Relevant bibliographies by topics / Successive Backward Sweep Method

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Academic literature on the topic 'Successive Backward Sweep Method'

Author: Grafiati
Published: 4 June 2021
Last updated: 3 February 2022

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Journal articles on the topic "Successive Backward Sweep Method"

1

Cho, Donghyurn, and Seung Pil Kim. "Successive Backward Sweep Method for Orbit Transfer Augmented with Homotopy Algorithm." Journal of the Korean Society for Aeronautical & Space Sciences 44, no. 7 (2016): 620–28. http://dx.doi.org/10.5139/jksas.2016.44.7.620.

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2

Teng, Jen-Hao, and Chuo-Yean Chang. "Backward/Forward Sweep-Based Harmonic Analysis Method for Distribution Systems." IEEE Transactions on Power Delivery 22, no. 3 (2007): 1665–72. http://dx.doi.org/10.1109/tpwrd.2007.899523.

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3

McAsey, Michael, Libin Mou, and Weimin Han. "Convergence of the forward-backward sweep method in optimal control." Computational Optimization and Applications 53, no. 1 (2012): 207–26. http://dx.doi.org/10.1007/s10589-011-9454-7.

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4

Ouali, Saad, and Abdeljabbar Cherkaoui. "An Improved Backward/Forward Sweep Power Flow Method Based on a New Network Information Organization for Radial Distribution Systems." Journal of Electrical and Computer Engineering 2020 (January 17, 2020): 1–11. http://dx.doi.org/10.1155/2020/5643410.

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This paper presents a load flow algorithm based on the backward/forward sweep principle, flexible with network topology changes, with an improvement in ensuring a minimum number of searching for connections between nodes in the calculation sequence in the forward and the backward sweep, by organizing the radial distribution system information into a main line and its derivations. The proposed load flow analysis is easy to implement and does not require the use of any complex renumbering of branches and nodes, or any matrix calculation, with the only use of linear equations based on Kirchhoff’s formulation.
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5

Siahaan, Yokhebert Natasya, Samuel Samuel, and Berlian Arswendo Adietya. "Analisa Bentuk Foil pada Kapal Hydrofoil Supported-Catamaran (Hysucat)." Jurnal Rekayasa Hijau 4, no. 3 (2020): 145–56. http://dx.doi.org/10.26760/jrh.v4i3.145-156.

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ABSTRAKKapal katamaran yang terintegrasi dengan foil bertujuan untuk menghasilkan performance lebih baik. Hydrofoil Supported-Catamaran (Hysucat) merupakan kapal katamaran yang dirancang untuk kecepatan tinggi menggunakan foil. Penelitian ini dilakukan dengan pendekatan metode numerik untuk mempresentasikan aliran fluida menggunakan RANS (Reynolds-Averaged Navier-Stokes). Aliran fluida pada penelitian ini menggunakan dua fasa yaitu air dan udara untuk menganalisis hambatan dan gaya angkat kapal katamaran yang telah dimodifikasi menjadi hysucat. Hysucat pada penelitian ini dibedakan oleh tiga macam bentuk foil yaitu lurus, sweep belakang dan sweep depan dengan tambahan variasi pada chord line dan sudut serang foil. Penambahan foil pada penelitian ini memberikan informasi bahwa hysucat dengan bentuk foil sweep belakang chord line 1.2 dan AOA(sudut serang) 0º mengurangi hambatan kapal sebesar 21% dari hambatan kapal katamaran tanpa foil. Gaya angkat tertinggi dihasilkan hysucat dengan bentuk foil sweep belakang chord line 1 dan AOA (sudut serang) 0º sehingga bentuk foil yang direkomendasikan untuk digunakan adalah sweep belakang.Kata kunci: hysucat, hambatan, gaya angkat, foil, CFDABSTRACTCatamaran hull-form using foil aims to produce better performance. Hydrofoil Supported-Catamaran (Hysucat) is a catamaran which is designed for high-speed craft using foil. This research was conducted with a numerical method approach to present fluid flow using RANS (Reynolds-Averaged Navier-Stokes). The numerical method uses two phases, namely water phase, and air phase to analyze catamaran hull-form, which have been modified being hysucat. Hysucat is distinguished by three types of foil form namely straight foil, backward sweep foil, and forward sweep foil with additional variations in chord line and angle of attack (AOA). The addition of foil in this study provides information that hysucat with backward foil, chord line 1.2, and AOA 0º reduce ship resistance by 21% from catamaran resistance without foil. The highest lift force is produced by hysucat with backward foil, chord line 1 and AOA 0º so that foil form which is recommended to be used is backward sweep foil.Keywords: hysucat, resistance, lift force, foil, CFD
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6

