RANCANG BANGUN ALAT BANTU UNTUK MENGUKUR KEBOCORAN TEKANAN UDARA PADA KABIN PESAWAT BOEING 737-800

PRATAMA, LAGA ARIF (2020) RANCANG BANGUN ALAT BANTU UNTUK MENGUKUR KEBOCORAN TEKANAN UDARA PADA KABIN PESAWAT BOEING 737-800. S1 thesis, Universitas Mercu Buana Jakarta.

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Abstract

Periodic maintenance or periodic inspections of Boeing 737-800 aircraft are carried out with the time determined by the aircraft manufacturer, whether they are determined based on time, cycle and mandatory maintenance. For example cabin pressure leak test. This becomes an important factor because the impact of measuring or checking for leakage of incorrect air pressure is very dangerous in terms of the safety aspects for crew and passengers. From these problems becomes an idea of making a tool for measuring air pressure leaks in aircraft cabins by utilizing components such as the BMP180 Pressure Sensor, Arduino Uno, RTC DS3231 and SDCard Modules which can facilitate the testing process. Tools that are able to convince aircraft technicians of the results of the process of measuring air pressure leaks in the aircraft cabin have become a solution to the anxiety of technicians and speed up the process of repairs or regular maintenance on Boeing 737-800 aircraft. With this tool, the value of the pressure difference can be compared between the differential pressure indicator on the plane and the screen display on the tool with an error value of 1.545%. And the value of the pressure at the end of the calculation of 100 seconds is equal to> 2.5 Psi in accordance with the minimum limit in the guidelines for checking air pressure leaks in the Aircraft Maintenance Manual Chapter 05 Boeing 737-800. Keywords: Cabin Pressure Leak Test, Barometric Pressure, Differential Pressure Perawatan berkala atau inspeksi berkala pada pesawat Boeing 737-800 dilaksanakan dengan waktu yang telah ditentukan oleh pabrik pembuat pesawat, baik itu ditentukan berdasarkan waktu, cycle dan perawatan yang bersifat mandatory. Begitupun dengan cabin pressure leak test. Hal ini menjadi faktor penting karena dampak dari pengukuran atau pengecekkan kebocoran tekanan udara yang tidak benar sangat berbahaya ditinjau dari aspek keselamatan crew dan penumpang. Dari permasalahan tersebut timbul gagasan untuk membuat alat bantu pengukuran kebocoran tekanan udara pada kabin pesawat dengan memanfaatkan komponen seperti Sensor tekanan BMP180, Arduino Uno, RTC DS3231 dan Modul SDCard yang dapat mempermudah dalam melakukan proses pengetesan. Alat yang mampu meyakinkan teknisi pesawat akan hasil dari proses pengukuran kebocoran tekanan udara pada kabin pesawat telah menjadi solusi bagi keresahan teknisi dan mempercepat proses perbaikan ataupun perawatan berkala pada pesawat Boeing 737- 800. Dengan alat ini, nilai perbedaan tekanan dapat dibandingkan antara indikator differential pressure di pesawat dan tampilan layar pada alat dengan nilai error sebesar 1.545 %. Dan nilai tekanan pada hasil akhir perhitungan 100 detik yaitu sebesar > 2.5 Psi sesuai dengan batas minimum pada panduan pengecekkan kebocoran tekanan udara didalam Aircraft Maintenance Manual Chapter 05 Boeing 737-800. Kata Kunci : Cabin Pressure Leak Test, Tekanan udara, Differential Pressure

Item Type: Thesis (S1)
Call Number CD: FT/ELK. 20 059
Call Number: ST/14/21/053
NIM/NIDN Creators: 41418120118
Uncontrolled Keywords: Cabin Pressure Leak Test, Tekanan udara, Differential Pressure
Subjects: 100 Philosophy and Psychology/Filsafat dan Psikologi > 150 Psychology/Psikologi > 155 Differential and Developmental Psychology/Psikologi Diferensial dan Psikologi Perkembangan > 155.9 Environmental Psychology/Psikologi Lingkungan > 155.96 Influence of Restrictive Environments/Pengaruh Lingkungan Perbatasan > 155.965 Aircraft/Pesawat Terbang
300 Social Science/Ilmu-ilmu Sosial > 380 Commerce, Communications, Transportation (Perdagangan, Komunikasi, Transportasi) > 385 Railroad Transportation/Transportasi Kereta Api > 385.7 Air Transportation, Airlines/Transportasi Udara
600 Technology/Teknologi > 620 Engineering and Applied Operations/Ilmu Teknik dan operasi Terapan > 621 Applied Physics/Fisika terapan > 621.3 Electrical Engineering, Lighting, Superconductivity, Magnetic Engineering, Applied Optics, Paraphotic Technology, Electronics Communications Engineering, Computers/Teknik Elektro, Pencahayaan, Superkonduktivitas, Teknik Magnetik, Optik Terapan, Tekn
700 Arts/Seni, Seni Rupa, Kesenian > 710 Civic and Lanscape Art/Seni Perkotaan dan Pertamanan > 711 Area Planning/Perencanaan Wilayah Perkotaan dan Pertamanan > 711.7 Plans for Transportation Facilities/Perencanaan untuk Fasilitas Transportasi > 711.78 Air Transportation Facilities/Fasilitas Transportasi Udara
Divisions: Fakultas Teknik > Teknik Elektro
Depositing User: Putra Arsy Anugrah
Date Deposited: 18 Nov 2022 03:06
Last Modified: 18 Nov 2022 03:06
URI: http://repository.mercubuana.ac.id/id/eprint/49926

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