This community service program is a development and continuation of previous program activities that take the theme of Solar Power Plant Design Training in Madrasah Aliyah Darussalam Parung Bogor with a focus on designing simple solar power plant for catfish ponds that use battery , DC lights, and 5 WP solar panels. The focus on this community service program is training on the application of appropriate technology for solar power generation with a household group R-1 / TR 2200 VA that uses solar panels, batteries, and controller. This program activity is divided into several stages, including site survey, socialization, solar power generation, and testing of solar power plant component, training, system installation, component assembly, and program evaluation. The first stage is a site survey conducted to obtain preliminary information about electricity usage patterns in the Raudhatul Ishlah. The second stage is the socialization of the program to the students and the community. The next stage is the solar power generation component testing to find out the quality and the identification of its components. Then the fourth stage is the introduction of its technology to give participants a greater understanding. The fifth stage is the assembly and installation of solar power generation components. The last stage is program evaluation using the interview and filling out the questionnaire. This program is held at Raudhatul Ishlah. This activity is the application technology which is very useful in the provision of electricity independently to support various activities in Islamic boarding schools and communities. Keywords: solar power generation, hybrid power generation, load supply regulation, automatic transfer switch, photovoltaic ABSTRAK Program pengabdian kepada masyarakat (PKM) ini merupakan pengembangan dan kelanjutan dari kegiatan PKM sebelumnya yang mengambil tema tentang Pelatihan Rancang Bangun Pembangkit Listrik Tenaga Surya di Madrasah Aliyah Darussalam Parung Bogor dengan fokus kepada perancangan PLTS sederhana untuk kolam benur lele yang menggunakan komponen baterai, lampu DC dan panel surya 5 WP. Sedangkan fokus pada program PKM ini berupa pelatihan penerapan teknologi tepat guna pembangkit listrik tenaga surya (PLTS) dengan skala rumah tangga golongan R-1/TR 2200 VA yang menggunakan beberapa peralatan dengan teknologi tepat guna seperti panel surya, baterai dan controller (ATS – Automatic Transfer Switch). Kegiatan PKM ini terbagi dalam beberapa tahapan, meliputi: survei lokasi, sosialisasi, pengujian komponen PLTS, pelatihan, perakitan dan instalasi sistem serta evaluasi program. Tahap pertama adalah survei lokasi yang dilakukan untuk mendapatkan informasi awal mengenai pola pemakaian listrik di Pesantren Raudhatul Ishlah. Tahap kedua adalah sosialisasi kegiatan PKM kepada para santri dan masyarakat. Tahap selanjutnya adalah tahap pengujian komponen yang bertujuan untuk mengetahui kualitas dari PLTS, serta identifikasi komponen PLTS. Kemudian tahap keempat yaitu pengenalan teknologi PLTS untuk memberi pemahaman lebih mengenai teknologi PLTS. Tahap kelima adalah perakitan dan pemasangan (install) komponen PLTS secara keseluruhan. Tahap terakhir dalam kegiatan PKM ini adalah evaluasi program dengan menggunakan metode interview dan pengisian kuisioner. Kegiatan PKM ini dipusatkan di Pondok Pesantren Raudhatul Ishlah, Kelurahan Serua, Tengerang Selatan. Kegiatan ini merupakan penerapan teknologi PLTS yang sangat berguna dalam pengadaan listrik secara mandiri untuk mendukung berbagai aktivitas di dalam pondok pesantren dan masyarakat. Kata kunci: pembangkit listrik tenaga surya, pembangkit listrik tenaga hibrid, pengaturan suplai beban, automatic transfer switch, photovoltaic.
