PERENCANAAN DAN PEMBUATAN ALAT PENGGILING BUMBU PECEL BERTENAGA MOTOR BENSIN 5,5 HP

Planning And Manufacturing A 5.5 Hp Petrol Motor Powered Spice Grinder For Pecel

  • Anni fatmawati Politeknik Negeri Samarinda
  • Wajilan
  • Abdul Halik
https://doi.org/10.46964/mjibtm.v18i1.1406
Abstract views: 56 , pdf downloads: 48
Keywords: Mesin Penggiling Bumbu Pecel , Efisiensi Produksi, Motor Bensin 5.5 HP, Stainless Steel Food Grade A304

Abstract

Pengembangan mesin penggiling bumbu pecel yang diberdayakan oleh motor bensin 5,5 HP telah sangat meningkatkan efisiensi proses dalam produksi makanan lokal. Penelitian ini bertujuan untuk merancang dan menganalisis sebuah mesin yang memungkinkan pengguna menghemat waktu dan tenaga berharga selama proses penggilingan. Desain mesin ditentukan setelah melakukan survei lapangan untuk mengidentifikasi kebutuhan spesifik pengguna, menghasilkan mesin kompak dengan ukuran 1000 x 400 x 800 mm, yang dibangun dengan stainless steel food grade A304 untuk menjamin keselamatan dan kebersihan. Selama pengujian, ditemukan bahwa penggilingan lengkuas memerlukan waktu paling lama, yaitu (177,62 detik) dengan clearance 0,5 mm. Sebaliknya, penggilingan cabai dapat dilakukan dengan cepat hanya dalam (64,64 detik) dengan clearance 1,2 mm. Secara keseluruhan, temuan ini menegaskan manfaat signifikan mesin ini bagi usaha kecil dan menengah, yang mendorong produktivitas dan efisiensi operasional yang lebih baik

References

[1] B. Pokharel, R. Keerthi, and Z. Abunamous, “Advancements in Food Processing Technologies: Enhancing Safety, Quality, and Sustainability,” vol. 07, Jun. 2023.
[2] T. Hernández‐Pérez, M. Gómez‐García, M. Valverde, and O. Paredes-Lopez, “Capsicum annuum (hot pepper): An ancient Latin‐American crop with outstanding bioactive compounds and nutraceutical potential. A review,” Compr. Rev. Food Sci. Food Saf., vol. 19, Sep. 2020, doi: 10.1111/1541-4337.12634.
[3] A. Mcelhatton, Modernization of Traditional Food Processes and Products. 2016. doi: 10.1007/978-1-4899-7671-0.
[4] D. Caldwell, Robotics and Automation in the Food Industry: Current and Future Technologies. 2012.
[5] P. P. Aradwad, A. K. T V, P. K. Sahoo, and I. Mani, “Key issues and challenges in spice grinding,” Clean. Eng. Technol., vol. 5, p. 100347, 2021, doi: https://doi.org/10.1016/j.clet.2021.100347.
[6] K. Abdel-Aziz, “Mechanical Properties Improvements of the Materials Used in Manufacturing of Food Processing Equipment’s and Containers Using Different Techniques,” Asian J. Appl. Sci. Technol., vol. 7, pp. 156–175, Jan. 2024, doi: 10.38177/ajast.2023.7416.
[7] Y. Chauhan and C. Philosophers, “Culinary Creativity Unleashed: A Review of Innovative Techniques in Food Gastronomy.,” vol. 1, pp. 37–46, Nov. 2023.
[8] I. S. Saguy, C. L. M. Silva, and E. Cohen, “Innovative curriculum strategies for managing the future of food science, technology and engineering education,” J. Food Eng., vol. 392, p. 112474, 2025, doi: https://doi.org/10.1016/j.jfoodeng.2025.112474.
[9] Y. Nugroho, M. A. Soendjoto, Suyanto, J. Matatula, S. Alam, and P. Y. A. P. Wirabuana, “Traditional medicinal plants and their utilization by local communities around Lambung Mangkurat Education Forests, South Kalimantan, Indonesia,” Biodiversitas, vol. 23, no. 1, pp. 306–314, 2022, doi: 10.13057/biodiv/d230137.
[10] A. Rochmah et al., “Sensory Profile, Water Content, Fat Content and Antioxidant Activity of Pecel Sauce with Black Garlic Addition,” J. Food Agric. Prod., vol. 5, pp. 144–151, Mar. 2025, doi: 10.32585/jfap.v5i1.6394.
[11] S. Roohinejad, O. Parniakov, N. Nikmaram, R. Greiner, and M. Koubaa, “6 - Energy Saving Food Processing,” C. M. B. T.-S. F. S. from A. to I. Galanakis, Ed., Academic Press, 2018, pp. 191–243. doi: https://doi.org/10.1016/B978-0-12-811935-8.00006-8.
[12] S. J. Forsythe and P. R. Hayes, “Design of food processing equipment BT - Food Hygiene, Microbiology and HACCP,” S. J. Forsythe and P. R. Hayes, Eds., Boston, MA: Springer US, 2000, pp. 232–275. doi: 10.1007/978-1-4757-5254-0_7.
[13] G. Saravacos and A. E. Kostaropoulos, “Design and Selection of Food Processing Equipment BT - Handbook of Food Processing Equipment,” G. Saravacos and A. E. Kostaropoulos, Eds., Cham: Springer International Publishing, 2016, pp. 51–85. doi: 10.1007/978-3-319-25020-5_2.
[14] E. Olutomilola, S. Ayodeji, M. Adeyeri, and T. Fagbemi, “Development and Performance Evaluation of a Pulverizer for Plantain Flour Process Plant,” Prod. Eng. Arch., vol. 27, pp. 223–231, Sep. 2021, doi: 10.30657/pea.2021.27.30.
[15] J. B. Kirabira, M. Ssembatya, and A. Ayor, “Materials Selection and Fabrication Practices for Food Processing Equipment Manufacturers in Uganda,” Int. J. Sci. Technol. Res., vol. 6, no. 08, pp. 338–346, 2017.
[16] O. Corigliano and A. Algieri, “A comprehensive investigation on energy consumptions, impacts, and challenges of the food industry,” Energy Convers. Manag. X, vol. 23, p. 100661, 2024, doi: https://doi.org/10.1016/j.ecmx.2024.100661.
Published
2025-05-29
Issue
Vol. 18 No. 1 (2025): Mei
Section
Articles

Copyright (c) 2025 Mekanik: Jurnal Ilmiah Bidang Teknik Mesin

Creative Commons License

This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.