Augugliaro, A., L. Dusonchet, S. Favuzza, M. G. Ippolito, and E. Riva Sanseverino. "A backward sweep method for power flow solution in distribution networks." International Journal of Electrical Power & Energy Systems 32, no. 4 (2010): 271–80. http://dx.doi.org/10.1016/j.ijepes.2009.09.007.

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7

Araujo, Leandro Ramos de, Débora Rosana Ribeiro Penido, Sandoval Carneiro Júnior, José Luiz Rezende Pereira, and Paulo Augusto Nepomuceno Garcia. "Comparisons between the three-phase current injection method and the forward/backward sweep method." International Journal of Electrical Power & Energy Systems 32, no. 7 (2010): 825–33. http://dx.doi.org/10.1016/j.ijepes.2010.01.020.

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8

Mortezazadeh, Mohammad, and Liangzhu Leon Wang. "A high-order backward forward sweep interpolating algorithm for semi-Lagrangian method." International Journal for Numerical Methods in Fluids 84, no. 10 (2017): 584–97. http://dx.doi.org/10.1002/fld.4362.

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9

Hameed, Faisal, Mohamed Al Hosani, and H. H. Zeineldin. "A Modified Backward/Forward Sweep Load Flow Method for Islanded Radial Microgrids." IEEE Transactions on Smart Grid 10, no. 1 (2019): 910–18. http://dx.doi.org/10.1109/tsg.2017.2754551.

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10

Duran-Quintero, Michel, John E. Candelo, and Jose Soto-Ortiz. "A modified backward/forward sweep-based method for reconfiguration of unbalanced distribution networks." International Journal of Electrical and Computer Engineering (IJECE) 9, no. 1 (2019): 85. http://dx.doi.org/10.11591/ijece.v9i1.pp85-101.

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<span lang="EN-US">A three-phase unbalanced power flow method can provide a more realistic scenario of how distribution networks operate. The backward/forward sweep-based power flow method </span><span lang="EN-AU">(BF-PF)</span><span lang="EN-US"> has been used for many years as an important computational tool to solve the power flow for unbalanced and radial power systems. However, some of the </span><span lang="EN-AU">few </span><span lang="EN-US">available research tools produce many errors when </span><span lang="EN-AU">they </span><span lang="EN-US">are used for </span><span lang="EN-AU">network </span><span lang="EN-US">reconfiguration </span><span lang="EN-AU">because the </span><span lang="EN-US">topology change</span><span lang="EN-AU">s</span><span lang="EN-AU">after multiple switch actions</span><span lang="EN-US"> and the nodes are disorganized continually. </span><span lang="EN-AU">T</span><span lang="EN-US">his paper presents </span><span lang="EN-AU">a modified</span><span lang="EN-AU">BF-PF for </span><span lang="EN-US">three-phase unbalanced radial </span><span lang="EN-AU">distribution networks</span><span lang="EN-US"> that is capable </span><span lang="EN-AU">of arranging</span><span lang="EN-US"> the system topology when reconfiguration changes the branch connections. A binary search is used to determine the connections between nodes, allowing the algorithm to avoid those problems when reconfiguration is carried out, regardless of node numbers. Tests are made to verify the usefulness of the proposed algorithm in both the IEEE 13-node test feeder and the 123-node test feeder, converging in every run where constraints are accomplished. This approach can be used easily for a large-scale feeder network reconfiguration.</span><span lang="EN-AU"> The full version of this modified </span><span lang="EN-US">backward/forward sweep</span><span lang="EN-AU"> algorithm is available for research at MathWorks</span><span lang="EN-US">.</span>
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