ABSTRACT Renewable energy is potential alternative energy to replace the central role of fossil energy which has been going on since the early 20th century. The solar power plant is alternative energy, especially for households and industry, and can be designed as a hybrid power plant consisting of solar panels, batteries, an automatic transfer switch (ATS), and a grid. This research will focus on developing ATS based on a microcontroller. It functions to regulate the load supply automatically from the three sources of electrical energy, like solar panels, batteries, and grid while the microcontroller functions to monitor the transfer of power from the solar power plant to grid and voltage movements in the system so that current and voltage data can be recorded from time to time to improve system reliability, effectiveness, and efficiency of the tool. ATS components consist of MCB, magnetic contactor, timer H3CR, relay, 2000VA inverter, solar charge controller 100A, NodeMCU ESP8266 IoT, and battery 12V 100AH. This research is conducted in one year to produce ATS based on a microcontroller that can automatically regulate the supply of loads from the three sources of electrical energy with a good level of efficiency and stability. Keywords: solar power plants, hybrid power plants, an automatic transfer switch. ABSTRAK Energi baru terbarukan merupakan energi alternatif yang potensial untuk menggantikan peran sentral dari energi fosil yang telah berlangsung sejak awal abad ke 20. PLTS merupakan salah satu energi alternatif penyedia energi listrik untuk rumah tangga dan industri serta dapat dirancang sebagai sistem pembangkit listrik tenaga hibrid (PLTH) yang terdiri dari panel surya, baterai, sistem pengaturan beban atau ATS (automatic transfer switch) dan jaringan PLN. Peneltian difokuskan pada pengembangan sistem ATS berbasiskan mikrokontroler. ATS berfungsi untuk mengatur suplai beban secara otomatis dari ketiga sumber energi listrik yaitu panel surya, baterai dan PLN sedangkan mikrokontroler berfungsi memonitor perpindahan daya dari PLTS ke sumber PLN dan pergerakan tegangan pada sistem sehingga dapat dilakukan pencatatan data arus dan tegangan dari waktu ke waktu sehingga dapat meningkatkan keandalan sistem, efektifitas dan efisiensi alat. Komponen ATS terdiri dari MCB, magnetic contactor, timer H3CR, relay, inverter 2000VA, solar charge controller 100A, NodeMCU ESP8266 IoT, dan baterai 12V 100Ah. Penelitian ini akan dilakukan dalam periode satu tahun menghasilkan ATS berbasiskan mikrokontroler yang dapat mengatur suplai beban secara otomatis dari ketiga sumber energi listrik dengan tingkat efisiensi dan kestabilan yang baik. Tim penelitian ini tediri dari 3 orang dan berasal dari program studi teknik elektro, IT PLN. Kata kunci: pembangkit listrik tenaga surya, pembangkit listrik tenaga hibrid, pengaturan suplai beban.
The Impressed Current Cathodic Protection (ICCP) System is a corrosion control method where there is a flow of electrons to a metal structure, thus protecting it. As a ship owner, the EMP Malacca Strait SA used a coating method combined with the ICCP system to control corrosion on the Ladinda FSO. However, nowadays, the Ladinda FSO is known to carry a decreased volume of oil cargo due to declining oil production. This results in a change in the wetted area on the tanker’s hull in the design conditions of the ICCP system from early 1983 to the current conditions (2010) that affect the current magnitude of the protection given. This leads to an over- protection that destroys the coating layer. To avoid over-protection on the hull of the Ladinda FSO, an analysis and redesign of the ICCP system has been conducted. In the redesign of the cathodic protection system on the Ladinda FSO, the NACE Standard RP 0176- 2003 "Corrosion Control of Steel Fixed Offshore Structures Associated with Petroleum Production" was used as a basic reference in the design. The first step was to make the initial ICCP system design and then rebuild the initial ICCP system design for cathodic protection according to recent conditions. Next, the new design was analyzed and the results are the recommendations. The monitoring system was also redesigned to maintain proper control at a range of–1100 mV to–800 mV vs. Ag/AgCl/seawater. The new design will needs two transformer rectifier units as the power supply, which will give sufficient voltage to drive six titanium anodes coated with mixed metal oxide (MMO). The capacity of each transformer rectifier is 236.25 kV.A with a DC current of 21 A and DC voltage of 9 V. Four potential test boxes featuring Ag/AgCl reference electrodes and the "Protection Current Control Program" as the control system and monitoring system are added in this new ICCP system design.
Anodizing process is a process that aims to strengthen the natural protective layer of metals so that the metal becomes a material that is resistant to rust and scratch by using electrolyte solutions and strong DC currents that help the occurrence of chemical reactions. The anodizing process is strongly influenced by current and voltage, the greater the current and voltage, the thicker the oxide layer that occurs on the aluminum surface and the hardness (hardness) will also increase so that the material becomes rust resistant, scratch resistant and if given an organic coating easy to fade or peel off. Optimization of current and voltage on portable anodizing devices will add value to the quality (quality value) of these materials.
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