تعداد نشریات | 31 |
تعداد شمارهها | 744 |
تعداد مقالات | 7,078 |
تعداد مشاهده مقاله | 10,174,175 |
تعداد دریافت فایل اصل مقاله | 6,866,629 |
Green technology's function in the production of renewable energy and mineral extraction | ||
Caspian Journal of Environmental Sciences | ||
دوره 22، شماره 1، فروردین 2024، صفحه 93-102 اصل مقاله (871.75 K) | ||
نوع مقاله: Research Paper | ||
شناسه دیجیتال (DOI): 10.22124/cjes.2023.6759 | ||
نویسندگان | ||
Andi Haslinah1؛ Thamrin Thamrin2؛ Tirsa Neyatri Bandrang3؛ Taryana Taryana4؛ Tungga Bhimadi Karyasa5؛ Bambang Purwoko6؛ Andiyan Andiyan* 7 | ||
1Universitas Islam Makassar, Makassar, South Sulawesi, Indonesia | ||
2Institut Transportasi dan Logistik Trisakti, Jakarta, Indonesia | ||
3Politeknik Seruyan, Seruyan, Indonesia | ||
4Politeknik Penerbangan Indonesia Curug, Tangerang, Indonesia, | ||
5Universitas Gajayana, Malang, Indonesia | ||
6Universitas W.R. Supratman, Surabaya, East Java, Indonesia | ||
7Universitas Faletehan, Bandung, West Java, Indonesia | ||
چکیده | ||
The rise in the global population has led to an increase in energy requirements. In addition to the prospect of a future energy crisis resulting from the depletion of fossil fuel reserves, the provision of energy that continues to rely on nonrenewable resources, leads to a decline in environmental support capacity owing to CO2 gas pollution. Bioenergy derived from microalgae is a potential future fuel source. Bioenergy development of microalgae is seen as having several benefits, including plentiful resources, ease of development, a high oil content with the potential to be produced as biofuels, the ability to grow in a variety of water and waste conditions, and the ability to cut CO2 emissions. This research was conducted using a combination of literature analysis and prior study observations. The findings indicate that microalgae have enormous potential for development as bioenergy and may aid in the resolution of environmental issues, particularly those associated with the reduction of CO2 emission gases and the decrease of pollutant levels in liquid waste. | ||
کلیدواژهها | ||
Energy crisis؛ Nonrenewable؛ Environmental؛ Microalgae؛ Bioenergy | ||
مراجع | ||
Adebayo, TS, Kartal, MT, Ağa, M & Al-Faryan, MAS 2023, Role of country risks and renewable energy consumption on environmental quality: Evidence from MINT countries. Journal of Environmental Management, 327, 116884. PMID: 36473361 DOI: 10.1016/j.jenvman.2022.116884.
Agatha Olivia, V & Resinta, S 2022, Adopting renewable energy for future of Indonesia’s economic growth. Retrieved from antaranews website: https://en.antaranews.com/news/230673/adopting-renewable-energy-for-future-of-indonesias-economic-growth?cv=1.
Ali, S, Yan, Q, Razzaq, A, Khan, I & Irfan, M 2023, Modeling factors of biogas technology adoption: a roadmap towards environmental sustainability and green revolution. Environmental Science and Pollution Research, 30: 11838-11860.
Andiyan A, Putra, RM, Rembulan, GD & Tannady, H 2021, Construction Project Evaluation Using CPM-Crashing, CPM-PERT and CCPM for Minimize Project Delays. Journal of Physics: Conference Series, 1933: 12096. https://doi.org/10.1088/1742-6596/1933/1/012096.
Arwani, A, Wijaya, S, Laitupa, MF, Mustafa, MSr, Chakim, MHR, Pattinaja, EM & Andiyan, A 2022, Contribution of sharia accounting characters in anti-corruption culture. Journal of Intercultural Communication, 22: 77-85, https://doi.org/10.36923/jicc.v22i4.46.
