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Coordination control of hybrid ac dc microgrid

Asoka Technologies
Asoka Technologies

The hybrid AC/DC microgrid is considered to be the more and more popular in power systems as increasing DC loads. In this study, it is presented that a hybrid AC/DC microgrid is modelled with some renewable energy sources (e.g. solar energy, wind energy), typical storage facilities (e.g. batteries), and AC, DC load, and also the power could be transformed smoothly between the AC and DC sub-grids by the bidirectional AC/DC converter. Meanwhile, coordination control strategies are proposed for power balance under various operations. In grid-connected mode, the U–Q (DC bus voltage and reactive) or PQ method is adopted for the bidirectional AC/DC converter according to the amount of exchange power between AC and DC system in order to improve the DG utilisation efficiency, protecting the converter and maintain the stable operation of the system. In islanded mode, V/F control is applied to stabilising the entire system voltage and frequency, achieving the power balance between the AC and DC systems. Finally, these control strategies are verified by simulation with the results showing that the control scheme would maintain stable operation of the hybrid AC/DC microgrid.

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ELECTRICAL PROJECTS USING MATLAB/SIMULINK Gmail: asokatechnologies@gmail.com, Website: http://www.asokatechnologies.in 0-9347143789/9949240245 For Simulation Results of the project Contact Us Gmail: asokatechnologies@gmail.com, Website: http://www.asokatechnologies.in 0-9347143789/9949240245 Coordination control of hybrid AC/DC Microgrid ABSTRACT: The hybrid AC/DC microgrid is considered to be the more and more popular in power systems as increasing DC loads. In this study, it is presented that a hybrid AC/DC microgrid is modelled with some renewable energy sources (e.g. solar energy, wind energy), typical storage facilities (e.g. batteries), and AC, DC load, and also the power could be transformed smoothly between the AC and DC sub-grids by the bidirectional AC/DC converter. Meanwhile, coordination control strategies are proposed for power balance under various operations. In grid-connected mode, the U–Q (DC bus voltage and reactive) or PQ method is adopted for the bidirectional AC/DC converter according to the amount of exchange power between AC and DC system in order to improve the DG utilisation efficiency, protecting the converter and maintain the stable operation of the system. In islanded mode, V/F control is applied to stabilising the entire system voltage and frequency, achieving the power balance between the AC and DC systems. Finally, these control strategies are verified by simulation with the results showing that the control scheme would maintain stable operation of the hybrid AC/DC microgrid. SOFTWARE: MATLAB/SIMULINK
ELECTRICAL PROJECTS USING MATLAB/SIMULINK Gmail: asokatechnologies@gmail.com, Website: http://www.asokatechnologies.in 0-9347143789/9949240245 For Simulation Results of the project Contact Us Gmail: asokatechnologies@gmail.com, Website: http://www.asokatechnologies.in 0-9347143789/9949240245 BLOCK DIAGRAM: Fig. 1 Compact hybrid AC/DC microgrid system
ELECTRICAL PROJECTS USING MATLAB/SIMULINK Gmail: asokatechnologies@gmail.com, Website: http://www.asokatechnologies.in 0-9347143789/9949240245 For Simulation Results of the project Contact Us Gmail: asokatechnologies@gmail.com, Website: http://www.asokatechnologies.in 0-9347143789/9949240245 EXPECTED SIMULATION RESULTS: Fig. 2 AC bus voltage and current of A phase in grid-connected mode Fig. 3 SOC of the battery in grid-connected mode
