STUDI EKSPERIMENTAL WIND TUNNEL TIPE SUBSONIC RANGKAIAN TERBUKA DENGAN VARIASI BENTUK HONYECOMB
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Anderson, J. (2017). Fundamentals of Aerodynamics (3 ed.). New York: McGraw-Hill Education.
Azhar, S. (2015). Analisa Medan Aliran Dalam Terowongan Angin Dengan Metode CFD (Computational Fluid Dinamics). Aceh Utara: Universitas Malikussaleh.
Cengel, Y. A., & Boles, M. A. (2015). Thermodynamics An Engineering Approach (8th ed.). McGraw-Hill.
Cengel, Y. A., & Cimbala, J. M. (2006). Fluid Mechanics Fundamentals And Applications. In T. M.-H. Companies. New York: The McGraw-Hill Companies.
Gov, I. (2021). Comparison Of Hexagonal, Square, And Circular Sectioned Honeycomb Performance In A Wind Tunnel. The International Journal of Energy And Engineering Sciences, 38-49.
Handayani, S. U. (2014). Pengembangan Dan Analisa Keseragaman Aliran Terowongan Angin Tipe Terbuka Sebagai Sarana Pengujian Aerodinamika. Universitas Diponegoro.
Hanifah, S., & Handayani, S. U. (2015). Analisis Distribusi Kecepatan Aliran Wind Tunnel Tipe Terbuka. Universitas Diponegoro.
Haynes, W. M. (2014). Handbook of Chemistry an Physics. In Journal of the American Pharmaceutical Association (95th ed.). CRC Press Taylor & Francis Group.
Hartono, F., Bessie, R., & Aribowo, A. (2016, Desember). Pengukuran Turbulensi dan Angularitas Aliran Pada Terowongan Angin Subsonic Lapan. Teknologi Dirgantara, 147-158.
Hermawan, R., Aziz, A., & Rey, P. D. (2020). Investigasi Parameter Kinerja Alat Uji Open Circuit Wind Tunnel Tipe Subsonic. Jurnal Baut dan Manufaktur, 15-22.
Mehta, R. D., & Bradshaw, P. (1979). Design rules for small low speed wind tunnels. Aeronautical Journa, 443-456.
Munson. (2009). Fundamentals of Fluid Mechanics. (7, Ed.) America: Don Fowley.
Nasbey, H., & Budi, E. (2019). Desain Dan Pengembangan Terowongan Angin Menggunakan Honeycomb Sebagai Karakterisasi Turbin Angin Instrumen. Jurnal Of Physics , 1-5.
Nastain. (2005). Mekanika Fluida. Purwokerto: Universitas Jendra Soedirman.
Panda, M. K., & Samanta, A. K. (2016, August). Design of Low Cost Open Circuit Wind Tunnel A Case Study. Indian Journal of Science and Technology, 9, 2-7.
Ridwan. (1999). Mekanika Fluida Dasar. Jawa Barat: Universitas Gunadarma.
Shreyas. dkk. (2019, October). Design, Manufacturing and Testing of Open-Circuit Subsonic Wind Tunnel. International Research Journal, 6(10), 2.
Singh, M. d. (2013). Review of Design and Construction of an Open Circuit Low Speed Wind Tunnel. Global Journal, 13(5 Version 1), 1-21.
Sulisetyono, D. P. (2012, September). Analisi Desain Layar 3D Menggunakan Pengujian Pada Wind Tunnel. Institut Teknologi Sepuluh Nopember, 1, 1.
Surya, P. B. (2014). Pengaruh Variasi Screen terhadap Intensitas Turbulensi Wind Tunnel Tipe Open Circuit Subsonic di Jurusan Teknik Mesin Unesa. Universitas Negeri Surabaya, 3, 29-37.
Triatmodjo, B. (2013). Hidraulika II. (9, Ed.) Yogyakarta: Betta Offset.
Wicaksana, A. A., Wibowo, R., & Kabib, M. (2020, Maret). Analisa Intensitas Turbulensi Aliran Udara Pada Honeycomb Dengan Bentuk Penampang Melingkar Untuk Wind Tunnel Subsonic. Universitas Muria Kudus, 3, 19-24.
DOI: https://doi.org/10.29103/mjmst.v7i2.13491
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