Analisis Pengurangan Emisi Melalui Penggunaan Kendaraan Listrik di Universitas Jember
Keywords:
Net Zero Emission, Climate Change, ECO Campus, Electric VehicleAbstract
The climate change crisis that occurs in all parts of the world has become a trending topic in every discussion at various meetings of state officials. Lately, the world community, especially in Indonesia, has seen and felt the many abnormalities in each season and the many disasters that arise as a result of climate change. President Joko Widodo's submission at the 2021 UN Climate Change Conference (COP26) forum in Glasgow, Scotland targets Indonesia Net Zero Emission (NZE) in 2060 and is supported by Indonesian Presidential Instruction Number 7 of 2022 concerning the Use of Battery-Based Electric Motorized Vehicles as Operational Service Vehicles and / or Individual Service Vehicles for Central Government Agencies and Regional Governments. The purpose of this study was to determine how much the amount of emissions that can be reduced in each use of electric vehicles in the University of Jember area. The research method used is a literature study by collecting secondary data from articles, journals and other reliable literature. Secondary data used includes the number of employees of the University of Jember and motor vehicle emissions. The results showed that emissions generated from motorized vehicles by all employees of the University of Jember reached 6,742,553 kg.CO2 per year which could continue to increase along with the increase in motorized vehicles. The conclusion of the research is that one of the efforts to reduce emissions generated from conventional vehicles is the transition of motorized vehicles to electric vehicles that can support a significant reduction in carbon emissions in the campus environment. Therefore, policies are needed that encourage the use of electric vehicles as the main mode of transportation in the campus environment.
References
Abidin, J., Hasibuan, F. A., & Kunci, K. (2019). Pengaruh Dampak Pencemaran Udara Terhadap Kesehatan untuk Menambah Pemahaman Masyarakat Awam Tentang Bahaya dari Polusi Udara. Prosiding SNFUR-4, Pekanbaru, 7, 1-3.
Ananta, A., Alvin Hidayat, D., Early Al Husni, D., Fauzi Ramadhan, I., Triyono, I., Al Qossam, I., Duroh Rohmah, R., & Kesadaran dalam Penggunaan Kendaraan Listrik di Lingkungan Universitas Negeri Semarang Melalui Kampanye Energi Bersih, P. (2024). Peningkatan Kesadaran dalam Penggunaan Kendaraan Listrik di Lingkungan Universitas Negeri Semarang Melalui Kampanye Energi Bersih Sitasi. Jurnal Angka, 1(1), 120–134.http://jurnalilmiah.org/journal/index.php/angka
Audrey Ramadhina, & Fatma Ulfatun Najicha. (2022). Regulasi Kendaraan Listrik di Indonesia Sebagai Upaya Pengurangan Emisi Gas. Jurnal Hukum To-Ra : Hukum Untuk Mengatur Dan Melindungi Masyarakat, 8(2), 201–208. https://doi.org/10.55809/tora.v8i2.126
Azanza, V., Remache, Á., Ruiz, S., Reyes, G., & Castillo, A. (2021). Implementation of Electric Vehicles in The Internal Route of The International University of Ecuador. Journal of Sustainability Perspectives, 1(Iwgm 2020), 381–387. https://doi.org/10.14710/jsp.2021.12029
Baars, J., Domenech, T., Bleischwitz, R., Melin, H. E., & Heidrich, O. (2021). Circular economy strategies for electric vehicle batteries reduce reliance on raw materials. Nature Sustainability, 71-79.
Damayanti, A., Rohman, A., Dhokhikah, Y., Program Studi Teknik Lingkungan, M., Teknik, F., Jember, U., & Kalimantan, J. (2024). Emisi Gas Rumah Kaca (GRK) dari Kendaraan Bermotor di Kampus Tegalboto Universitas Jember. 1–13.
Darmoyono, I. (2024). Study on challenges and opportunities for electric vehicle development for land-based public transport sector in cities of Indonesia. https://repository.unescap.org/handle/20.500.12870/6777.
Dreeskandar, W., Rosmawaty, D., & Pandjaitan, H. (2020). Peluang Sosialisasi Edukatif Kendaraan Elektrik Melalui Kerja Sama Perguruan Tinggi dengan Produsen. Prosiding Konferensi Pendidikan Nasional “Strategi Dan Implementasi Pendidikan Karakter Pada Era Revolusi Industri 4.0”", 295–305.
Ferlia, S. A., Sudarti, S., & Yushardi, Y. (2023). Analisis Efisiensi Kendaraan Listrik Sebagai Salah Satu Transportasi Ramah Lingkungan Pengukuran Emisi Karbon. OPTIKA: Jurnal Pendidikan Fisika, 7(2), 356–365. https://doi.org/10.37478/optika.v7i2.3282.
Istiqomah, S., Sutopo, W., Hisjam, M., & Wicaksono, H. (2022). Optimizing Electric Motorcycle-Charging Station Locations for Easy Accessibility and Public Benefit: A Case Study in Surakarta. World Electric Vehicle Journal, 13(12). https://doi.org/10.3390/wevj13120232.
Lim, S. A., & Indrawati, L. (2019). Analisis Tarif Dan Besarnya Pajak Bahan Bakar Kendaraan Bermotor Di Indonesia. BIP’s JURNAL BISNIS PERSPEKTIF, 11(2), 104–122. https://doi.org/10.37477/bip.v11i2.17.
Sudjoko, C. (2021). Strategi Pemanfaatan Kendaraan Listrik Berkelanjutan Sebagai Solusi Untuk Mengurangi Emisi Karbon”, Jurnal Paradigma: Jurnal Multidisipliner Mahasiswa Pascasarjana Indonesia,. Jurnal Paradigma: Jurnal Multidisipliner Mahasiswa Pascasarjana Indonesia, 2(2), 54–68.
Zola, G., Siska, ;, Nugraheni, D., Andhien, ;, Rosiana, A., Dzamar, ;, Pambudy, A., & Agustanta, N. (2023). Inovasi kendaraan listrik sebagai upaya meningkatkan kelestarian lingkungan dan mendorong pertumbuhan ekonomi hijau di Indonesia. Ekonomi Sumberdaya Dan Lingkungan, 11(3), 2303–1220.
