Hasan, Ali Hidayat (2024) ANALISIS KINERJA PENGADUK DAN PERPINDAHAN PANAS MESIN MELTER PLASTIK KAPASITAS 10 KILOGRAM PLASTIK HIGH DENSITY POLYETHYLENE (HDPE) DENGAN SISTEM PEMANAS HEATER TYPE SPIRAL. Other thesis, Universitas Nahdlatul Ulama Al Ghazali.
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Abstract
Mesin melter plastic adalah alat yang dapat digunakan untuk mendaur ulang plastic menjadi bentuk atau produk yang dapat digunakan kembali dan fungsi mesin melter plastic antara lain pembuatan paving block plastic. Adapaun tujuan dari penelitian ini sebagai berikut : (1). Mengetahui kinerja pengaduk pada mesin melter plastic kapasitas 20 liter. (2). Mengetahui analisis perpindahan panas pada mesin melter plastic kapasitas 20 liter. metode kuantitatif merupakan penelitian yang banyak menuntuk penggunaan angka mulai dari pengumpulan data, penafsiran terhadap data tersebut serta penampilan dari hasilnya. Hasil penelitian ini bawasanya pengaduk mengalami kemacatan dan Mesin melter plastik melelehkan sebanyak 3,6 kg plastik dan mencapai temperatur 295 O C dalam waktu 119 menit. Hasil Perpindahan panas tabung mesin melter plastik Konduksi alas bawah tabung : 593,7112 Watt, tabung mesin melter plastic : 144,93 Watt, Perpindahan panas konveksi dalam tabung : 5,74312908 Watt, Perpindahan panas radiasi dari dinding luar tabung ke lingkungan : 3,817 Watt dengan. Jumlah total energi panas Q total : 748,20 Watt. Saran dari penulis untuk yang akan merancang dan membuat mesin melter plastik harus memperhitungkan beban plastik yang akan di aduk dan menggunakan bahan isolasi yang baik supaya panas tidak keluar dari dalam tabung dan dapat meleburkan plastik lebik baik dan efisien.
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A plastic melter machine is a tool that can be used to recycle plastic into forms or products that can be reused and the function of a plastic melter machine includes making plastic paving blocks. The objectives of this research are as follows: 1. To determine the performance of the stirrer on a plastic melter machine with a capacity of 20 liters. 2. Understand the analysis of heat transfer in a plastic melter machine with a capacity of 20 liters. Quantitative methods are research that requires a lot of use of numbers starting from data collection, interpretation of the data and the appearance of the results. The results of this research were that the stirrer experienced a jam and the plastic melter machine melted 3.6 kg of plastic and reached a temperature of 295 O C in 119 minutes. Results of heat transfer from the plastic melter machine tube. Conduction at the bottom of the tube: 593.7112 Watts, plastic melter machine tube: 144.93 Watts, Convection heat transfer in the tube: 5.74312908 Watts, Radiation heat transfer from the outer wall of the tube to the environment: 3.817 Watts with. Total amount of heat energy Q total: 748.20 Watts. The author's advice to those who want to design and make a plastic melter machine is to take into account the load of plastic that will be mixed and use good insulating material so that heat does not escape from the tube and can melt the plastic better and more efficiently.
Item Type: | Thesis (Other) |
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Additional Information: | Hasan Ali Hidayat (19212011012) |
Uncontrolled Keywords: | Mesin Melter, Plastic, Pengaduk, Perpindahan panas Melter Machine, Plastic, Stirrer, Heat Transfer |
Subjects: | T Technology > T Technology (General) T Technology > TP Chemical technology |
Divisions: | Fakultas Teknologi Industri (FTI) > Prodi Teknik Mesin (TMES) |
Depositing User: | Teguh Wibowo |
Date Deposited: | 25 May 2024 12:47 |
Last Modified: | 25 May 2024 12:47 |
URI: | http://eprints.unugha.ac.id/id/eprint/262 |