47
DAFTAR PUSTAKA
Iftitah, Anggita Nurul. 2017. Anlisis Penguasaan Konsep Rangkaian Arus Listrik Bolak-Balik pada Siswa Kelas XII SMA di Banyuwangi. Skripsi: Universitas Negeri Jember.
Beranek, Leo. L. Noise and Vibration Control. Institute of Noise Control Engineering, Washington D.C. 1988
Bhatnagar, Shalabh Rakesh (2012), “Converting sound energy to electric energy”, International Journal of Emerging Technology and Advanced Engineering”, Vol. 2, No. 10, Page 267-270.
Bremerman, dkk. 2017. “Piezoelectric Sensing and Energy Harvesting In Touchscreens. Thesis. University of Maryland: Department of Mechanical Engineering
Bueche, Frederick J. 1989, Schaum’s Outlines, College Physics, Ninth Edition.
New York: Mc Graw-Hill
Direktorat Jenderal Ketenagalistrik. 2019. “Statistik Ketenagalistrikan Tahun 2018”, Kementerian Energid dan Sumber Daya Mineral, Edisi No. 32 Tahun Anggaran 2019, hal. Ix.
Fahy, Frank. Foundation of Engineering Acoustics 2nd Ed. London: Academic Press. 2001
Ge, Qingyu (2017), “Prospect of electric generation using sound”, Material Science, Energy Technology and Power Engineering I Prociding: Halaman 1- 4
Gumelar, Agung (2018), Perancangan instrumentasi pengukuran dan pola kualitas akustik ruangan berdasarkan tingkat tekanan bunyi dan waktu dengung (Studi kasus: Ruang ibadah Masjid Al-Wasi’i Universitas Lampung), Skripsi, Universitas Lampung, Lampung
Salim, Chandra (2010), Pemanenan energi bising lalu lintas menggunakan material PZT dalam resonator Helmholtz, Skripsi, Institut Teknologi Bandung, Bandung
48 Trisnobudi, Amoranto. Fenomena Gelombang, Bagian Pertama. Penerbit ITB:
Bandung. 62-70. 2006.
Beranek, Leo. L. Noise and Vibration Control. Institute of Noise Control Engineering, Washington D.C. 1988
Bhatnagar, Shalabh Rakesh (2012), “Converting sound energy to electric energy”, International Journal of Emerging Technology and Advanced Engineering”, Vol. 2, No. 10, Page 267-270.
Dornfeld, D.A. 2012. Green Manufacturing: Fundamentals and Application.
Springer BAB I, hal. 289
Fahy, Frank. Foundation of Engineering Acoustics 2nd Ed. London: Academic Press. 2001
Ge, Qingyu (2017), “Prospect of electric generation using sound”, Material Science, Energy Technology and Power Engineering I Prociding: Halaman 1- 4
Giancoli, Douglas C. 2014. “Fisika: Prinsip dan Aplikasi, Edisi Ketujuh, Jilid 1”.
Jakarta: Erlangga.
Gumelar, Agung (2018), Perancangan instrumentasi pengukuran dan pola kualitas akustik ruangan berdasarkan tingkat tekanan bunyi dan waktu dengung (Studi kasus: Ruang ibadah Masjid Al-Wasi’i Universitas Lampung), Skripsi, Universitas Lampung, Lampung
H. A. Sodano, G. Park, D. J. Inman. 2004. “Estimation of Electric Charge Output for Piezoelectric Energy Harvesting”. Strain. Vol. 40 (2). Page 49-58.
Harun, Zambri, Muhammad Razi, Jaliani Mohd Nor. 2012. “A Comparative Study of Sound Transmission Loss Provided by Glass, Acrylic and Polycarbonate”.
