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All Journal Jurnal Gaussian Media Farmasi : Jurnal Ilmu Farmasi (Journal Of Pharmaceutical Science) Arena Hukum Jurnal Media Hukum Jurnal Hukum IUS QUIA IUSTUM International Journal of Nursing and Health Services (IJNHS) Integrated Lab Journal Jurnal PAUD: Kajian Teori dan Praktik Pendidikan Anak Usia Dini Al-Adl : Jurnal Hukum Jurnal Persatuan Perawat Nasional Indonesia (JPPNI) Budapest International Research and Critics Institute-Journal (BIRCI-Journal): Humanities and Social Sciences Budapest International Research in Exact Sciences (BirEx Journal) Jurnal Riset Pembelajaran Matematika Sekolah Akrab Juara : Jurnal Ilmu-ilmu Sosial Jurnal Penegakan Hukum Indonesia (JPHI) Indonesia Private Law Review Refleksi Hukum: Jurnal Ilmu Hukum International Journal of Law, Environment, and Natural Resources Jurnal Persaingan Usaha Journal of Social Empowerment
Siti Anisah
Universitas Islam Indonesia
Religion Agriculture, Biological Sciences & Forestry Arts Humanities Biochemistry, Genetics & Molecular Biology Chemical Engineering, Chemistry & Bioengineering Chemistry Civil Engineering, Building, Construction & Architecture Computer Science & IT Economics, Econometrics & Finance Education Energy Engineering Environmental Science Health Professions Immunology & microbiology Industrial & Manufacturing Engineering Languange, Linguistic, Communication & Media Law, Crime, Criminology & Criminal Justice Library & Information Science Materials Science & Nanotechnology Mathematics Medicine & Pharmacology Nursing Physics Public Health Social Sciences Transportation Other

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Design and Build a Sun Tracking System Using a Fuzzy Logic Controller to Optimize the Output Power of the Solar Cell Module Hamdani Hamdani; Solly Aryza; Zuraidah Tharo; Siti Anisah
Budapest International Research and Critics Institute (BIRCI-Journal): Humanities and Social Sciences Vol 4, No 3 (2021): Budapest International Research and Critics Institute August
Publisher : Budapest International Research and Critics University

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33258/birci.v4i3.2303

Abstract

The solar cell module is an electric device that can convert sunlight energy to electric energy directly. Some matters cause solar cell module produceselectric energy unoptimally. One of the problem is position of solar cell module is not vertically coming through the sunlight. This problem is caused by daily earth rotation and yearly earth surrounding the sun. Major Topics of this research are producing a fuzzy logic controlling system so that orientation of solar cell module always follows position of sun periodically. And then comparing power of solar cell module which using controlling system to power of solar cell module which in static orientation. Result of this research, controlling system using fuzzy logic controller is produced, for controlling orientation of solar cell module follows sun position, with error about 4.270, so that power of this solar cell module is higher 10.8% than power of static solar cell module. Average power of static solar cell module is about 2,957 watts, and the energy is about 23,656 watt hour. Else power of dynamic solar cell module is about 3,276 watts, and the energy is about 26,208 watt hour.
An Efficiency Analysis of Use of Recycled Lights Siti Anisah; Rahmadhani Fitri; Rahmaniar Rahmaniar; Zutaidah Tharo
Budapest International Research and Critics Institute-Journal (BIRCI-Journal) Vol 5, No 2 (2022): Budapest International Research and Critics Institute May
Publisher : Budapest International Research and Critics University

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33258/birci.v5i2.5717

Abstract

Light bulb waste is one type of waste that is categorized into B3 waste which can cause environmental pollution, environmental pollution produced by waste and the absence of efficient handling methods is a problem currently faced by the government, especially non-organic waste which includes hazardous waste. and cannot be decomposed. Light bulb waste is included in the inorganic waste category, although the production of light bulb waste is still small, the waste has great potential for environmental pollution, so it is necessary to study environmental conservation efforts from this waste. Another problem is the potential for recycling waste light bulbs which is currently not fully utilized by the government and the public. The Innovation of Emergency Lighting Design based on Environmentally Friendly Technology (TRL) is a study to find out and analyze the results of recycling waste light bulbs into energy-efficient emergency lighting with the concept of Reduce, Reus, and Recycle to produce a product that can be reused. Research with analytical methods is carried out as an approach to the implementation of research. The analysis was carried out to find out the results of the field review data, besides that the analysis was also carried out from the electrical side in the form of measuring the electrical components contained in the light bulb so that it could support the success of the research. The results showed that recycled lighting can be implemented as an alternative lamp that is environmentally friendly.
An Enhance of Renew Source for Homes Hamdani Hamdani; Zuraidah Tharo; Siti Anisah; Solly Aryza
Budapest International Research and Critics Institute-Journal (BIRCI-Journal) Vol 5, No 3 (2022): Budapest International Research and Critics Institute August
Publisher : Budapest International Research and Critics University

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33258/birci.v5i3.6692

Abstract

Implementation of a new source for residential homes, this study uses a baseline based on the availability of PV mini-grid equipment. The research method is carried out by direct measurement of PLTS devices. The solar power plant devices measured include a solar cell module, a solar charge controller (SCC) Inverter testing is done by connecting the battery to the inverter input, and the inverter output is connected to a 500-Watt load capacity. The inverter lasts for about 3 hours. It can be stated that the battery can provide energy of 3 days.
Co-Authors Adi Sastra P Tarigan Arif Setiawan Bela Pertiwi Catur Septiana Rakhmawati Eko Rial Nugroho, Eko Rial Elfan Fanhas Fatwa Khomaeny Fadhli Fadhli Fadhli, Fadhli Hajizah, Mimi Nur Hamdani . Harya Damar Panuluh Jury Yanto Tarigan Lina Erviana Lucky Suryo Wicaksono Mega Isvandiana Purnamasari Muh, Wendi Muhammad Alim Kurniawan Muhammad Fadlan Syahputra Muhammad Zaky Ridho Subakti Nunung Komalawati Nurdiana Nurdiana Pinta Deniyanti Sampoerno Prido Singarimbun Princessa Deanera Putri Ariqah Putri Nilasari Rahmadhani Fitri Rahmaniar Rahmaniar Rr Tutik Sri Hariyati Sugito Sugito Sulastuti Sulastuti Suparti Suparti Syarah Meiriska Dewi Triana Rahmatika Putri Trisno Raharjo Vit Ardhyantama Wendi Muh Wisnu Dwi Prabowo Yus Chandrawati Zuraidah Tharo Zutaidah Tharo