dominant, indicating a strong link to steel processing activities. Spearman's correlation revealed a statistically significant positive relationship between ambient temperature and PM2.5 concentrations, while no significant correlation was found for relative humidity. These findings highlight the health risks associated with prolonged exposure to fine particulate matter and toxic metals, underscoring the urgent need for targeted air quality management and worker protection strategies in industrial zones. The study contributes local-scale evidence for environmental governance and public health policy in rapidly industrializing regions.
Assessing the Cause of Food Waste Behavior of Consumers at Food Courts in Banyumas, Indonesia: Intention to Reduce Food Waste as a Mediator Rahman, Zulham; Romadlon, Fauzan
Journal of Community Based Environmental Engineering and Management Vol. 9 No. 2 (2025): September 2025
Publisher : Department of Environmental Engineering - Universitas Pasundan - Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.23969/jcbeem.v9i2.30948

Abstract

Food waste is a global hindrance to sustainable food systems. In Indonesia, a lot of food suitable for consumption is wasted annually. In 2023, Banyumas Regency was dominated by the most significant portion of food waste, with a daily volume of 541.80 tons. Food waste comes from hotels, restaurants, and trade sectors, such as food court areas. Therefore, this study aims to analyze factors influencing consumers' food waste behavior at food courts in Banyumas Regency. The method used was quantitative, with 410 respondents, and this research employed structural equation modeling-partial least squares (SEM-PLS). The factors influencing food waste generation include food choice, food literacy, social influence and normative behavior, food ordering routine, intention to reduce food waste, and food waste behavior. The results show that food choice and food literacy have a significant relationship with intention to reduce food waste (IR), and IR has a significant relationship with food waste behavior (FWB). The result also shows that IR mediates the relationship between Food choice (FC) and FWB, and IR mediates the relationship between food literacy (FL) and FWB. Food choice and literacy play a significant role in shaping the intention to reduce food waste. This contributes to the literature on avoiding food waste behavior by emphasizing the importance of cognitive (food knowledge) and affective (food preferences) influences on changing more sustainable consumption behavior. The food court manager can develop visual campaigns in the area, train consumers, and provide flexible food portions that suit customer needs to minimize food waste.
Effectiveness of the Combination of Moving Bed Biofilm Reactor, Adsorption and Fenton Oxidation to Reduce Batik Waste Water Pollution Ningrum, Dwi Mulyati; Hendrasarie, Novirina
Journal of Community Based Environmental Engineering and Management Vol. 9 No. 2 (2025): September 2025
Publisher : Department of Environmental Engineering - Universitas Pasundan - Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.23969/jcbeem.v9i2.31216

Abstract

Batik wastewater has a high organic and color content, requiring special treatment to meet environmental quality standards. This wastewater has an initial BOD5 of 605.405 mg/L, COD 714 mg/L, TSS 360 mg/L, and Pt-Co color of 992.2, far exceeding the quality standards. This study aimed to determine the effectiveness of a Moving Bed Biofilm Reactor (MBBR) combination with rice husk geopolymer-based adsorption and Fenton oxidation post-treatment in removing pollutants from Sidoarjo batik wastewater. Variations in HRT, adsorbent mass, MBBR media type, and chemical ratio were the independent variables in this study. The results showed that the MBBR-adsorption treatment unit performed better than the MBBR without adsorption. The MBBR-adsorption unit with wood charcoal media, HRT 48 hours, and adsorbent mass 20 grams were the most optimal conditions for reducing COD and BOD5, with removal values of 93.6% and 95.8%, respectively. Meanwhile, the most optimal color and TSS removal was achieved with a 48-hour HRT MBBR adsorption, Kaldness K3 media, and 20 grams of adsorbent mass, with values of 90.3% and 94.4%, respectively. The addition of the Fenton process after the MBBR adsorption process increased the efficiency of TSS and color removal, with a FeSO₂:H₂O₂ ratio of 1:3, resulting in a 50% increase in TSS and 52.2% increase in color removal.
The Effectiveness of the Electrocoagulation Process in Reducing TDS Concentration in Brackish Water in Subang Regency Afiatun, Evi; Yustiani, Yonik Meilawati; Pradiko, Hary; Rahayu, Giga Galuh; Suju, Anis Dwiantoro
Journal of Community Based Environmental Engineering and Management Vol. 9 No. 2 (2025): September 2025
Publisher : Department of Environmental Engineering - Universitas Pasundan - Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.23969/jcbeem.v9i2.32579

Abstract

Brackish water is a water resource that has the potential to be used as raw water, but has limitations due to high levels of total dissolved solids (TDS) This study aims to analyze the effectiveness of the electrocoagulation method in reducing these pollutant parameters in brackish water samples from Subang Regency. The groundwater samples were taken in the area of the Diniyah Takmiliyah Awaliyah Islamic Madrasa School. The research was conducted using a prototype electrocoagulation device with a pair of aluminum plates, varying voltages (10, 12, 14, and 15 volts), varying flow rates (0.06 L/second and 0.08 L/second), and conditions with and without a plate settler in the sedimentation unit. The results showed that increasing the voltage significantly reduced TDS levels. The highest efficiency was achieved at 10 volts with a flow rate of 0.06 L/second, reducing TDS from 3,400 mg/L to 3,110 mg/L (8.5%). Meanwhile, the lowest efficiency was achieved at 12 volts with a flow rate of 0.08 L/second, at 2.1%. Overall, this study confirms that electrocoagulation can be an alternative brackish water treatment technology in coastal areas. Although the TDS reduction efficiency is still limited, this method can be further developed as part of an integrated system to support sustainable clean water availability.
Evaluation of Drinking Water Treatment Plant Design at Badan Layanan Umum Daerah (BLUD) Drinking Water Treatment Plant Shalahuddin Nur, Adila; Sururi, Mohamad Rangga; Ramadhan, Anugrah
Journal of Community Based Environmental Engineering and Management Vol. 9 No. 2 (2025): September 2025
Publisher : Department of Environmental Engineering - Universitas Pasundan - Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.23969/jcbeem.v9i2.30219

Abstract

This study evaluated the performance of the BLUD Drinking Water Treatment Plant (WTP) in Cimahi to identify parameters exceeding national standards and assess design and operational adequacy. Raw water quality did not comply with PP No. 22/2021 for BOD (11.9 mg/L), COD (24.1 mg/L), detergent (0.426 mg/L), fecal coliform (4.27 × 10⁷ MPN/100 mL), total coliform (1.14 × 10⁶ MPN/100 mL), nitrite (0.093 mg/L), sulfate (0.328 mg/L), TSS (88 mg/L), and zinc (0.061 mg/L). Treated water failed Permenkes No. 2/2023 for color (22.5 TCU) and residual chlorine (0.16 mg/L), while negative removals were observed for fluoride, manganese, nitrite, TDS, and color. Evaluation revealed several design flaws: bar screen spacing of 25 mm and thickness of 10 mm (required 4–8 mm and 25–50 mm); coagulation with constant PAC dosing (18 mg/L) without jar testing; flocculation detention time of 22 min with constant velocity gradients (30.5 s⁻¹) instead of 30–45 min with decreasing gradients; sedimentation with detention time of 0.97 h and surface loading of 3.75 m³/m²·h (required 1.5–3 h and 3.8–7.5 m³/m²·h); filtration with backwash velocity of 41.86 m/h and duration of 5 min (required 46–50 m/h and 10–15 min); and disinfection with velocity gradient of 111 s⁻¹ (required ~500 s⁻¹). Revised designs included reducing bar spacing to 8 mm and thickness to 50 mm, implementing routine jar testing, extending flocculation detention to 30.1 min with step-down gradients (34–26 s⁻¹), deepening sedimentation basins to 6 m (detention 1.54 h, surface loading 3.87 m³/m²·h), increasing backwash velocity to 46.56 m/h for 10 min, and installing a static mixer (G = 1427 s⁻¹) for chlorine application. These improvements are expected to enhance removal efficiency, eliminate negative removals, and ensure compliance with Indonesian drinking water standards.
Integrated Environmental Management for Nickel Mining Communities in Papua Ramandei, Lazarus; Wanane, Yohanis Yulius
Journal of Community Based Environmental Engineering and Management Vol. 9 No. 2 (2025): September 2025
Publisher : Department of Environmental Engineering - Universitas Pasundan - Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.23969/jcbeem.v9i2.32341

Abstract

Nickel mining in Papua has experienced rapid expansion to meet global electric vehicle demand, yet poses significant environmental impacts on local communities. This research aims to develop and evaluate an integrated environmental management model that combines electrocoagulation technology, indigenous knowledge systems, and ecosystem restoration strategies to address wastewater pollution and environmental degradation from nickel mining activities. A mixed-method approach was employed with wastewater quality analysis, ecosystem damage mapping, and indigenous community participation evaluation at three nickel mining sites in Raja Ampat, Southwest Papua. The integrated environmental management approach developed in this study consists of four main components: (1) electrocoagulation wastewater treatment system, (2) community-based environmental management using traditional sasi system, (3) phytoremediation using endemic Papuan plants, and (4) participatory monitoring and evaluation framework. Laboratory-scale electrocoagulation testing showed optimal heavy metal removal efficiency at 1.5 A current intensity, 90-minute contact time, and pH 7.5, achieving 95.2% nickel, 93.8% chromium, and 97.5% iron removal from mining wastewater. Implementation of community-based waste management systems using local wisdom sasi approach reduced environmental degradation by 68% and improved community welfare by 45%. The integrated ecosystem restoration model using endemic Papuan ferns demonstrated 78% effectiveness in soil and water quality recovery within 24 months. The research concludes that integrated environmental management approaches combining sustainable technology, community participation, and indigenous knowledge conservation can provide effective solutions to mitigate negative nickel mining impacts while supporting just clean energy transition.

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