Spatial patterns of expertise suitability in the ruminant sub-sector of Subang Regency, West Java Province. Spatial distribution of epidemic of infectious diseases in the Soppeng Regency Basri, Tasrifin Tahara, Dinna Dayana La Ode Malim and La Ode Abdul Munafi. The seawater heavy metal content of the mine port near the residential area in the Morowali district.

Supporting Clean Energy in ASEAN: Policy Opportunities from Sustainable Jet Fuel Initiatives in Indonesia and Malaysia. Carbon emissions from the transport sector during the Covid-19 pandemic in the Special Region of Yogyakarta, Indonesia. Describing the characteristics of solid medical waste in the environment during the COVID - 19 pandemic: a case study Hospital X Covid-19 Referral in the city of Semarang N Himayati, T Joko and M ​​Raharjo.

Watershed health changes based on vegetation land cover in the upper Citarum watershed, West Java Province, Indonesia. Restoring the right to play in a child-friendly city to achieve SDG 11: the case of the city of Depok. Axiology of the phenomenon of "sustainable government administration" and Ukraine's interaction with international organizations in the field of environmental security.

The urgency of revising the law regarding the conservation of biological natural resources and its ecosystems in Indonesia. Implementation of forest conservation policies based on local wisdom of the Ammatoa Kajang indigenous community. The impact of the toll road development on the environment and ecosystem in Kukusan Village, Depok, West Java, 2015-2020.

IOP Conference Series: Earth and Environmental Science

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Analysis of the level of preparedness of the high school community to face the earthquake and tsunami in Lebak District, Banten Province. Any redistribution of this work must include attribution of the author(s) and the title of the work, journal citation, and DOI.

Planning of Waste Management using Zero Waste Approach at SMAN 14 Bandung, Indonesia

• Introduction
• Method
• Results and discussion
• Conclusion

Zero waste index (ZWI) is a tool to measure the potential of virgin materials that can be offset by zero waste management systems [3]. The first is to provide an application of ZWI for a school scale, and the latter was used for the first time as a basis for the future planning of waste management. Guided by the benefits of implementing ZWI [3], the improvement of the waste management system can be measured by means of an evaluation so that it can be continuously improved.

This study will discuss the improvement of school-scale waste management with the principle of zero waste based on a circular economy using ZWI: (i) energy that can be saved, (ii) reduction of greenhouse gases (GHG), (iii) saving the amount of water, and (iv) to calculate the reduction in costs caused by the implementation of the 3R principle. In this study, ZWI was conducted to evaluate the waste management of an educational institution. The waste management system of SMAN 14 Bandung, namely the storage phase, is divided into 2, namely organic and inorganic.

This means that around 68.70% of 37,544 wastes produced daily can be recycled from the waste management system. This means that approximately 80.10% of resources can be recovered from the amount of waste generated by the waste management system, which leads to replacement of natural materials is 30.088 kg per day. The waste management system at SMAN 14 Bandung can potentially replace the energy needs of 935.940 MJ per day.

Through the application of ZWI, it was found that it can be used as a basis for evaluation and can be used for waste management planning, leading to the reduction of school waste management costs in the future. However, waste management in SMAN 14 Bandung cannot be done to save water as it still consumes 232,019 l/day of water. This research is part of the development of the West Java Zero Waste Management Index being carried out by the West Java Research and Development Agency.

3] Zaman A U and Lehmann S 2013 The Zero Waste Index: a tool for measuring the performance of waste management systems in a 'zero waste city' J. 7] Zaman A U 2014 Measuring waste management performance using the 'Zero Waste Index': the case of Adelaide, Australia J. 10] Kasam, Mulya Iresha F and Ajie Prasojo S 2018 Assessment of Campus Solid Waste Management Using the “Zero Waste Index”: A Case Study at the Islamic University of Indonesia Campus MATEC Web Conf.

Table 1. SFi of the resource for the zero waste index. [3]

Arief Dhany Sutadian

JESSD-188

Planning of waste management using zero waste approach at SMAN 14 Bandung, Indonesia