Faradilah, Ayu Nur (2019) Analisis Distribusi Sebaran Panas Pada Muffle Furnace. Other thesis, Institut Teknologi Sepuluh Nopember.
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Abstract
Dalam peningkatan efisiensi proses produksi diperlukan sistem kendali yang baik. Salah satu contoh sistem kendali dalam bidang produksi adalah proses pemanasan muffle furnace. Sistem kerja pada muffle furnace dalam kondisi tertutup, sehingga sebaran panas didalamnya tidak dapat dilihat oleh mata. Agar dapat mengetahui distribusi sebaran panas didalam muffle furnace, maka perlu dilakukan pemodelan distribusi sebaran panas. Solusi dari distribusi sebaran panas dapat diselesaikan dengan persamaan Laplace menggunakan software GUI MATLAB. Dimensi dari muffle furnace yang dimodelkan adalah 37cmx20cmx18cm. Dengan menggunakan variasi suhu 200ºC, 400ºC, 600ºC, dan 800ºC. Diperoleh hasil ketika mencapai suhu T=200°C dibutuhkan waktu 540 detik dengan suhu yang berada di tengah berkisar 150ºC. Suhu T=400°C dibutuhkan waktu 1.800 detik dengan suhu yang berada di tengah berkisar 250ºC. Suhu T=600°C dibutuhkan waktu 2.400 detik dengan suhu yang berada di tengah berkisar 400ºC. Suhu T=800°C dibutuhkan waktu 3.000 detik dengan suhu yang berada di tengah berkisar 500ºC.
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In improving the efficiency of the production process a good control system is needed. One example of a control system in the field of production is the process of heating a muffle furnace. The work system on the muffle furnace is closed, so that the heat distribution inside it cannot be seen by the eye. In order to find out the distribution of heat distribution in the muffle furnace, it is necessary to do the distribution of heat distribution modeling. The solution of the heat distribution distribution can be solved with the Laplace equation using the MATLAB GUI software. The dimensions of the muffle furnace modeled are 37cmx20cmx18cm. By using temperature variations of 200ºC, 400ºC, 600ºC, and 800ºC. The results obtained when it reaches the temperature of T = 200 ° C takes 540 seconds with temperatures in the middle around 150ºC. The temperature of T = 400 ° C takes 1,800 seconds with the temperature in the middle around 250ºC. The temperature of T = 600 ° C takes 2,400 seconds with temperatures in the middle around 400ºC. Temperature T = 800 ° C takes 3,000 seconds with temperatures in the middle around 500ºC.
Item Type: | Thesis (Other) |
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Additional Information: | RSFi 621.402 5 Far a-1 |
Uncontrolled Keywords: | Heat Distribution, Muffle Furnace, Laplace Equation. |
Subjects: | Q Science > QC Physics > QC271 Temperature measurements Q Science > QC Physics > QC320 Heat transfer |
Divisions: | Faculty of Natural Science > Physics > 45201-(S1) Undergraduate Thesis |
Depositing User: | Ayu Nur Faradilah |
Date Deposited: | 25 Mar 2025 02:54 |
Last Modified: | 25 Mar 2025 02:54 |
URI: | http://repository.its.ac.id/id/eprint/65613 |
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