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Image Search Results
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: Configuration STATCOM control with PID.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques: Control
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: Voltage at Bus 575 during three-phase fault. ( a ) Voltage at Bus 575 during three-phase fault without connects STATCOM. ( b ) Voltage at Bus 575 with PID controller STATCOM. ( c ) Voltage at Bus 575 with PI Fuzzy STATCOM.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques:
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: Current at Bus 575 during three-phase fault. ( a ) Current at Bus 575 during three-phase fault without connects STATCOM. ( b ) Current at Bus 575 with PID controller STATCOM. ( c ) Current at Bus 575 with PI Fuzzy control STATCOM.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques: Control
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: Voltage at Bus 25 during three phase fault. ( a ) Voltage at Bus 25 during three phase fault without connects STATCOM. ( b ) Voltage at Bus 25 with PID controller STATCOM. ( c ) Voltage at Bus 25 with PI Fuzzy control. STATCOM.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques: Control
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: Current at Bus 25 during three-phase fault. ( a ) Current at Bus 25 during three-phase fault without connects STATCOM. ( b ) Current at Bus 25 with PID controller STATCOM, and current at Bus 25 with PI Fuzzy control STATCOM.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques: Control
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: Generated active power at Bus 575 during three-phase fault without connects STATCOM, with PID controller STATCOM, and with PI Fuzzy control STATCOM.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques: Generated, Control
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: Generated reactive power at Bus 575 through three-phase fault without connects STATCOM, with PID controller STATCOM, and with PI Fuzzy control STATCOM.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques: Generated, Control
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: Voltage of DC link at Bus 575 through three-phase fault without connects STATCOM, with PID controller STATCOM, and with PI Fuzzy control STATCOM.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques: Control
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: Comparisons of the results through three-phase fault at B 575 V.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques:
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: The time domain analysis for DC–link voltage through three-phase fault at wind bus.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques: Comparison
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: Voltage at PV bus during three-phase fault. ( a ) Voltage at PV Bus during three-phase fault without connects STATCOM. ( b ) Voltage at PV Bus with PID controller STATCOM. ( c ) Voltage at PV Bus with PI Fuzzy control STATCOM.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques: Control
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: Current PV Bus during three-phase fault. ( a ) Current PV Bus during three-phase fault without connects STATCOM. ( b ) Current at PV Bus with PID controller STATCOM. ( c ) Current at PV Bus with PI Fuzzy control STATCOM.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques: Control
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: Generated active power at PV Bus during three-phase fault without connect STATCOM, with PID controller STATCOM, and with PI Fuzzy control STATCOM.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques: Generated, Control
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: Generated reactive power at Bus 25 during three-phase fault without connects STATCOM, with PID controller STATCOM, and with PI Fuzzy control STATCOM.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques: Generated, Control
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: Voltage PV of DC link during three-phase fault without connect STATCOM, with PID controller STATCOM, and with PI Fuzzy control STATCOM.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques: Control
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: Comparisons of results through three-phase fault at PV bus.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques:
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: The time domain analysis for DC –link voltage through three-phase fault at PV bus.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques: Comparison
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: Active power generated at Bus 25 during three-phase fault without STATCOM, with PID STATCOM, and with Bus 25 with PI Fuzzy STATCOM.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques: Generated
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: Reactive power generated at PCC Bus 25 during three-phase fault without STATCOM, with PID STATCOM, and with Bus 25 with LAPO PI Fuzzy STATCOM.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques: Generated
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: Load active power at Bus 25 during three-phase fault without STATCOM, with PID STATCOM, and with Bus 25 with PI Fuzzy STATCOM.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques:
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: Load reactive power at Bus 25 during three-phase fault without STATCOM, with PID STATCOM, and with Bus 25 with PI Fuzzy STATCOM.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques:
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: V meas , V ref STATCOM during three-phase fault without connects STATCOM, Vref, with PID controller STATCOM, and with B 25 with PI Fuzzy control STATCOM.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques: Control
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: Reactive power generated during three-phase fault without connects STATCOM, with PID controller STATCOM, and with Bus 25 with PI Fuzzy control STATCOM.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques: Generated, Control
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: Comparisons of results through three-phase fault at hybrid PV/wind at 25 KV Bus.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques:
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: Comparisons of results through three-phase fault at STATCOM Bus.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques:
