Proses Distribusi Listrik dari Pembangkit sampai ke Rumah Kita

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28 Nov 202306:13

Summary

TLDRThis video explains the journey of electricity from power plants to consumers in Indonesia. It outlines the four main stages of the electricity distribution system: generation, transmission, distribution, and final consumption. The process begins with power generation in various types of plants (hydropower, thermal, wind, etc.), followed by voltage increase and long-distance transmission. At substations, voltage is reduced for local distribution through medium- and low-voltage lines, ensuring electricity reaches homes and buildings. The video offers a clear overview of how electricity is safely delivered to consumers, highlighting the interconnectedness of each stage in the distribution process.

Takeaways

😀 Electricity distribution in Indonesia involves four key stages: generation, transmission, distribution, and consumption.
⚡ The electricity generation process begins at power plants, where energy is converted from sources like water, gas, wind, steam, or nuclear power into electrical energy.
💡 In the transmission stage, the voltage of generated electricity is increased at substations (Gardu Induk) using transformers, making it suitable for long-distance transport.
🌍 High-voltage transmission lines (SUT/SUTET) carry electricity across vast regions, often using uninsulated wires and voltages above 230 kV.
🔋 Electricity voltage is reduced at substations before being sent to local distribution systems for residential or commercial use.
🏠 The distribution system carries electricity at medium voltage (around 20 kV) through overhead lines or underground cables (SUM/SKTM) to local distribution substations.
🔌 In the final distribution stage, the voltage is reduced to 220V for household and building consumption via low-voltage lines (SUT/SKTR).
🏗️ The electricity delivered to homes and buildings comes from various types of power plants, such as hydroelectric (PLTA), coal-fired (PLTU), and renewable sources like wind (PLTB) and solar (PLTS).
⚙️ The transmission network ensures electricity can be delivered over long distances between power plants and local areas efficiently.
🌱 Renewable energy sources like wind, solar, and geothermal are increasingly contributing to the electricity generation mix in Indonesia, complementing traditional sources like coal and gas.

Q & A

What are the four main stages in the electricity distribution process in Indonesia?
-The four main stages in the electricity distribution process in Indonesia are: 1) Generation (Pembangkit), where electricity is produced; 2) Transmission (Transmisi), where electricity is transmitted through high voltage lines; 3) Distribution (Distribusi), where electricity is distributed to local areas; and 4) Consumption (Konsumen), where electricity is used in homes and buildings.
What is the role of a power plant in the electricity distribution process?
-A power plant is responsible for generating electricity by converting various energy sources (such as water, gas, wind, and nuclear) into electrical energy, which is then sent through the transmission system.
What types of power plants are used in Indonesia to generate electricity?
-In Indonesia, several types of power plants are used to generate electricity, including hydroelectric (PLTA), steam (PLTU), gas (PLTG), diesel (PLTD), wind (PLTB), solar (PLTS), geothermal (PLTP), and waste-to-energy (PLTSA) plants.
How is the voltage of electricity increased for transmission purposes?
-The voltage of electricity is increased at the power plant by a transformer, which raises the voltage from a standard level (e.g., 11-15 kV) to a higher transmission voltage, typically around 150 kV.
What is the function of the SUT (Saluran Udara Tegangan Tinggi) and SUTET in the transmission process?
-SUT (High Voltage Air Transmission Line) and SUTET (Extra High Voltage Air Transmission Line) are used to transmit electricity over long distances between regions. SUT typically handles voltages between 70-150 kV, while SUTET operates at voltages above 230 kV.
How is the electricity voltage reduced for distribution to homes?
-At the distribution stage, electricity voltage is reduced at a substation (Gardu Induk) by a transformer to a medium voltage of about 20 kV, which is suitable for local distribution to homes and businesses.
What is the difference between SUM and SKTM in the distribution process?
-SUM (Saluran Udara Tegangan Menengah) refers to overhead medium-voltage power lines, while SKTM (Saluran Kabel Tegangan Menengah) consists of underground medium-voltage cables used for distributing electricity from the substation to local areas.
What is the final voltage at which electricity reaches consumers' homes?
-The final voltage of electricity reaching consumers' homes is 220 volts, which is suitable for residential use.
What is the role of the Gardu Distribusi (Distribution Substation) in the electricity distribution system?
-The Gardu Distribusi (Distribution Substation) is responsible for further reducing the voltage of electricity to a level suitable for local delivery to consumers, either through overhead or underground low-voltage distribution lines.
How do transmission and distribution systems work together to deliver electricity to consumers?
-The transmission system carries high-voltage electricity over long distances from power plants to substations. From there, the distribution system steps down the voltage and delivers electricity to homes and businesses through medium and low-voltage lines.