Repository Universitas Pakuan

Detail Karya Ilmiah Dosen

Aris Suryadi, Didik Notosudjono, Dirman Hanafi

Judul : Wind Ventilator Utilization for Electrical Mini Power Plant: Residential Lighting
Abstrak :

The development of renewable energy potential in Indonesia is actively carried out to obtain alternative energy sources along with the depletion of available fossil energy reserves. One of the green energy without polluting the environment is wind energy. Indonesia is an archipelago located in the tropics with a large potential source of wind energy, but until now it has not been optimal enough to be used for electricity generation. The utilization of energy produced by the wind is by changing it into mechanical energy by using wind turbines. Furthermore, mechanical energy from the turbine will be used to drive a dc generator to produce electrical energy. As a simple application in this study, the wind ventilator in the form of a turbine that is mounted on the top of the house roof is applied to be a wind turbine. Ventilators will move if there is wind touches its blades and it will suck out the air in the house. The axis of the ventilator will be coupled to the dc generator using pulley and v-belt. So, when the ventilator rotates, the generator will also rotate and will produce electrical energy. The objective of this study is to meet the energy needs for lighting requirement of a house. The experimental test results show that the use of ventilators as an alternative way for the wind energy utilization is worked well.

Tahun : 2021 Media Publikasi : Jurnal Internasional
Kategori : Jurnal No/Vol/Tahun : 1 / 13 / 2021
ISSN/ISBN : ISSN : 2229-838X e-ISSN : 2600-7916
PTN/S : Universitas Pakuan Program Studi : TEKNIK ELEKTRO
Bibliography :

[1]. EK, Laksanawati. (2018). Analysis of the Utilization of Ventilator Turbines as a household scale electricity source with a capacity of 900 W, Final Project, Mechanical Engineering Program, Muhammadiyah University, Tangerang

[2]. Kurniadi, Fauzi. (2016). Producing Turbine Ventilator, Final Project, Electrical Engineering Program, Polytechnic of Padang

[3]. Badan Pusat Statistik Kabupaten Purwakarta. (2015). Purwakarta Dalam Angka 2015. Purwakarta

[4] Vivi Nur Huda Lyjamil. (2019). Utilization of Turbine Ventilators as a source of electric power, Thesis, Department of Physics, Bogor Agricultural University

[5]. Suryadi, A., Ahmad, S., & Munthe, B. (2020). Utilization of Savonius Hybrid Solar Cell Wind Turbines as Remote Area Power Plants, Proceedings SNTE 2019, 5, 13-17

[6]. Padmika, Made. (2017). Designing wind power plants with turbine ventilators as generators, Physics Bulletin. Udayana University. 18 (2), 68-73

[7]. Mobi Mathew et al (2016). Development of a Small Scale Power Generation System using Rooftop Ventilator, IEEE, Students’ Conference on Electrical, Electronics and Computer Science, SCEECS 2016

[8]. Muhammad Razi et al (2019) IOP Conf. Ser.: Mater. Sci. Eng. 536 012012. Ventilator Turbine Model Application to the Mosque Tower’s Dome as Electricity Generator

[9]. Maneesh, Khandelwal et al. (2017). Use of Roof Top Ventilator for Electrical Generation, International Conference On Smart Technology for Smart Nation, 1526-1531

[10]. Suryadi, A., Asmoro, P., & Ahmad, S. (2019). Hybrid Electric Power Plant Using Wind Turbine Savonius Helix and Solar Cell as an Alternative Power Source in the Lightning Tower at Flashing Lights. ADI Journal on Recent Innovation (AJRI), 1(1), 1-6

[11]. Bikash Pal et al. (2016). An Introduction to DC Generator, International Journal of Research and Discovery (IJRD) 1 (3), 12-15

[12]. Yogasmara, Qorianjaya. (2017). Pulley and Belt Design on Bling Salt Mixer Machines, Final Project, Mechanical Engineering Study Program, Sebelas Maret University

[13]. W. R. F. Ardiansyah, (2016). Planning and Calculation of Transmission on Horizontal Type Mixer Machine with a Capacity of 60 kg / hour, Industrial Technology, Institut Teknologi Sepuluh Nopember Surabaya

[14]. Beke, Tama. (2016). A simple model for the energy supply of a stand-alone house using a hybrid wind– solar power system, Eur. J. Phys. 37, 015804 (19pp)

[15]. Sayuti, (2019). Design and Construction of a Ventilator Turbine Power Transfer Mechanism with a Wind Speed of 4 m/s, Polytechnic of Lhokseumawe, Jurnal Mesin Sains Terapan, 3 (2), 96-99

. [16] W. B. Pramono, (2015). Mini Design of 200 W Wind Turbine Generator for Low Speed Wind Energy, Proceedings SNATIF 2, 421-428

[17]. M.N.Indro, (2015). Design and Performance of a Wind Ventilator Turbine Made from a Motorcycle Generator, Proceedings SNF, IV (VII), 71-74

[18]. HWT, Seftyan, (2018). Final Project, Wind Power Plant Design Using Turbine Ventilator as an Alternative Energy Source, Electrical Engineering, Muhammdiyah University, Sumatera Utara

[19]. Haurissa, Jusuf et al, (2018). Study and Analysis of Ventilator Turbines into Power Plants, Jurnal Teknik Mesin, 6 (2), 76-86

[20]. Khai Xin Lau et al (2018). Harvesting Electrical Energy from Rooftop Ventilator. International Journal of Integrated Engineering, 10 (4), 68-72

[21]. M. Furuse, et al (2016) Development of a Cooling System for Superconducting Wind Turbine Generator, Cryogenics (Guildf)., 80, 199–203

[22]. M. M. Hossain and M. H. Ali (2015). Future research directions for the wind turbine generator system, Renew. Sustain. Energy Rev., 49, 481–489

[23]. S. T. Suganthi, D. Devaraj, K. Ramar, and S. Hosimin Thilagar (2017). An Improved Differential Evolution algorithm for congestion management in the presence of wind turbine generators, Renew. Sustain. Energy Rev., 81, 635–642

[24]. Gul MS, Patidar S (2015). Understanding the energy consumption and occupancy of a multi-purpose academic building. Energy Buildings 87, 155-165 [25]. Zulfadhli et al (2017). Experimental Study of Use Wind Cup Turbine Ventilator for Room Confort, Proceedings SNTR IV, 205-210