ELECTRICAL PROJECTS USING MATLAB/SIMULINK Gmail: asokatechnologies@gmail.com, Website: http://www.asokatechnologies.in 0-9347143789/9949240245 For Simulation Results of the project Contact Us Gmail: asokatechnologies@gmail.com, Website: http://www.asokatechnologies.in 0-9347143789/9949240245 Fig. 4 Power of wind, DC side power flowed into AC side and the output of battery in grid-connected mode Fig. 5 PV output power versus 50*solar irradiation in islanded mode
ELECTRICAL PROJECTS USING MATLAB/SIMULINK Gmail: asokatechnologies@gmail.com, Website: http://www.asokatechnologies.in 0-9347143789/9949240245 For Simulation Results of the project Contact Us Gmail: asokatechnologies@gmail.com, Website: http://www.asokatechnologies.in 0-9347143789/9949240245 Fig. 6 DC bus voltage with the influence of solar irradiance variation and pulse load Fig. 7 SOC of the battery in islanded mode
ELECTRICAL PROJECTS USING MATLAB/SIMULINK Gmail: asokatechnologies@gmail.com, Website: http://www.asokatechnologies.in 0-9347143789/9949240245 For Simulation Results of the project Contact Us Gmail: asokatechnologies@gmail.com, Website: http://www.asokatechnologies.in 0-9347143789/9949240245 Fig. 8 AC bus voltage and current of A phase in islanded mode Fig. 9 Power of wind, DC side power flowed into AC side and the output of battery in islanded mode
ELECTRICAL PROJECTS USING MATLAB/SIMULINK Gmail: asokatechnologies@gmail.com, Website: http://www.asokatechnologies.in 0-9347143789/9949240245 For Simulation Results of the project Contact Us Gmail: asokatechnologies@gmail.com, Website: http://www.asokatechnologies.in 0-9347143789/9949240245 CONCLUSION: In this paper, the coordination control strategies are proposed for the hybrid AC/DC microgrid, operating in grid-connected mode and islanded mode. The control strategies are verified with Matlab/ Simulink under various operations and load conditions. The simulation results show that the control strategies of the hybrid AC/DC microgrid system are efficient. In grid-connected mode, both the bidirectional AC/DC converter and the batteries can keep the DC bus voltage stable, and ensure the converter smoothly operates in U–Q or PQ methods under the various solar irradiation conditions. In islanded mode, the AC bus voltage and frequency are provided by bidirectional AC/DC converter, the battery is to maintain DC bus stability and system power balance under pulse load and various solar irradiation conditions. REFERENCES: [1] Unamuno, E., Barrena, J.: ‘Hybrid ac/dc microgrids – part I: review and classification of topologies’, Renew. Sust. Energy Rev., 2015, 52, pp. 1251– 1259 [2] Khederzadeh, M., Sadeghi, M.: ‘Virtual active power filter: a notable feature for hybrid ac/dc microgrids’, IET Gener. Transm. Distrib., 2016, 10, (14), pp. 3539–3546 [3] Salomonsson, D., Soder, L., Sannino, A.: ‘An adaptive control system for a dc microgrid for data centers’, IEEE Trans. Ind. Appl., 2008, 44, (6), pp. 1910– 1917 [4] Anand, S., Fernandes, B.G., Guerrero, J.M.: ‘Distributed control to ensure proportional load sharing and improve voltage regulation in low-voltage dc microgrids’, IEEE Trans. Power Electron., 2013, 28, (4), pp. 1900–1913 [5] Wu, W., Wang, H., Liu, Y., et al.: ‘A dual buck-boost AC/DC converter for DC nanogrid with three terminal outputs’, IEEE Trans. Ind. Electron., 2017, 64, (1), pp. 295–299

