Sustainable Solid Waste Management Strategies for Higher Education Institutions: Diponegoro University, Indonesia Case Study

Budihardjo, Mochamad Arief; Humaira, Natasya Ghinna; Putri, Soraya Annisa; Ramadan, Bimastyaji Surya; Syafrudin, Syafrudin; Yohana, Eflita

doi:10.3390/su132313242

Cited by 11 publications

(12 citation statements)

References 35 publications

(54 reference statements)

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“…The data used to calculate the percentage of waste burned using the 2006 IPCC Guideline default number of 0.6 included the annual number of residents, waste management distribution by burning, waste production, and percentage of waste burned. Equations can be used to determine the carbon emissions produced by open waste burning [28][29][30]. The amount of open waste burned was calculated by multiplying the total population of Demak City by the fraction of the population that carried out open burning and the fraction of waste burned by the amount of waste processed [28].…”

Section: Emissions From Open Waste Burningmentioning

confidence: 99%

Waste Management Strategy as an Effort to Reduce Emissions Due to Open Waste Burning: Demak Regency Case Study

Zaman,

Bagus Priyambada,

Budiharjo

et al. 2024

Pol. J. Environ. Stud.

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Waste management services in the Demak Regency only reached 35% in 2021, resulting in those without waste management services using outdated waste disposal methods such as littering, river dumping, hoarding, and open waste burning. Open waste burning activities are dangerous to the environment because they produce greenhouse gas (GHG) emissions, namely carbon dioxide (CO 2 ), methane (CH 4 ), and nitrous oxide (N 2 O), causing extreme climate change that affects land productivity. This study aims to develop a waste management plan to reduce emissions from open waste burning in the Demak Regency. A transect walk survey determined the waste burning point and the burned waste composition. IPCC 2006 is the basis for calculating emissions and determining emission-reduction strategies using the analytical hierarchy process (AHP). As a result, the projection of open burning of waste in the Demak Regency increases the amount of waste in open burning every year. In 2022, the projected emissions from open burning activities amounted to 48.69 Gg/year, and in 2031 to 55.08 Gg/year. After waste management, the emission rate due to open burning activities in 2022 will be 27.87 Gg/year, and in 2031 will be 31.53 Gg/year. There is a considerable decrease of 42.76%. Therefore, there is excellent potential for emissions reduction through improved waste management.

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Section: Emissions From Open Waste Burningmentioning

confidence: 99%

Waste Management Strategy as an Effort to Reduce Emissions Due to Open Waste Burning: Demak Regency Case Study

Zaman,

Bagus Priyambada,

Budiharjo

et al. 2024

Pol. J. Environ. Stud.

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“…University campuses are important generators of municipal solid waste [16]. The different activities of the population (e.g., students, teachers, administrators) in these institutions contribute to the increase in resource consumption patterns and, in turn, the effect that their waste generates on the environment directly or indirectly [17]. According to Budihardjo et al [17], these educational institutions must manage solid waste environmentally friendly, achieving institutional sustainability [18].…”

Section: Introductionmentioning

confidence: 99%

“…The different activities of the population (e.g., students, teachers, administrators) in these institutions contribute to the increase in resource consumption patterns and, in turn, the effect that their waste generates on the environment directly or indirectly [17]. According to Budihardjo et al [17], these educational institutions must manage solid waste environmentally friendly, achieving institutional sustainability [18]. There are some cases of higher education institutions that developed waste management plans [19][20][21], and many of them contemplated that it is essential to generate environmental awareness in students [22].…”

Section: Introductionmentioning

confidence: 99%

Design of a Solid Waste Separation, Valuation and Recycling Centre on a University Campus. Case Study

Merchán-Sanmartín¹,

Carrión-Mero²,

Suárez-Zamora³

et al. 2022

IJSDP

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Waste management is one of the main objectives today as a tool to reduce environmental pollution and ensure the health and well-being of people. The Escuela Superior Polité cnica del Litoral (ESPOL) university campus produces around 235.00 tons/year of garbage in Ecuador. In the quest to manage waste, the campus requires an entire infrastructure for its management and sustainable use. This work aims to design a separation, valuation, and recycling centre (SVRC), through technical criteria, for the sustainable management of solid waste. The methodology consists of: i) technical evaluation of the study area to define the SVRC location, ii) design of the collection and transportation route, and iii) architectural, structural, sanitary, and reference budget design of the SVRC. The SVRC structure was designed for an area of 146.37 m 2 . This civil work will act as a temporary waste collection centre with a processing capacity of 297.00 tons/year and, mainly, will optimize the volume of waste produced on the university campus, promoting reuse and recycling. Eleven internal routes and one main route were designed for garbage transportation. The methodology used in this study contributes to a solution to solid waste management at the level of universities and municipalities, which can be replicated at the national level.

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“…All wastes are still mixed. There is a center solid waste processing facility in Tembalang Campus to separate all waste before being sent to landfill (Budihardjo et al, 2021a).…”

Section: Introductionmentioning

confidence: 99%

Hazardous Solid Waste Management in Universitas Diponegoro: Planning Towards Environmental Sustainability

et al. 2022

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Universitas Diponegoro has a role in contributing to considerable numbers of hazardous solid waste from academic activities as it is the largest university in Central Java Province, Indonesia. Therefore, improper hazardous solid waste will cause potential disease for humans and pollute the environment. For this reason, proper hazardous solid waste management is urgently needed. This research aims to design hazardous solid waste management for Universitas Diponegoro as a pilot testing study. The research used questionnaires, surveys, in-depth interviews, and observations to construct an appropriate hazardous waste management system. The result showed that hazardous solid waste in Universitas Diponegoro came from 5 sources: education, office, laboratory, supporting facilities, and Pleburan Campus. The estimation of hazardous solid waste produced by the Universitas Diponegoro in 2021 is as much as 100.4 kg/day. The hazardous waste characteristics are toxic, corrosive, flammable, and infectious. In the hazardous management planning that was developed, the design of the waste transportation and storage system at the waste station in the Tembalang and Pleburan campuses has a total investment and operation cost of Rp 6,259,841,999 for 10 years of operation. This design is hoped to enhance the campus's achievement in sustainability efforts.

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Sustainable Solid Waste Management Strategies for Higher Education Institutions: Diponegoro University, Indonesia Case Study

Cited by 11 publications

References 35 publications

Waste Management Strategy as an Effort to Reduce Emissions Due to Open Waste Burning: Demak Regency Case Study

Waste Management Strategy as an Effort to Reduce Emissions Due to Open Waste Burning: Demak Regency Case Study

Design of a Solid Waste Separation, Valuation and Recycling Centre on a University Campus. Case Study

Hazardous Solid Waste Management in Universitas Diponegoro: Planning Towards Environmental Sustainability

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