Aryza, S, Wibowo, P & Saputra, D 2022, A process control tool design heating biodiesel production from oil based on arduino mega. Proceeding International Conference Keputeraan Prof. H. Kadirun Yahya, 1: 119-128.
Ashok, B & Nanthagopal, K 2019, Eco friendly biofuels for CI engine applications. In: Advances in eco-fuels for a sustainable environment (pp. 407-440). Woodhead Publishing. https://doi.org/10.1016/B978-0-08-102728-8.00015-2 .
Creswell, JW & Creswell, JD 2017, Research design: Qualitative, quantitative, and mixed methods approaches. Sage publications.
Darwanto, Agus. 2008 Renewable energy of Indonesia Indonesia’s renewable energy potential. Retrieved from adarwanto.blogspot.com website: https://adarwanto.blogspot.com/2008/09/general-indonesias-renewable-energy.html?cv=1.
Diddy Rusdiansyah, AD 2015, The study of investment opportunities in East Kalimantan Province (Cassava Elephant, Waste Palm Oil and Coconut). Retrieved from https://dpmptsp.kaltimprov.go.id/ storage/download/fe3120cc88ff945df2a03d16578e3c3e.pdf?cv=1.
Erdiwansyah, E, Mahidin, M, Husin, H, Nasaruddin, N, Khairil, K, Zaki, M & Jalaluddin, J 2021, Investigation of availability, demand, targets, economic growth, and development of Renewable Energy in 2017-2050: A case study in Indonesia. International Journal of Coal Science & Technology, 8: 483-499.
Excitonindo, E 2010, IAEA Admits Indonesia's Readiness to Build Nuclear Power Plants and Government's Plans for Nuclear Power Plants. Retrieved from excitonindo website: https://excitonindo.wordpress.com /2010/10/31/iaea-akui-kesiapan-indonesia-bangun-pltn-dan-rencana-pemerintah-tentang-pltn/?cv=1.
Greengrowth, G 2023, 5 Facts on Financing Renewable Energy Mix Target by 2025. Retrieved from bappenas website: http://greengrowth.bappenas.go.id/en/5-facts-on-financing-renewable-energy-mix-target-by-2025/?cv=1.
Gunawan, D 2023, 3 ways Indonesia could make 2023 a turning point in its clean energy transition. Retrieved from theconversation.com website: https://theconversation.com/amp/3-ways-indonesia-could-make-2023-a-turning-point-in-its-clean-energy-transition-198088?cv=1.
Guritno, B, Dewi, RS, Arianti, F, Utama, AS, Norvadewi, N, Anggara, O & Andiyan, A 2023, Culture of Islamic economic principles and democracy and welfare based on Pancasila Ideology. Journal of Intercultural Communication, 23: 55-65, https://doi.org/10.36923/jicc.v23i1.43.
Jiakui, C, Abbas, J, Najam, H, Liu, J & Abbas, J 2023, Green technological innovation, green finance, and financial development and their role in green total factor productivity: Empirical insights from China. Journal of Cleaner Production, 382, 135131.
Kalita, P, Basumatary, B, Saikia, P, Das, B, & Basumatary, S 2022, Biodiesel as renewable biofuel produced via enzyme-based catalyzed transesterification. Energy Nexus, 100087.
Knothe, G & Razon, LF 2017, Biodiesel fuels. Progress in Energy and Combustion Science, 58: 36-59. https://doi.org/10.1016/j.pecs.2016.08.001.
Kojima, H, Nagasawa, K, Todoroki, N, Ito, Y, Matsui, T & Nakajima, R 2023, Influence of renewable energy power fluctuations on water electrolysis for green hydrogen production. International Journal of Hydrogen Energy, 48: 4572-4593.
