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Abstract
Abstract
Load flow analysis is a study to plan and determine the amount of power in an electric power system. During its development, industry requires a large amount of electric power and uses electrical equipment as a means of production. The benefits of an electric load flow analysis are to find out the amount of power in the electric power system whether it still meets predetermined limits, and to find out the amount of voltage at each point, and to obtain initial conditions for the new system planning. Load flow analysis begins calculating the active power and reactive power at each node (bus) installed, loading on the channel or conductor, the load flow calculation will be assisted using the Julia program. From the results of calculations using the Julia program, the voltage at each point with the smallest stress is obtained, namely the 10th point of 209.89 - j10.34V for phase A, -107.39 - j186.87V for phase B, -108.12 + j178,51V for phase C
Key Words: Drop Voltage, Julia, Load Flow
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References
- REFERENSI
- Shirmohammadi, D. dan S. Cheng, 1994. “A Three-Phase Power Flow Method For Real-Time Distribution System Analysis” dalam IEEE Transaction On Power System (vol.10, No 2, Mei 1995). IEEE.
- Bompard, E. dan E. Carpaneto, G. Chicco, dan R. Napoli, 2000. “Convergence Of The Backward/Forward Sweep Method for The Load-Flow Analysis Of Radial Distribution Systems” dalam Electrical Power and Energy System (vol. 22, No 7, 2000).
- Ramos De Araujo, L. Débora Rosana Ribeiro Penido, Nélio Alves do Amaral Filho, dan Tatianna Aparecida Pereira Beneteli, 2018. “Sensitivity Analysis Of Convergence Characteristics In Power Flow Methods for Distribution Systems” dalam Electrical Power and Energy System (vol. 97, hal 211-219, 2018).
- Teng, J, 2003. “A Direct Approach for Distribution System Load Flow Solutions” dalam IEEE Transaction On Power Delivery (vol. 18, No 3, Juli 2003). IEEE.
- Ujjwal Ghatak, V. dan Mukherjee, 2017. “A Fast And Efficient Load Flow Technique for Unbalanced Distribution System” dalam Electrical Power and Energy System (vol. 84, hal 99-110, 2017).
- Chang, W, Y. Chu, dan L Wang, 2007. “An Improved Backward/Forward Sweep Load Flow Algorithm for Radial Distribution Systems” dalam IEEE Transaction On Power System (vol. 22, No 2, Mei 2007). IEEE.
- Jhonattan Sarmiento, Carreno, M. dan A.C. Zambroni de Souza, 2019. “A Complex-Valued Three-Phase Load Flow for Radial Networks: High-Performance and Low-Voltage Solution Capability” dalam IEEE Transaction On Power System (vol.34, No 4, Juli 2019). IEEE.
References
REFERENSI
Shirmohammadi, D. dan S. Cheng, 1994. “A Three-Phase Power Flow Method For Real-Time Distribution System Analysis” dalam IEEE Transaction On Power System (vol.10, No 2, Mei 1995). IEEE.
Bompard, E. dan E. Carpaneto, G. Chicco, dan R. Napoli, 2000. “Convergence Of The Backward/Forward Sweep Method for The Load-Flow Analysis Of Radial Distribution Systems” dalam Electrical Power and Energy System (vol. 22, No 7, 2000).
Ramos De Araujo, L. Débora Rosana Ribeiro Penido, Nélio Alves do Amaral Filho, dan Tatianna Aparecida Pereira Beneteli, 2018. “Sensitivity Analysis Of Convergence Characteristics In Power Flow Methods for Distribution Systems” dalam Electrical Power and Energy System (vol. 97, hal 211-219, 2018).
Teng, J, 2003. “A Direct Approach for Distribution System Load Flow Solutions” dalam IEEE Transaction On Power Delivery (vol. 18, No 3, Juli 2003). IEEE.
Ujjwal Ghatak, V. dan Mukherjee, 2017. “A Fast And Efficient Load Flow Technique for Unbalanced Distribution System” dalam Electrical Power and Energy System (vol. 84, hal 99-110, 2017).
Chang, W, Y. Chu, dan L Wang, 2007. “An Improved Backward/Forward Sweep Load Flow Algorithm for Radial Distribution Systems” dalam IEEE Transaction On Power System (vol. 22, No 2, Mei 2007). IEEE.
Jhonattan Sarmiento, Carreno, M. dan A.C. Zambroni de Souza, 2019. “A Complex-Valued Three-Phase Load Flow for Radial Networks: High-Performance and Low-Voltage Solution Capability” dalam IEEE Transaction On Power System (vol.34, No 4, Juli 2019). IEEE.