The Utilization of Air Conditioning Heat Waste as Cloth Drying Energy Source
DOI:
https://doi.org/10.22219/jemmme.v6i1.12574Keywords:
heat air, air conditioning, alternative energy, cloth dryingAbstract
Air Conditioning (AC) as an air conditioner has been used on one side only as a room cooling. The cooling process with Air Conditioning produces heat as a result of the work of the condenser component in the AC. This heat can be used as an alternative energy source. This study aims to utilize hot air discharging Air Conditioning as an energy source for drying clothes. This development is based on the Thosiba AC specification. The specification data is used to get the coefficient of performance (COP) and heating effect. Development is also carried out for studies in the form of experiments. The results of the study indicate that the application of AC exhaust heat has the potential to be developed as an alternative energy in the process of drying clothes.
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M. M. Febrianto, F. M. Akbar, J. Bintoro, 2017, Prototipe Alat Pengering Pakaian Berbasis Arduino Uno, Jurnal Autocracy 4(1): pp. 1-9.
A. S. Lehman, J. Sanjaya, 2018, Automatic Clothes Dryer Using Microcontroller, Prosiding Seminar Nasional Pendidikan Teknik Informatika (SENAPATI) Ke-9, Bali, 08 September 2018, ISSN 2087-2658: pp. 147-151.
S. O. Amiebenomo, I. I. Omorodion, J.O. Igbinoba, 2013, Prototype Design and Performance Analysis of Solar Clothes Dryer, Asian Review of Mechanical Engineering 2(1): pp. 35-43.
Malave A.C, Kharade Sandesh Arun, Runmode Nitin Chandrakant, Namdas Sachin Suresh, Narute Sandeepkumar Lalaso, 2017, Review Paper on Design and Fabrication of Cloths Drying Machine, International Journal of Engineering Science and Computing 7(4): pp. 10440-10441.
Bhushan D. Dahake, Narendra R. Deore, 2017, Design and Analysis of Clothes Dryer, International Engineering Research Journal Special Edition PGCON-MECH-2017: pp. 1-7.
H. Ambarita, A. H. Nasution, N. M. Siahaan, H. Kawai, 2016, Performance of a clothes drying cabinet by utilizing waste heat from a split-type residential air conditioner, CaseStudiesinThermalEngineering8(2016): pp. 105–114.
J-W. Peng, C-L. Zhang, X. Cao, 2017, Modeling and Analysis of a Heat Pump Clothes Dryer, 12th IEA Heat Pump Conference (2017) Rotterdam: pp. 1-10.
Kalyankar A.N, Kedar A.R, Khandekar P.S, Jadhav J.J, Jadhav S.D, Kale B.R, 2018, Electric clothes dryer and dehydrator, International Research Journal of Engineering and Technology (IRJET) 05(03): pp. 3813-3816
B. Setyawan, M. A. Irfa’i, 2015, Rancang Bangun Pengering Pakaian Kapasitas 10 kg Berdaya 380 Watt, JRM 02(02): pp. 17-20.
A. H. Nasution, P. G. Sembiring, H. Ambarita, 2018, Effectiveness of a heat exchanger in a heat pump clothes dryer,IOP Conf. Series: Materials Science and Engineering 308 (2018) 012027 doi:10.1088/1757-899X/308/1/012027, 10th International Conference Numerical Analysis in Engineering: pp. 1-9.
P. Suntivarakorn, S. Satmarong, C. Benjapiyaporn, and S. Theerakulpisut, 2009, An Experimental Study on Clothes Drying Using Waste Heat from Split Type Air Conditioner, International Scholarly and Scientific Research & Innovation 3(5): pp. 483-488.
J. Lee, N. Hoeller, D. Rogers, S. Musnier, F.A. Salustri, 2009, An Empirical Study of Energy Efficiency of Clothes Dryers, Proceeding of International Conference On Engineering Design, ICED'09, Stanford University, Stanford, CA, USA.
S. Yao-jun, Wu.-qun, Dai Ye, 2015, Research on Innovative Design of Portable Quick-drying Machine, International Journal of Control and Automation 8(1): pp. 149-156.
N. Suarnadwipa, I W. Bandem Adnyana, 2017, Potensi Pemanfaatan Energi Buangan Kondensor Untuk Pengeringan Pakaian, ProsidingSeminar Nasional Sains dan Teknologi (Senastek) IV, Bali, Indonesia 2017
T. M. I. Mahlia, C. G. Hor, H. H. Masjuki, M. Husnawan, M. Varman and S. Mekhilef, 2010, Clothes Drying From Room Air Conditioning Waste Heat: Thermodynamics Investigation, The Arabian Journal for Science and Engineering 35(1B): pp. 339-351.
Gordon HTTM, A. Aziz, R. I. Mainil, 2017, Karakteristik Pengujian Pada Mesin Pengering Pakaian Menggunakan Air Conditioner (AC) ½ PK Dengan Siklus Udara Tertutup, Jurnal Sains dan Teknologi 16(1): 24-30 P-ISSN 1412-6257 E-ISSN 2549-9742.
R. Berutu, Immanuel S, A. Heryanto, A. H. Nasution, E. Y Setyawan, 2019, Alat Pengering Pakaian Portable dengan Memanfaatkan Energi Panas Buangan AC Split 1 PK, Jurnal Flywheel 9(2): pp. 24-29.
Toshiba Service Manual: Air Conditioner Split wall Type, April 2008.
B. Setyawan, M. A. Irfa’i, 2015, Rancang Bangun Pengering Pakaian Kapasitas 10 Kg Berdaya 380 watt, JRM 02(02): pp. 17-20
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