Pengukuran Kebisingan Pesawat Udara dengan Memasukan Frekuensi Kebisingan di Sekitar Bandara Halim Perdana Kusuma
DOI:
https://doi.org/10.35894/jmd.v4i2.104Keywords:
Kebisingan, Bandara, Frekuensi, Sound Pressusre Level, dB meterAbstract
The high usage of air transportation today is driven by the community's need for faster and more efficient mobility. However, the impact of using aircraft cannot be ignored, especially in terms of noise pollution caused by aircraft engines. Halim Perdana Kusuma Airport, which was originally designed for military activities, has become a commercial airport since 2014 in an effort to reduce flight density at Soekarno-Hatta Airport. This study aims to measure aircraft noise around Halim Perdana Kusuma Airport by including frequency. Measurements were carried out using a dB meter application downloaded on a mobile phone and a Sound Level Meter, both during flight activity and without flight activity in surrounding settlements. The results of this study indicate that noise in dBA can be measured with a Sound Level Meter, while frequency can be measured with a smartphone that has a dB meter application installed. The highest frequency measured during aircraft take-off activity at Halim Perdana Kusuma Airport peaked at 7716 Hz to 7834 Hz, when the noise reached its highest point. From this research, it can be concluded that the higher the frequency The higher the frequency the smaller ∆LA, meaning the dBA is getting closer to the sound pressure level.
References
Nasution, M., 2019, Ambang Batas Kebisingan Lingkungan Kerja Agar Tetap Sehat Dan Semangat Dalam Bekerja, Buletin Utama Teknik No. 1, Vol. 15, 87-88, Universitas Islam Sumatera Utara.
Kubina, Richard M.; Lin, Fan-Yu (2008). "Defining frequency: A natural scientific term". The Behavior Analyst Today.
Sitanggang, M., 2012, Penelitian Waktu Lepas Landas Terhadap Prediksi Berat Pesawat, Jurnal Teknologi Aerodinamika, Vol. 2, No. 14, hal 405- 413
Syamsuar, S., 2015, Metode Short Takeoff Landing (Studi Kasus Prestasi Terbang Takeoff-Landing Pesawat Udara Turbo Prop CN235), Jurnal Perhubungan Udara, Vol. 41, No. 2, hal. 49-58
G.J.J. Rujigrok., 1993, Elements Of Aviations Acoustic, Delft University Press.
Mahbubiyah, A.E, 2011, Analisis Kebisingan Pesawat Terbang di Kawasan Sekitar Bandara, Fakultas Sains Dan Teknologi, Universitas Islam Negeri Syarif Hidayatullah
Nasution, M., 2019, Ambang Batas Kebisingan Lingkungan Kerja Agar Tetap Sehat Dan Semangat Dalam Bekerja, Buletin Utama Teknik No. 1, Vol. 15, 87- 88, Universitas Islam Sumatera Utara
Hanifa, R.L Dan Suwandi T, 2018, Hubungan Antara Intensitas Kebisingan dan Karakteristik Individu Dengan Gangguan Pendengaran pada Pekerja di Madiun, JPH RECODE, Universitas Airlangga
Tuwaidan, Y.A., Poekoel C.V Dan Mamahit, D.J, 2015, Rancang Bangun Alat Ukur Desibel (dB) Meter Berbasis Mikrokontroler Arduino Uno R3, E-journal Teknik Elektro dan Komputer, Universitas Sam Ratulangi Manado
Primanda, F. B. (2012). Pemetaan Kebisingan Akibat Pesawat Dengan Software Integrated Noise Model (INM) Di Sekitar Bandar Udara Internasional Soekarno-Hatta. In Ps Teknik Lingkungan UI. Depok (pp. 1–155)
Costantien, I.Y.G, Arie, S.M.L, Brave, A.S., 2019, Kolaborasi Aplikasi Android dengan Sensor MQ-135 Melahirkan Detektor Polutan Udara, Jurnal Teknik Teknik Informatika, Vol 14, No.1
Fauzi, M, Irianto, Mabui, Didik, S.S., 2020, Pengukuran Tingkat Kebisingan Akibat Aktifitas Pesawat Di Bandar Udara Sentani Jayapura, Jurnal Teknik, No. 2, Vol. 13, 60-69, Universitas Yapis Papua
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