This study aims to evaluate and compare the effect of the composition of water hyacinth (Eichhornia crassipes) with a banana peel on the absorption coefficient value as a composite material for absorbing sound waves. The cellulose within the water hyacinth and banana peel lead to reduced overload sound waves. This study used an experimental method providing banana peel crushed into powder, water hyacinth fiber, and resin (as a catalyst). All samples were prepared with dimensions of 13.5 cm × 25 cm × 0.8 cm. A frequency generator application was used as the sound source (125, 250, 500, 1000, and 2000 Hz), while a sound meter application measured sound intensity (dB). The results indicated that the outer surface of sample D had a superior absorption coefficient, measuring 0.51 at 250 Hz and 0.45 at 2000 Hz. Meanwhile, the inner surface of sample D recorded absorption coefficients of 0.46 at 250 Hz and 0.45 at 2000 Hz. Variations in absorption values were attributed to destructive interference and saturation. Sample D contained more water hyacinth (approximately 30%) than banana peel powder. This suggests that water hyacinth and banana peel powder are viable natural fiber alternatives for sound wave absorption.

Astatika, I. M., & Dwijaya, I. G. K. (2016). KARAKTERSTIK SERAPAN SUARA KOMPOSIT POLYESTER BERPENGUAT SERAT TAPIS KELAPA. Dinamika Teknik Mesin, 6(1). https://fisika.ukitoraja.ac.id/wp-content/uploads/2022/04/10.pdf

Eryani, Y. M., Wibowo, C. A., & Saftarina, F. (2017). Faktor Risiko Terjadinya Gangguan Pendengaran Akibat Bising. https://api.semanticscholar.org/CorpusID:194855755

Fauzana, N. A., Sastrawibawa, S., Safitri, R., & Abun. (2012). Potensi Kulit Pisang (First). Universitas Padjajaran Press.

Harfi, R., Achmad, G. A., Firdausi, M., Sumiyanto, S., & Sugeng, U. M. (2023). Variasi Volume Eceng Gondok Serat Komposit Dalam Peredam Suara. Sainstech: Jurnal Penelitian Dan Pengkajian Sains Dan Teknologi, 33(1), 86–94. https://doi.org/10.37277/stch.v33i1.1657

Kementerian Kesehatan RI. (1987). Kebisingan yang Berhubungan dengan Kesehatan.

Khan, D., & Burdzik, R. (2023). A review on different regulation for the measurement of transport noise and vibration. Journal of Measurements in Engineering, 11(2), 196–213. https://doi.org/10.21595/jme.2023.23279

Kusumawati, E., & Haryadi. (2021). EKSTRAKSI DAN KARAKTERISASI SERAT SELULOSA DARI TANAMAN ECENG GONDOK ( Eichornia crassipes). Jurnal Fluida, 14(1), 1–7.

Nasrun, Hasfita, F., & Rizal, M. (2014). STUDI PEMANFAATAN KULIT PISANG KEPOK (Musa paradisiaca) SEBAGAI BAHAN BAKU PEMBUATAN ASAM OKSALAT. Jurnal Teknologi Kimia Unimal, 3(2), 33–40.

Putra, A. R., & Nazhar, R. D. (2020). Peranan Material Interior dalam Pengendalian Akustik Auditorium Bandung Creative Hub. Waca Cipta Ruang, 6(2), 71–76. https://doi.org/10.34010/wcr.v6i2.4123

Rifaida Eriningsih, Mukti Widodo, & Rini Marlina. (2014). Pembuatan Dan Karakterisasi Peredam Suara Dari Bahan Baku Serat Alami. Arena Tekstil, 29(1), 1–8.

Safira, I., & Safira, I. A. (2017). PERAN POLUSI SUARA TERHADAP KESEHATAN MENTAL WARGA IBUKOTA DI PROVINSI DKI JAKARTA. Berita Kedokteran Masyarakat, 33(5). https://doi.org/10.22146/bkm.37023

Said L, M., Nurmin, N., & Zelviani, S. (2020). Studi Analisis Koefisien Absorbsi Papan Akustik Pada Ketebalan Bervariasi Berbahan Dasar Limbah Kulit Jagung Dan Sabut Kelapa (Solusi Alternatif Ramah Lingkungan). JFT : Jurnal Fisika Dan Terapannya, 7(1), 24. https://doi.org/10.24252/jft.v7i1.13484

Sihite, L. W., Wahyuni, T. H., & Hanafi, N. D. (2014). PEMANFAATAN ECENG GONDOK FERMENTASI TERHADAP KARKAS DAN NON KARKAS DOMBA LOKAL JANTAN LEPAS SAPIH. J.Peternakan Integratif, 2(2), 144–154.

Sinaga, D., Defriyant, I., & Krisman, M. (2012). Pengukuran koefisien Absorbsi Bunyi dari Limbah Batang Kelapa Sawit. Jurnal Fisika UNRI, 9(5).

Wahyudi, B. (2018). Analisis Kebisingan Di Kawasan Industri PT. Semen Indonesia (Persero) Tbk Kabupaten Tuban. Swara Bhumi E-Journal Pendidikan Geografi FIS Unesa, 5(6). https://jurnalmahasiswa.unesa.ac.id/index.php/swara-bhumi/article/view/25912

WHO. (2024). How much does environmental noise affect our health? WHO updates methods to assess health risks. WHO/Europe Press Office. https://www.who.int/europe/news-room/04-08-2024-how-much-does-environmental-noise-affect-our-health--who-updates-methods-to-assess-health-risks