DESAIN KOTAK PENGHANGAT MAKANAN DENGAN MEMANFAATKAN GAS BUANG SEPEDA MOTOR

  • Fadly Ahmad Kurniawan Nasution Universitas Harapan Medan
  • Muhammad Arifin Universitas Harapan Medan
Keywords: Warming box, Heat exchanger, cocopeat

Abstract

A warming box is a box that can store food and warm food on delivery services and can keep food warm until it reaches consumers. The system in this food heating box uses the principle of pipe heat to deliver heat coming from motorcycle exhaust gases to the food storage box on the delivery service. In the design of the food warming box, there are several layers in the box, including a layer of stainless stell plate, cocopeat insulator layer, aluminum layer, fiber layer. This food warming box has dimensions of 400 mm× 400 mm× 465 mm, from the design obtained the result of the design of the storage box in the form of the inner surface area of the storage box of 3832.9 〖cm〗^2 at each level. In this food warmer box, a heat exchanger is also used as a heat transfer device and has dimensions of 400 mm× 300 mm×100 mm.

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References

[1]
Harsokoesoemo, H. D. (2004). Pengantar Perancangan Teknik. Perancangan Produk), Edisi Kedua, Penerbit ITB, Bandung.
[2]
Jamaluddin, J. (2018). Perpindahan Panas dan Massa pada Penyangraian dan Penggorengan Bahan Pangan.
[3]
Bizzy, I., & Setiadi, R. (2013). Studi perhitungan alat penukar kalor tipe shell and tube dengan program heat transfer research inc.(HTRI). Jurnal Rekayasa Mesin Universitas Sriwijaya, 13(1), 67-76.
[4]
Sulaiman, I., & El Husna, N. (2012). Perpindahan Kalor dan Massa. Syiah Kuala University Press.
[5]
Holman, J. P. (2010). Heat Transfer Tenth Edition. Publisher" McGraw-Hill Education".
[6]
Wuryanti, S., & Iriani, P. (2018). Investigasi Experimental Konduktivitas Panas pada Berbagai Logam. JIIF (Jurnal Ilmu dan Inovasi Fisika), 2(1), 1-7.
[7]
Incropera, F. P., & DeWitt, D. P. (1981). Fundamentals of Heat Transfer John Wiley & Sons. New York, NY.
[8]
Kuppan Thulukkanam. (2013). Heat Exchanger Design Handbook, Second Edition (MECHANICAL ENGINEERING).
[9]
Shah, R. K., & Sekulic, D. P. (2003). Fundamentals of heat exchanger design. John Wiley & Sons.
[10]
Kamelia, L., Sukmawiguna, Y., & Adiningsih, N. U. (2017). RANCANG BANGUN SISTEM EXHAUST FAN OTOMATIS MENGGUNAKAN SENSOR LIGHT DEPENDENT RESISTOR (LDR). JURNAL ISTEK, 10(1).
[11]
Nayiroh, N. (2013). Teknologi material komposit. Universitas Islam Negeri Maulana Malik Ibrahim: Malang.
[12]
Kartini, R., Darmasetiawan, H., Karo, A. K., & Sudirman, S. (2018). Pembuatan Dan Karakterisasi Komposit Polimer Berpenguat Serat Alam. Jurnal Sains Materi Indonesia, 3(3), 30-38.
[13]
Tjahjanti, P. H. (2018). Buku Ajar Teori Dan Aplikasi Material Komposit Dan Polimer. Umsida Press, 1-24.
[14]
Marsono, M., Ali, A., & Luwis, N. (2019). Karakteristik Mekanik Panel Honeycomb Sandwich Berbahan Komposit Fibreglass dengan Dimensi Cell-Pitch 40mm dan Cell-Height 30mm. Rekayasa Hijau: Jurnal Teknologi Ramah Lingkungan, 3(2).
[15]
Mardijanti, D. S., Megantara, E. N., Bahtiar, A., & Sunardi, S. (2021). Turning the cocopith waste into myceliated biocomposite to make an insulator. International journal of biomaterials, 2021.
[16]
Syaifullah, A. (2014). Analisis Pengaruh Time Buff Terhadap Tingkat Kekasaran dan Kekerasan Permukaan Pada Proses EDM MP-50 Material Stainless Steel SUS 304. Engineering: Jurnal Bidang Teknik, 5(1).
[17]
Yunaidi, Y. (2016). Perbandingan Laju Korosi Pada Baja Karbon Rendah dan Stainless Steel Seri 201, 304, dan 430 Dalam Media Nira. Jurnal Mekanika dan Sistem Termal, 1(1), 1-6.
[18]
Ali, M., Abdullah, M. A., & Mawardi, I. (2012). Pengaruh Media Pendingin Terhadap Beban Impak Material Aluminium Coran”.
[19]
Pradana, M. A., & Widyartono, M. (2020). Prototipe Pembangkit LIstrik Termoelektrik Generator Menggunakan Penghantar Panas Aluminium, Kuningan Daan seng. Jurnal teknik elektro, 9(2).
Published
2021-10-29
How to Cite
[1]
F. A. Kurniawan Nasution and M. Arifin, “DESAIN KOTAK PENGHANGAT MAKANAN DENGAN MEMANFAATKAN GAS BUANG SEPEDA MOTOR”, Jurnal Simetri Rekayasa, vol. 3, no. 2, pp. 241-246, Oct. 2021.