Sumarno, Dimas Satrio (2025) STUDI EKSPERIMENTAL SHADING EFFECT SOLAR PANEL UNTUK PENGEMBANGAN LOW EMISION VEHICLES. S1 thesis, Fakultas Teknik Universitas Sultan Ageng Tirtayasa.

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Abstract

The number of motor vehicles, both public and private, has increased as a result of recent advances in automotive technology. The increase in the number of these vehicles has led to increased demand for oil fuel to operate, which in turn causes increased air pollution, especially in urban areas. By 2020, the Indonesian government supports electric vehicles as part of their efforts to reduce the use of fossil fuels. Currently, Presidential Decree No. 55 of 2019 has been issued to accelerate the battery-based vehicle program for land transport and to provide incentives to manufacturers and consumers to speed up the development and adoption of electric vehicles. Indonesia also has huge renewable energy potential, such as water (including minihydro), earth heat, biomass, wind, and solar energy, which is known to be clean and environmentally friendly. However, the exploitation of this potential is still not optimal.) The sun's radiation reaches a peak of 761 W/m2 producing a power of 22,3734 W. Once it reaches this peak, both the radiation and the power generated begin to decrease. The decrease in power after reaching the peak of radiation, even though the sun's radiation is still quite high, occurs on all charts. This phenomenon may be caused by factors such as an increase in the temperature of the solar panel which causes a decrease in efficiency or a limitation in the material efficiency of solar panels. The graph shows that the solar cell responds directly to changes in the intensity of light. The consistent power decreases after the peak of radiation indicate that the performance of solar panel can be affected by changes in environmental and material conditions. Solar panels work most effectively at high intensities of solar radiation. However, after reaching a certain point, solar panel efficiency can be reduced due to various external factors, such as temperature and material quality of a solar panel.

Item Type:	Thesis (S1)
Contributors:	Contribution Contributors NIP/NIM Thesis advisor PINEM, MEKRO PERMANA 198902262015041002 Thesis advisor LISTIJORINI, ERNY 197011022005012001
Additional Information:	Jumlah kendaraan bermotor, baik publik maupun swasta, telah meningkat sebagai hasil dari kemajuan terbaru dalam teknologi otomotif. Peningkatan jumlah kendaraan ini telah menyebabkan peningkatan permintaan untuk bahan bakar minyak untuk beroperasi, yang pada gilirannya menyebabkan peningkatan polusi udara, terutama di daerah perkotaan. Pada tahun 2020, pemerintah Indonesia akan mendukung kendaraan listrik sebagai bagian dari upaya mereka untuk mengurangi penggunaan bahan bakar fosil. Saat ini, Dekret Presiden No. 55 dari 2019 telah diterbitkan untuk mempercepat program kendaraan berbasis baterai untuk transportasi darat dan memberikan insentif kepada produsen dan konsumen untuk meningkatkan pengembangan dan adopsi kendaraan listrik. Indonesia juga memiliki potensi energi terbarukan yang besar, seperti air (termasuk minihydro), panas bumi, biomassa, angin, dan energi surya, yang dikenal bersih dan ramah lingkungan. Namun, pemanfaatan potensi ini masih belum optimal.) Radiasi matahari mencapai puncak 761 W/m2 menghasilkan kekuatan 22.3734 W. Setelah mencapai puncak ini, keduanya radiasi dan daya yang dihasilkan mulai menurun. Penurunan daya setelah mencapai puncak radiasi, meskipun radiasi matahari masih cukup tinggi, terjadi di semua grafik. Fenomena ini dapat disebabkan oleh faktor-faktor seperti peningkatan suhu panel surya yang menyebabkan penurunan efisiensi atau pembatasan efektivitas bahan dari panel matahari. Grafik menunjukkan bahwa sel surya merespon langsung terhadap perubahan intensitas cahaya. Kekuatan konsisten menurun setelah puncak radiasi menunjukkan bahwa kinerja panel surya dapat dipengaruhi oleh perubahan kondisi lingkungan dan material. Panel surya bekerja paling efektif pada intensitas tinggi radiasi matahari. Namun, setelah mencapai titik tertentu, efisiensi panel surya dapat berkurang karena berbagai faktor eksternal, seperti suhu dan kualitas bahan dari panel matahari.
Subjects:	Communication > Science Journalism T Technology > TJ Mechanical engineering and machinery T Technology > TK Electrical engineering. Electronics Nuclear engineering T Technology > TS Manufactures
Divisions:	03-Fakultas Teknik 03-Fakultas Teknik > 21201-Jurusan Teknik Mesin
Depositing User:	Dimas Satrio Sumarno
Date Deposited:	21 Aug 2024 09:03
Last Modified:	21 Aug 2024 09:03
URI:	http://eprints.untirta.ac.id/id/eprint/41169

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