EFISIENSI DAN DAYA YANG DIBUTUHKAN PADA TUNGKU INDUKSI MAGNEIK UNTUK MENCAIRKAN LOGAM ALUMINIUM PADA TEMPERATUR750oC
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Institusion
Universitas Sriwijaya
Author
JULIFER YOGI PANOGARI SIHOMBING (STUDENT ID : 03051281520103)
Qomarul Hadi (LECTURER ID : 0013026905)
Qomarul Hadi (LECTURER ID : 0013026905)
Subject
TJ1-1570 Mechanical engineering and machinery
Datestamp
2020-09-28 02:23:16
Abstract :
This study aims to analyze the efficiency of the melting process and the amount of power required in a magnetic induction furnace with four different mass variables in aluminum metal smelting to reach a temperature of 750oC. The magnetic induction furnace itself is the result of the author's design with a maximum temperature of 1000oC and a maximum capacity of 500 grams of kowi. The method used in this study is to calculate the temperature difference in each component of the induction furnace including kowi, furnace cover, cross-section iron and refractory insulation. Then identify the amount of heat lost and needed at each melting then analyze the efficiency and power. As a result, the conclusion is that the efficiency and power of the magnetic induction furnace are directly proportional to the mass of aluminum metal. Aims to analyze the efficiency of the smelting process and the amount of power required in a magnetic induction furnace with four different mass variables in aluminum metal smelting to reach a temperature of 750oC . The magnetic induction furnace itself is the result of the author's design with a maximum temperature of 1000oC and a maximum capacity of 500 grams of kowi. The method used in this study is to calculate the temperature difference in each component of the induction furnace including kowi, furnace cover, cross-section iron and refractory insulation. Then identify the amount of heat lost and needed at each melting then analyze the efficiency and power. As a result, the conclusion is that the efficiency and power of the magnetic induction furnace are directly proportional to the mass of aluminum metal.
This study aims to analyze the efficiency of the melting process and the amount of power required in a magnetic induction furnace with four different mass variables in aluminum metal smelting to reach a temperature of 750oC. The magnetic induction furnace itself is the result of the author's design with a maximum temperature of 1000oC and a maximum capacity of 500 grams of kowi. The method used in this study is to calculate the temperature difference in each component of the induction furnace including kowi, furnace cover, cross-section iron and refractory insulation. Then identify the amount of heat lost and needed at each melting then analyze the efficiency and power. As a result, the conclusion is that the efficiency and power of the magnetic induction furnace are directly proportional to the mass of aluminum metal. Aims to analyze the efficiency of the smelting process and the amount of power required in a magnetic induction furnace with four different mass variables in aluminum metal smelting to reach a temperature of 750oC . The magnetic induction furnace itself is the result of the author's design with a maximum temperature of 1000oC and a maximum capacity of 500 grams of kowi. The method used in this study is to calculate the temperature difference in each component of the induction furnace including kowi, furnace cover, cross-section iron and refractory insulation. Then identify the amount of heat lost and needed at each melting then analyze the efficiency and power. As a result, the conclusion is that the efficiency and power of the magnetic induction furnace are directly proportional to the mass of aluminum metal.
File :
RAMA_21201_03051281520103.pdf
RAMA_21201_03051281520103_TURNITIN.pdf
RAMA_21201_03051281520103_0013026905_01_front_ref.pdf
RAMA_21201_03051281520103_0013026905_02.pdf
RAMA_21201_03051281520103_0013026905_03.pdf
RAMA_21201_03051281520103_0013026905_04.pdf
RAMA_21201_03051281520103_0013026905_05.pdf
RAMA_21201_03051281520103_0013026905_06_ref.pdf
RAMA_21201_03051281520103_0013026905_07_lamp.pdf
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