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: Voltage at Bus 25 through DLG. ( a ) Voltage at Bus 25 through DLG without connects STATCOM. ( b ) Voltage at Bus 25 with PID controller STATCOM and ( c ) Voltage at Bus 25 with PI Fuzzy control STATCOM.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques: Control
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: Current at Bus 25 through DLG. ( a ) Current at Bus 25 through DLG without connects STATCOM. ( b ) Current at Bus 25 through DLG with PID controller STATCOM. ( c ) Current at Bus 25 through DLG with PI Fuzzy control STATCOM.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques: Control
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: Voltage at Bus 575 through DLG. ( a ) Voltage at Bus 575 through DLG without connects STATCOM. ( b ) Voltage at Bus 575 through DLG with PID controller STATCOM. ( c ) Voltage at Bus 575 through DLG with PI Fuzzy control STATCOM.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques: Control
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: Current at Bus 575 through DLG. ( a ) Current at Bus 575 through DLG without connects STATCOM. ( b ) Voltage at Bus 575 through DLG with PID controller STATCOM. ( c ) Voltage at Bus 575 through DLG PI fuzzy control STATCOM.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques: Control
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: Active power generated at Bus 575 through DLG without connect STATCOM, with PID controller STATCOM and with PI Fuzzy control STATCOM.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques: Generated, Control
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: Reactive power generated at Bus 575 through DLG without connect STATCOM, with PID controller STATCOM and with PI Fuzzy control STATCOM.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques: Generated, Control
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: Voltage of DC link at Bus 575 through DLG without connect STATCOM, with PID controller STATCOM and with PI Fuzzy control STATCOM.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques: Control
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: Rotor speed of DFIG through DLG without connect STATCOM, with PID controller STATCOM, and with PI Fuzzy control STATCOM.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques: Control
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: Voltage at PV Bus through DLG. ( a ) Voltage at PV Bus through DLG without connects STATCOM. ( b ) Voltage PV Bus through DLG with PID controller STATCOM. ( c ) Voltage PV Bus through DLG with PI Fuzzy control STATCOM.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques: Control
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: Current PV at Bus 25 through DLG. ( a ) Current PV at Bus 25 through DLG without connects STATCOM. ( b ) Current PV at Bus 25 through DLG with PID controller STATCOM. ( c ) Current PV at Bus 25 through DLG with PI Fuzzy control STATCOM.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques: Control
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: Generated PV active power through DLG without connect STATCOM, with PID controller STATCOM and with PI Fuzzy control STATCOM.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques: Generated, Control
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: Generated PV reactive power through DLG without connect STATCOM with PID controller STATCOM and with PI Fuzzy control STATCOM.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques: Generated, Control
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: Voltage PV of DC link through DLG without connect STATCOM, with PID controller STATCOM, and with PI Fuzzy control STATCOM.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques: Control
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: Active power generated at Bus PCC through DLG without connecting STATCOM with PID controller STATCOM and with PI Fuzzy control STATCOM.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques: Generated, Control
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: Reactive power generated at Bus PCC through DLG without connecting STATCOM with PID controller STATCOM and with PI Fuzzy control STATCOM.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques: Generated, Control
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: Active power of load through DLG without connect STATCOM, with PID controller STATCOM, and with PI Fuzzy control STATCOM.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques: Control
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: Reactive power of load through DLG without connect STATCOM, with PID controller STATCOM and with PI Fuzzy control STATCOM.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques: Control
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: V meas, V ref STATCOM through DLG without connect STATCOM, V ref , with PID controller STATCOM and with PI Fuzzy control STATCOM.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques: Control
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: Reactive power generated at STATCOM through DLG without connect STATCOM, with PID controller STATCOM, and with PI Fuzzy control STATCOM.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques: Generated, Control
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: Comparisons of results through DLGF at B 575 V.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques:
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: The time domain analysis for DC–link voltage through DLGF at wind bus.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques: Comparison
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: Comparisons of results through DLGF at PV bus.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques:
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: The time domain analysis for DC–link voltage through DLGF at PV bus.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques: Comparison
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: Comparisons of results through DLGF at hybrid PV/wind bus 25 KV.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques:
Journal: Scientific Reports
Article Title: Artificial intelligent fuzzy control and LAPO algorithm for enhancement LVRT and power quality of grid connected PV/wind hybrid systems
doi: 10.1038/s41598-024-78384-5
Figure Lengend Snippet: Comparisons of results through DLGF at STATCOM Bus.
Article Snippet: Fig. 27 Load active power at Bus 25 during three-phase fault without STATCOM, with
Techniques: