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Please use this identifier to cite or link to this item: http://repository.ipb.ac.id/handle/123456789/158890
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dc.contributor.advisorHidiya, Miesriany-
dc.contributor.authortatsbita, anysah-
dc.date.accessioned2024-09-27T07:15:26Z-
dc.date.available2024-09-27T07:15:26Z-
dc.date.issued2024-
dc.identifier.urihttp://repository.ipb.ac.id/handle/123456789/158890-
dc.description.abstractAmpas tebu berpotensi untuk menurunkan kadar seng (Zn) dengan mengubahnya menjadi karbon aktif untuk menjernihkan air dan menurunkan kadar logam berat dalam air. Rancang bangun alat filtrasi memiliki sistem aliran downflow. Metode penelitian yaitu eksperimental dengan membut biomassa menjadi karbon aktif sebagai media filter. Media filter yang digunakan diantaranya silika, karbon aktif ampas tebu, karbon aktif tempurung kelapa dan pasir malang. Terdapat beberapa variasi berat karbon aktif yang digunakan yaitu sebesar 250 gram, 500 gram, 750 gram dan 1 kg. Tujuan dari penelitian yaitu membuat rancang bangun alat filtrasi air dan menganalisis efektivitas variasi adsorben karbon aktif dari ampas tebu dan tempurung kelapa. Penurunan kadar seng (Zn) terbesar ialah perlakuan 2 dengan karbon aktif tempurung kelapa sebanyak 1 kg. Nilai penyisihan terbesar sebesar 94.50% pada perlakuan 2 ulangan 2 dengan komposisi karbon aktif tempurung kelapa 1 kg dan terendah pada 89.50% pada perlakuan 5 ulangan 2 dengan komposisi 250 gram karbon aktif tempurung kelapa dan 750 gram karbon aktif ampas tebu. Rata-rata persen penyisihan keseluruhan 92.59%.-
dc.description.abstractBagasse has the potential to lower zinc (Zn) levels by converting it into activated carbon to purify water and lower heavy metal levels in water. Design and build filtration equipment has a downflow system. The research method is experimental by turning biomass into activated carbon as a filter medium. The filter media used include silica, bagasse activated carbon, coconut shell activated carbon and malang sand. There are several variations in the weight of activated carbon used, namely 250 grams, 500 grams, 750 grams and 1 kg. The purpose of the study was to design a water filtration device and analyze the effectiveness of variations of activated carbon adsorbents from bagasse and coconut shells. The largest decrease in zinc (Zn) content was treatment 2 with 1 kg of coconut shell activated carbon. The largest allowance value was 94.50% in the 2-replicate 2 treatment with an activated carbon composition of 1 kg coconut shell and the lowest at 89.50% in the 5-replicate 2 treatment with a composition of 250 grams of activated carbon from coconut shells and 750 grams of activated carbon from sugarcane bagasse. The average percentage of overall allowance is 92.59%.-
dc.description.sponsorshipnull-
dc.language.isoid-
dc.publisherIPB Universityid
dc.titlePembuatan Filter Air dengan Bioadsorben Karbon Aktif dari Ampas Tebu dan Tempurung Kelapa untuk Menurunkan Kadar Seng (Zn) di Sungai Kalimalangid
dc.title.alternativeMaking Water Filters with Activated Carbon Bioadsorbents from Sugarcane Bagasse and coconut shell to Reduce Zinc (Zn) Levels in Kalimalang River-
dc.typeTugas Akhir-
dc.subject.keywordkarbon aktifid
dc.subject.keywordFilter airid
dc.subject.keywordpenurunan kadar seng (Zn)id
dc.subject.keywordpersen penyisihanid
Appears in Collections:UT - Environmental Engineering and Management

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