Manufacturing and Testing of LPG Burner for Heating Stirling Engine Heater mCHPSE-012021

Authors

  • Muhammad Arif Hidayat Universitas Medan Area
  • Fatur Fadhillah Al Ridho Universitas Medan Area
  • Jufrizal Jufrizal Universitas Medan Area https://orcid.org/0000-0001-8606-2314
  • Supriatno Supriatno Universitas Medan Area
  • Nurdiana Nurdiana Universitas Al-Azhar Medan

DOI:

https://doi.org/10.56862/irajtma.v2i3.82

Keywords:

LPG Burner, Manufacturing, mCHPSE-012021, Stirling Engine, Testing

Abstract

This research focuses on developing a special LPG burner for the mCHPSE-012021 Stirling engine. The burner design was developed using CAD software and fabricated using machine tools and a welding process. Tests are carried out to verify how much the burner performance meets the desired specifications. The test results show that although the burner can reach the required high temperature, the thermal efficiency is still low, at 19.72%. This figure is far below the efficiency standard for household gas stoves, according to SNI 8660:2018. These findings highlight the urgency of improving burner design and efficiency to meet established standards, improving the mCHPSE-012021 Stirling engine's overall performance, and significantly increasing energy efficiency. These improvements are necessary to ensure optimal performance and efficiency in energy use in mCHPSE systems, underscoring the importance of developing more efficient and standards-compliant burner technology to support the use of Stirling engines in microenergy applications.

References

“CAD Software for Designers, Drafters, and Creators.” 2023. Autodesk Inc. 2023. https://www.autodesk.com/solutions/cad-software.

“CAD Software Solutions.” 2023. PTC. 2023. https://www.ptc.com/en/technologies/cad.

Direktorat Jenderal Minyak dan Gas Bumi. 2007. Konversi Mitan Ke Gas. Jakarta: Kementerian Energi Dan Sumber Daya Mineral. https://migas.esdm.go.id/uploads/Konversi-Mitan-GAS.pdf.

Jufrizal, Jufrizal, Z. H. Siregar, T. J. Saktisah, Bintang Kelana Putra, and M. N. R. Syahputra. 2022. “Uji Kinerja Burner Gas LPG Mesin Stirling Dengan Variasi Laju Aliran Udara.” IRA Jurnal Teknik Mesin Dan Aplikasinya (IRAJTMA) 1 (2): 5–10. https://doi.org/10.56862/irajtma.v1i2.19.

Jufrizal, F. H. Napitupulu, Ilmi, H. Ambarita, and M. Meliala. 2022a. “Ideal Cycle Thermodynamic Analysis For Gamma-Type Stirling Engine.” Journal of Mechanical Engineering and Technology (JMET) 14 (2): 1–15.

Jufrizal, Farel H. Napitupulu, Ilmi, and Himsar Ambarita. 2020. “Manufacturing and Testing Prototype of a Gamma Type Stirling Engine for Micro-CHP Application.” In IOP Conference Series: Materials Science and Engineering. Vol. 725. Institute of Physics Publishing. https://doi.org/10.1088/1757-899X/725/1/012016.

Jufrizal, Farel H. Napitupulu, Ilmi, Himsar Ambarita, and Mahadi Meliala. 2022b. “Thermodynamic Analysis of a Gamma-Type Stirling Engine for MCHP Application.” In Proceedings of the 7th International Conference and Exhibition on Sustainable Energy and Advanced Materials (ICE-SEAM 2021), edited by Mohd Fadzli Bin Abdollah, Hilmi Amiruddin, Amrik Singh Phuman Singh, Fudhail Abdul Munir, and Asriana Ibrahim, 225–229. Melaka, Malaysia: Springer Nature Singapore. https://link.springer.com/chapter/10.1007/978-981-19-3179-6_40.

Jufrizal, Farel Hasiholan Napitupulu, Ilmi, Himsar Ambarita, Supriatno, and Muhammad Irwanto. 2023. “Integration of a Gamma-Type Stirling Engine with LPG Cooking Stove for Micro-Scale Combined Heat and Power Generation.” Journal of Advanced Research in Fluid Mechanics and Thermal Sciences 108 (2): 1–16. https://doi.org/10.37934/arfmts.108.2.116.

Kusnandar, Nanang, Winda Sari Ramadhani, Intan Paramudita, Qudsiyyatul Lailiyah, and Prayoga Bakti. 2020. “Performance Characteristics of LPG Stoves Using DME Fuel with Variations in Nozzle Diameter and Input Pressure.” Standarisasi 22 (3): 199–210.

Masafkar23. 2023. “Macam – Macam Mesin Perkakas Dan Fungsinya.” Tehnik Mesin. 2023. https://tehnikmesin.com/2019/12/macam-macam-mesin-perkakas.html.

Muthukumar, P., and P. I. Shyamkumar. 2013. “Development of Novel Porous Radiant Burners for LPG Cooking Applications.” Fuel 112: 562–66. https://doi.org/10.1016/j.fuel.2011.09.006.

“Perbedaan Mesin Las Karbit Dan Mesin Las Listrik.” 2020. Mega Perkakas. 2020. https://megaperkakas.com/perbedaan-mesin-las-karbit-dan-mesin-las-listrik/.

Siregar, Z H, Jufrizal, Moraida Hasanah, and M D Agusdiandy. 2022. “Pengaruh Variasi Temperatur Sumber Panas Terhadap Temperatur Udara Dalam Heater Mesin Stirling.” IRA Jurnal Teknik Mesin Dan Aplikasinya (IRAJTMA) 1 (1): 11–16.

Siregar, Zufri Hasrudy, Jufrizal Jufrizal, and Bintang Kelana Putra. 2022. “Pengaruh Penambahan Regenerator Terhadap Performansi Mesin Stirling Tipe Gamma.” Jurnal Mekanova : Mekanikal, Inovasi Dan Teknologi 8 (2): 1–8. https://doi.org/10.35308/jmkn.v8i2.5957.

Sudarno, and Fadelan. 2015. “Peningkatan Efisiensi Kompor LPG Dengan Menggunakan Reflektor Radiasi Panas Bersirip.” Jurnal Ilmiah Semesta Teknika 18 (1): 94–105. https://journal.umy.ac.id/index.php/st/article/view/710.

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Published

2023-12-26

How to Cite

Hidayat, M. A. ., Al Ridho, F. F. ., Jufrizal, J., Supriatno, S., & Nurdiana, N. (2023). Manufacturing and Testing of LPG Burner for Heating Stirling Engine Heater mCHPSE-012021. IRA Jurnal Teknik Mesin Dan Aplikasinya (IRAJTMA), 2(3), 74–82. https://doi.org/10.56862/irajtma.v2i3.82

Issue

Vol. 2 No. 3 (2023): December

Section

Scientific Article

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