Three Dimensional Simulation of Changes in Air Flow on a Jet Engine Desktop Based

Nurcahyani Dewi Retnowati, Sri Mulyani, Frencha Talantha

Submitted : 2019-03-14, Published : 2019-03-25.

Abstract

Learning about changes in air flow on jet engines requires a clear understanding because there are parts of the jet engine that work according to their functions and are interconnected. People often have difficulty understanding learning about changes in air flow in the jet engine and also about the brayton cycle. This study aims to make a simulation that explains the changes in air flow in a jet engine with a three-dimensional animated form in order to improve understanding of learning about it. The process of making three-dimensional simulations uses animation modeling techniques, texturing, lighting, editing, and rendering. In modeling and texturing on jet engines following the Brayton cycle. The three-dimensional simulation results show that this simulation can be run by computers with Windows 7 and Windows 8 operating systems, and from the results of user test analysis 80.2% agree that this three-dimensional simulation can be understood and can explain changes in airflow in jet engines.

Keywords

three dimensional, jet engine, brayton cycle

References

Retnowati, N. D., Kusumaningrum, A., & Kariada, I. M. (2016). Animasi 3d Pergerakan Pesawat pada Apron dan Runway. Compiler, 5(1).

Hasan, B., & Gugi, T. H. (2008). Kaji Sistem Siklus Gabungan Pembangkit Listrik Turbin Gas di PT. Meta Epsi Pejebe Power Generation 2x40 MW.

Çengel, Y. A., & Boles, M. A. (2008). Thermodynamics: An Engineering Approach, -PDF. McGraw-Hill.

Mulud, T. H. (2016). Analisa Efisiensi Turbin Gas Unit 1 Sebelum Dan Setelah Overhaul Combustor Inspection Di PT PLN (Persero) Sektor Pembangkitan PLTGU Cilegon. Eksergi, 12(2).

Jaff, J. M. A., Tahir, M. H., Tahir, Y. F., Sleman, S. S., & Abdullah, H. B. (2015). Contribution in development of design and performance of Turbine jet engine. IOSR Journal of Mechanical and Civil Engineering, 12(6), 14-23.

Gusnita, N. (2017). Analisa Efisiensi Dan Pemanfaatan Gas Buang Turbin Gas Alsthom Pada Pembangkit Listrik Tenaga Gas Kapasitas 20 MW. Jurnal Sains dan Teknologi Industri, 14(2), 209-218.

Hendratman, H. (2008). The magic of 3D studio max. Informatika Bandung, Bandung.

Aryanto, S., Retnowati, N. D., & Basir, B. (2014). Simulator Kendali Pesawat Terbang Extra 300 L Berbasis3d dengan Metode Simulation Game. Compiler, 3(1).

Retnowati, N. D. (2017, December). Animasi 3D Rute Jalur Bus Trans Jogja Trayek 1A Dan 3A Berbasis Android. In Conference SENATIK STT Adisutjipto Yogyakarta (Vol. 3, pp. 64-71).

Retnowati, N. D. (2016, November). Desain Dan Animasi 3D Pesawat Terbang Menggunakan Teknik NURBS. In Conference SENATIK STT Adisutjipto Yogyakarta (Vol. 2, pp. 85-92).

Article Metrics

Abstract view: 436 times
Download     : 380   times

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

Refbacks

  • There are currently no refbacks.