ANALISIS PERBANDINGAN AIR LAUT,AIR PAYAU DAN AIR GARAM SEBAGAI PEMBANGKIT ENERGI LISTRIK ALTERNATIF

Dear, Muhamad (2025) ANALISIS PERBANDINGAN AIR LAUT,AIR PAYAU DAN AIR GARAM SEBAGAI PEMBANGKIT ENERGI LISTRIK ALTERNATIF. Sarjana (S1) thesis, Universitas Islam 45.

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Abstract

This research examines how much influence salt levels have on the voltage and current produced by electrolyte cells using magnesium and zinc electrodes. This research aims to find out how much influence salt content has on the voltage and current produced by salt water with salt variations of 18 gr, 36 gr and 72 gr, brackish water and sea water and also to find out the comparison of voltage and current produced by Pakis beach sea water. Jaya and brackish water milkfish cultivation ponds in the district. Karawang and salt water with salt variations of 18gr, 36gr and 72gr. In this research, magnesium electrodes were used as the anode and magnesium as the cathode, with each electrode's cross-sectional area being 10 cm². In this research, 4 cells were connected in series. In general, there are four stages in this research, starting from the stages of conducting literature studies, making experimental tools, data collection and data analysis. The salt content greatly influences the voltage and current produced, apart from the salt content the volume of water also influences the voltage and current produced. Where in the salt water solution the highest voltage is obtained with a water volume of 380 ml with a salt content of 100% in sea water. The highest voltage is obtained with a water volume of 380 ml with a salt content of 37%. A salt water solution with a voltage of 2.71 V and a current of 550mA is capable of turning on LED lights for approximately 12 hours and a sea water solution with a voltage of 2.59 V and a current of 360mA is capable of turning on LED lights for 8 hours.

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