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ELECTRIC POWER TRANSMISSION & DISTRIBUTION

power transmission and distribution solutions

Transmission Lines #HV #Energy #Electrical_Engineering

Electrical Power System. 1- Power Generation. 2- Step-Up Transformation. 3- Transmission Line. 4- Step-Dowen Transformation. 3- Distribution System.

For power transmission, distribution and industrial applications

AC Power Supply System. Generation Transmission Distribution

power transmission line

High Voltage Direct Current (HVDC) transmission is a technology used to transmit electric power over long distances. Unlike the more common Alternating Current (AC) transmission, which periodically reverses direction, HVDC involves the use of direct current to transmit electricity. HVDC transmission lines have lower electrical losses compared to equivalent AC lines. This is because DC lines incur less power loss due to factors such as skin effect and proximity effect, which are more pronounced in AC systems. HVDC is particularly suitable for long-distance transmission of electricity. It experiences lower losses over long distances compared to AC transmission, making it more efficient for interconnecting power systems separated by large geographical distances. #transmission #hvdc #power #powergeneration #electrical #electricalindustry #powerindustry #powertransmission #powerdistribution #energy #highvoltage #substation #powersupply #electricity #electric #dc

Generation, Transmission and Distribution of AC Electrical Power ⚡️

DAY-03 LEARNING 📌 👉 In a typical HVDC (High Voltage Direct Current) converter station, there are usually two 6-pulse converters, one for each terminal of the HVDC transmission line. These converters are responsible for converting alternating current (AC) from the AC grid into direct current (DC) for transmission and vice versa 📢 . 👉 Each 6-pulse converter consists of a configuration of thyristor valves arranged in a specific way to convert the AC power to DC or DC to AC efficiently. The term "6-pulse" refers to the number of pulses generated per cycle during the conversion process. 💥 The use of two 6-pulse converters, one at each terminal, allows for bidirectional power flow in the HVDC system, enabling power transmission in both directions between the two connected AC grids or systems. 💭 #hvdc #powerelectronics #renewableenergy #gridintegration #energytransmission #electricalengineering #powersystems #convertertechnology #cleanenergy #sustainabledevelopment #renewablepower #smartgrid #energyefficiency #gridstability #powerquality Hitachi Energy GE Vernova Mitsubishi Electric Power Grid Corporation of India Limited