This planning is carried out on the basis to meet the electricity needs that must continuously deliver electricity at the observation point of Mount Soputan, this is because electricity needs are very important in seeing the movement of the volcano. This plan with a planned load of 18.04 kWh. For such loading, 20 solar panels with 200 Wp capacity are used, and 2 solar panels controllers (SCC) are used, with each SCC used for 10 solar panels. As for the batteries used as many as 3 pieces with each battery having an energy of 2.4 kWh, then for the inverter using an inverter with a power of 2650 W. ABSTRAKPerencanaan ini dilakukan atas dasar untuk memenuhi kebutuhan listrik yang harus secara terus menerus menyalurkan listrik pada pos pengamatan gunung Soputan, hal ini dikarenakan kebutuhan listrik sangat penting dalam melihat pergerakan dari Gunung berapi tersebut. Perencanaan ini besar beban yang direncanakan sebesar 18,04 kWh. Untuk pembebanan yang demikian maka digunakan panel surya sebanyak 20 panel dengan kapasitas 200 Wp, dan untuk solar charger controller (SCC) yang digunakan sebanyak 2 buah dengan masing-masing SCC digunakan untuk 10 panel surya. Sedangkan untuk baterai yang digunakan sebanyak 3 buah dengan masing-masing baterai memiliki energi sebesar 2,4 kWh, lalu untuk inverternya menggunakan inverter dengan daya sebesar 2650 W.
The decrease in the shrinkage of the distribution network can be done through controlling the use of electricity. Before the use of electricity by consumers, electricity in the distribution network is then fed to the APP (meter and gauge) of the customer's meter and can then be used by customers for daily use. Operational control of electric power expansion that is in the PLN is an activity carried out by the PLN so that there is no loss or can minimize the losses experienced. The truth of measuring meter energy in APP has several obstacles, such as the wrong reading of kwh meters, theft of electricity, use of electricity without measuring the meter, wiring and others. Basically the shrinkage itself is divided into the first two technical losses and non-technical losses in PT PLN (Persero) Teluk Naga Area, in non-technical shrinkage is a problem that is very vigilant because of this shrinkage PLN gets a lot of losses from customers such as affecting power limit, affecting energy measurements can reach 8257.9 kWh / month from 16 customers and experiencing losses of 13809.8 kWh / month therefore customers who make these deviations will be subject to sanctions in the form of a fine of Rp.332,830,661 for all customers who do deviation. The decrease in the shrinkage of the distribution network can be done through controlling the use of electricity. Before the use of electricity by consumers, electricity in the distribution network is then fed to the APP (meter and gauge) of the customer's meter and can then be used by customers for daily use. Operational control of electric power expansion that is in the PLN is an activity carried out by the PLN so that there is no loss or can minimize the losses experienced. The truth of measuring meter energy in APP has several obstacles, such as the wrong reading of kwh meters, theft of electricity, use of electricity without measuring the meter, wiring and others. Basically the shrinkage itself is divided into the first two technical losses and non-technical losses in PT PLN (Persero) Teluk Naga Area, in non-technical shrinkage is a problem that is very vigilant because of this shrinkage PLN gets a lot of losses from customers such as affecting power limit, affecting energy measurements can reach 8257.9 kWh / month from 16 customers and experiencing losses of 13809.8 kWh / month therefore customers who make these deviations will be subject to sanctions in the form of a fine of Rp.332,830,661 for all customers who do deviation.
This community partnership program aims to help the public to know the security of residential installations and fire prevention efforts due to an electrical surge. As well as providing motivation to be able to continue to encourage and apply to the community in the partner area to always prevent fires due to electrical short circuit and use electrical equipment according to standards. With the partnership program activities of the community in the Gondrong neighborhood, Cipondoh Sub-district will be able to provide education on integrated electrical installations to avoid fire hazards due to electricity
Voltage and frequency stability of a micro hydro power plant requires a simple, reliable and efficient control system. This study aims to design a control system using planetary gear which is known to provide fast speed adjustments to respond to the changing rate of water flow. In this study the system design will be created using matlab simulink. The system will then be simulated with various turbine rotation conditions to see the reliability and stability of the frequency and voltage produced by the permanent magnet generator used in micro hydro power plant. The results obtained are the control system seems can stabilize the generator rotor rotation so that the resulting voltage frequency remains constant even though the input load and water flow rate are dynamic. From the simulation results it is also found that the efficiency of the control system is directly proportional to the difference in mechanical input and electric power output of the system. ABSTRAKKeandalan dan stabilitas tegangan dan frekuensi dari suatu PLTMH (Pembangkit Listrik Tenaga Mikro Hidro) membutuhkan suatu sistem kontrol yang sederhana, handal dan efisien. Penelitian ini bertujuan untuk merancang suatu sistem kendali menggunakan planetary gear yang dikenal dapat memberikan penyesuaian kecepatan yang cepat guna merespon laju debit air yang berubahubah. Dalam penelitian ini desain sistem akan dibuat menggunakan matlab simulink. Sistem kemudian akan disimulasikan dengan berbagai kondisi putaran turbin yang berubah-ubah untuk melihat keandalan dan kestabilan frekuensi dan tegangan yang dihasilkan oleh generator PLTMH magnet permanen. Hasil yang diperoleh adalah sistem pengontrolan terlihat dapat menstabilkan putaran rotor generator sehingga frekuensi tegangan yang dihasilkan tetap konstan meskipun beban dan debit air masukan dinamis. Dari hasil simulasi juga didapatkan bahwa efisiensi pengontrolan berbanding lurus dengan selisih daya mekanis dan elektris dari sistem.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.