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Coordination control of hybrid ac dc microgrid

  • 1. ELECTRICAL PROJECTS USING MATLAB/SIMULINK Gmail: asokatechnologies@gmail.com, Website: http://www.asokatechnologies.in 0-9347143789/9949240245 For Simulation Results of the project Contact Us Gmail: asokatechnologies@gmail.com, Website: http://www.asokatechnologies.in 0-9347143789/9949240245 Coordination control of hybrid AC/DC Microgrid ABSTRACT: The hybrid AC/DC microgrid is considered to be the more and more popular in power systems as increasing DC loads. In this study, it is presented that a hybrid AC/DC microgrid is modelled with some renewable energy sources (e.g. solar energy, wind energy), typical storage facilities (e.g. batteries), and AC, DC load, and also the power could be transformed smoothly between the AC and DC sub-grids by the bidirectional AC/DC converter. Meanwhile, coordination control strategies are proposed for power balance under various operations. In grid-connected mode, the U–Q (DC bus voltage and reactive) or PQ method is adopted for the bidirectional AC/DC converter according to the amount of exchange power between AC and DC system in order to improve the DG utilisation efficiency, protecting the converter and maintain the stable operation of the system. In islanded mode, V/F control is applied to stabilising the entire system voltage and frequency, achieving the power balance between the AC and DC systems. Finally, these control strategies are verified by simulation with the results showing that the control scheme would maintain stable operation of the hybrid AC/DC microgrid. SOFTWARE: MATLAB/SIMULINK
  • 2. ELECTRICAL PROJECTS USING MATLAB/SIMULINK Gmail: asokatechnologies@gmail.com, Website: http://www.asokatechnologies.in 0-9347143789/9949240245 For Simulation Results of the project Contact Us Gmail: asokatechnologies@gmail.com, Website: http://www.asokatechnologies.in 0-9347143789/9949240245 BLOCK DIAGRAM: Fig. 1 Compact hybrid AC/DC microgrid system
  • 3. ELECTRICAL PROJECTS USING MATLAB/SIMULINK Gmail: asokatechnologies@gmail.com, Website: http://www.asokatechnologies.in 0-9347143789/9949240245 For Simulation Results of the project Contact Us Gmail: asokatechnologies@gmail.com, Website: http://www.asokatechnologies.in 0-9347143789/9949240245 EXPECTED SIMULATION RESULTS: Fig. 2 AC bus voltage and current of A phase in grid-connected mode Fig. 3 SOC of the battery in grid-connected mode
  • 4. ELECTRICAL PROJECTS USING MATLAB/SIMULINK Gmail: asokatechnologies@gmail.com, Website: http://www.asokatechnologies.in 0-9347143789/9949240245 For Simulation Results of the project Contact Us Gmail: asokatechnologies@gmail.com, Website: http://www.asokatechnologies.in 0-9347143789/9949240245 Fig. 4 Power of wind, DC side power flowed into AC side and the output of battery in grid-connected mode Fig. 5 PV output power versus 50*solar irradiation in islanded mode
  • 5. ELECTRICAL PROJECTS USING MATLAB/SIMULINK Gmail: asokatechnologies@gmail.com, Website: http://www.asokatechnologies.in 0-9347143789/9949240245 For Simulation Results of the project Contact Us Gmail: asokatechnologies@gmail.com, Website: http://www.asokatechnologies.in 0-9347143789/9949240245 Fig. 6 DC bus voltage with the influence of solar irradiance variation and pulse load Fig. 7 SOC of the battery in islanded mode
  • 6. ELECTRICAL PROJECTS USING MATLAB/SIMULINK Gmail: asokatechnologies@gmail.com, Website: http://www.asokatechnologies.in 0-9347143789/9949240245 For Simulation Results of the project Contact Us Gmail: asokatechnologies@gmail.com, Website: http://www.asokatechnologies.in 0-9347143789/9949240245 Fig. 8 AC bus voltage and current of A phase in islanded mode Fig. 9 Power of wind, DC side power flowed into AC side and the output of battery in islanded mode
  • 7. ELECTRICAL PROJECTS USING MATLAB/SIMULINK Gmail: asokatechnologies@gmail.com, Website: http://www.asokatechnologies.in 0-9347143789/9949240245 For Simulation Results of the project Contact Us Gmail: asokatechnologies@gmail.com, Website: http://www.asokatechnologies.in 0-9347143789/9949240245 CONCLUSION: In this paper, the coordination control strategies are proposed for the hybrid AC/DC microgrid, operating in grid-connected mode and islanded mode. The control strategies are verified with Matlab/ Simulink under various operations and load conditions. The simulation results show that the control strategies of the hybrid AC/DC microgrid system are efficient. In grid-connected mode, both the bidirectional AC/DC converter and the batteries can keep the DC bus voltage stable, and ensure the converter smoothly operates in U–Q or PQ methods under the various solar irradiation conditions. In islanded mode, the AC bus voltage and frequency are provided by bidirectional AC/DC converter, the battery is to maintain DC bus stability and system power balance under pulse load and various solar irradiation conditions. REFERENCES: [1] Unamuno, E., Barrena, J.: ‘Hybrid ac/dc microgrids – part I: review and classification of topologies’, Renew. Sust. Energy Rev., 2015, 52, pp. 1251– 1259 [2] Khederzadeh, M., Sadeghi, M.: ‘Virtual active power filter: a notable feature for hybrid ac/dc microgrids’, IET Gener. Transm. Distrib., 2016, 10, (14), pp. 3539–3546 [3] Salomonsson, D., Soder, L., Sannino, A.: ‘An adaptive control system for a dc microgrid for data centers’, IEEE Trans. Ind. Appl., 2008, 44, (6), pp. 1910– 1917 [4] Anand, S., Fernandes, B.G., Guerrero, J.M.: ‘Distributed control to ensure proportional load sharing and improve voltage regulation in low-voltage dc microgrids’, IEEE Trans. Power Electron., 2013, 28, (4), pp. 1900–1913 [5] Wu, W., Wang, H., Liu, Y., et al.: ‘A dual buck-boost AC/DC converter for DC nanogrid with three terminal outputs’, IEEE Trans. Ind. Electron., 2017, 64, (1), pp. 295–299