Kumar, GS, Priyadarshini, R, Parmenas, N, Tannady, H, Rabbi, F & Andiyan, Andiyan. 2022 Design of optimal service scheduling based task allocation for improving CRM in cloud computing. 2022 6th International Conference on I-SMAC (IoT in Social, Mobile, Analytics and Cloud; I-SMAC), pp. 438-445. IEEE.
Munawaroh, AS, Jajuli, A, Persada, AAB, Rohayati, Y, Andiyan, A, & Cardiah, T 2022, Application of passive cooling design concept as an effort to reduce climate change. AIP Conference Proceedings, 2563(1), 80012. AIP Publishing LLC.
Orege, JI, Oderinde, O, Kifle, GA, Ibikunle, AA, Raheem, SA, Ejeromedoghene, O, ... & Daramola, MO 2022, Recent advances in heterogeneous catalysis for green biodiesel production by transesterification. Energy Conversion and Management, 258: 115406.
Pertamina, p 2016, Embracing Change, Leveraging Challenges. Retrieved from https://www.pertamina.com/ media/5e70a57f-e2ec-4429-bbfe-292af2fbb7db/AR_Pertamina_2016.pdf?cv=1.
Putro, DY 2022, Indonesia’s new renewable energy transition towards G20 Presidency. PhD Dissertation, Chonnam National University, 5 p.
Ramzan, M, Razi, U, Quddoos, MU & Adebayo, TS 2023, Do green innovation and financial globalization contribute to the ecological sustainability and energy transition in the United Kingdom? Policy insights from a bootstrap rolling window approach. Sustainable Development, 31: 393-414.
Rijal, S, Cakranegara, PA, Ciptaningsih, EMSS, Pebriana, PH, Andiyan, A & Rahim, R 2023, Integrating information gain methods for feature selection in distance education sentiment analysis during Covid-19. TEM Journal, 12: 285-290, https://doi.org/10.18421/TEM121-35.
Rosyidah, M, Andiyan, A, Listyorini, H, Prayitno, PH, Yuswardi, Y & Yuhanah, Y 2022, LCA methodology for detecting environmental impacts on natural gas drilling process. IOP Conference Series: Earth and Environmental Science, 1041(1), 12035. https://doi.org/10.1088/1755-1315/1041/1/012035.
Rosyidah, M, Khoirunnisa, N, Rofiatin, U, Asnah, A, Andiyan, A & Sari, D 2022, Measurement of key performance indicator Green Supply Chain Management (GSCM) in palm industry with green SCOR model. Materials Today: Proceedings, 63: S326-S332, https://doi.org/10.1016/j.matpr.2022.03.158.
Rumkel, N Asriany, S & Harbelubun, MM 2018, Alternative energy policy model based on local potential in West Halmahera Regency, Indonesia. Journal of Energy Technologies and Policy, 8: 16.
Sharif, A, Kocak, S, Khan, HHA, Uzuner, G & Tiwari, S 2023, Demystifying the links between green technology innovation, economic growth, and environmental tax in ASEAN-6 countries: The dynamic role of green energy and green investment. Gondwana Research, 115: 98-106.
Singh, AK, Raza, SA, Nakonieczny, J & Shahzad, U 2023, Role of financial inclusion, green innovation, and energy efficiency for environmental performance? Evidence from developed and emerging economies in the lens of sustainable development. Structural Change and Economic Dynamics, 64: 213-224.
Sungkawaningrum, F, Hartono, S, Holle, MH, Gustiawan, W, Siskawati, E, Hasanah, N & Andiyan, A 2022, Determinants of community decisions to lend money to loaners. International Journal of Professional Business Review, 7: e0510–e0510. https://doi.org/10.26668/businessreview/2022.v7i3.510.
Widya Yudha, S & Tjahjono, B 2019, Stakeholder mapping and analysis of the renewable energy industry in Indonesia. Energies, 12: 602. | ||
آمار تعداد مشاهده مقاله: 448 تعداد دریافت فایل اصل مقاله: 584 |