Teknologi. Vo. 60 (2013). 1-4
Hassan, F.H. Idris, Syed, S.H. dan Rahim, R. A. 2014. “Acoustic Energy Harvesting using piezoelectric Generator for low frequency sound waves energy conversions”, International Journal of Engineering and Technology (IJET) Vol. 5(6). Page 4702-4707
Izhar dan Khan, F. U., 2015, State of The Art in Acoustic Energy Harvesting.
Journal of Micromechanics and Microengineering, Vol. 25, 023001
49 Kholiq, I., 2015. Pemanfaatan Energi Alternatif Sebagai Energi Terbaruka Untuk
Mendukung Substitusi BBM, Jurnal IPTEK, Vol. 19 (2). 82-83
Kim, Heung Soo, Joo-Hyong Kim, Jaehwan Kim. 2011. A Review of Piezoelectric Energy Harvesting Based on Vibration. International Journal of Precision Engineering and Manufacturing”. Vol. 12 (6), Page 1129-1141.
Li, B. 2015. A Short Review of Piezoelectricity-based vibration and acoustic energies harvesting. Innovative energy & Research, Vol. 4 (3), 100-113 Lubis, Haidir Halomoan. 2016. Analisis Koefisien Penyerapan Frekuensi Bunyi
dari Beberapa Jenis Bahan Akustik Tetrapack. Skripsi. Universitas Lampung:
Jurusan Fisika.
Nechibvute, A., Chawanda, A., Luhanga P. 2012. Piezoelectric Energy Harvesting Devices: An Alternatif Energy Source for for Wireless Sensors. Smart Material Research, Vol. 2012. Article ID 853481
Pillai, M.A. & Deenadayalan, E. 2014. “A Review of Accoustic Energy Harvesting”. International Journal of Precision Engineering and Manufacturing”. Vol. 15 (5). Page 949-965
Resnick, Halliday, Jearl Walker. 2001. “Fundamentals of Physics, 9th edition”.
USA: John Willey & Sons, Inc.
Salim, Chandra (2010), Pemanenan energi bising lalu lintas menggunakan material PZT dalam resonator Helmholtz, Skripsi, Institut Teknologi Bandung, Bandung
Setiawan, I, 2019, Studi Eksperimental Penggunaan Loudspeaker sebagai pengkonversi energi bunyi menjadi listrik dalam alat pemanen energi akustik (Acoustic Energy Harvester), Jurnal Teknologi, Vol. 11 (1), hal. 9-16
Serrit, S. 2008. The Physical Acoustic of Energy Harvesting. Proc. IEEE International Ultrasonic Symposium, hal. 1046-1055
Sodano, H., D. Inmann, G. Park. 2004. “Á review of Power Harvesting from Vibration using Piezoelectric Materials”. Shock and Vibration Digest. Vol. 36 (3). Page 197-206.
Trisnobudi, Amoranto. Fenomena Gelombang, Bagian Pertama. Penerbit ITB:
Bandung. 62-70. 2006.
50 Tarsh, Maleka AbdulBari Bin. 2017. “Acoustic Energy Harvesting Using Dual Piezoelectric Plates”. Thesis. American University of Sharjah: College of Engineering.
Telba, A., Ali, W. 2012. “Modeling and Simulation of Piezoelectric Energy Harvesting”. In Proceedings of The World Congress on Engineering. Vol.
2012 (2). Page 959-961.
Vatansever, D., E. Siores, T.Shah, 2012. “Alternative Resources for Renewable Energy: Piezoelectric and Photovoltaic Smart Structures”. UK: University of Bolton.
Wisesa, Wahyu Dian. 2019. “Rancang Bangun Trainer Kit: Pengaruh Suhu Terhadap Cepat Rambat Bunyi Pada Pipa Organa Tertutup Berbantu Mikrokontroler Arduino Uno”. Skripsi. Universitas Jember: Jurusan Pendidikan MIPA.
Woodford, C. 2014. “Piezoelectricity”. Explain that stuff. Anonim.
51
“Halaman ini sengaja dikosongkan”
