2.5.3.1 Test Case: 1—Without GUPFC and Without Fuel Cell
Figure 2.18 shows the load voltage profile when the system is under intentional islanding condition. A healthy working condition between 0.0 and 1.0 s, the load voltage observed as 1 pu. A three-phase to ground fault initiated between 1.0 and 1.5 s. A sudden drop in voltage occurs at 1.0 s and then a spike due to intentional islanding is seen at the instant of 1.0 s. After the occurrence of fault at 1.02 s generator at bus number 3 and load at the bus no. 5 get islanded from the main system. During islanding conditions (i.e. between 1.02 and 1.5 s), the load voltage rises to 1.25 pu. The load voltage becomes normal to 1.0 pu when the islanded part of the system reconnected with the main system at 1.5 s and remains at 1.0 pu till t = 2.0 s.
Figure 2.16 IEEE 9 bus system.
Figure 2.17 IEEE 9 bus test system MATLAB simulation model.
Figure 2.18 Load voltage profile in test case-1.
During the single-phase to ground fault (i.e. between 2.0 and 2.5 s), the load voltage rises to 1.25 pu due to the intentional islanding of the generator at the bus no. 3 and load at the bus no. 5. The voltage profile improves due to the islanding of a balanced system.
2.5.3.2 Test Case: 2—Without GUPFC and With Fuel Cell
Figure 2.19 shows an improved load voltage profile compared to similar intentional islanding conditions described in Section 2.5.3.1. During three-phase to ground fault (i.e. between 1.0 and 1.5 s), a voltage spike observed at the switching of intentional islanding of load at an instant of 1.0 s. The load voltage settles to 0.95 pu thereafter during the three-phase fault. The load voltage attains 1 pu during the healthy condition during 1.5 to 2.0 sec.
Figure 2.19 Load voltage profile in test case-2.
At 2.0 s phase to ground fault occurs on phase A. The voltage spike is encountered at this instant due to switching of intentional islanding. During the single-phase to ground fault (i.e. between 2.0 and 2.5 s), the load voltage is around 0.95 pu. After clearing of single-phase to ground fault, the load voltage becomes 1 pu.
2.5.3.3 Test Case: 3—With GUPFC and Without Fuel Cell
Figure 2.20 shows the load voltage profile in intentional islanding condition with GUPFC and without fuel cell. At normal healthy working conditions between 0.0 and 1.0 s, the load voltage observed around 1 pu. A three-phase to ground fault observed between 1.0 and 1.5 s. After the occurrence of fault at 1.02 s generator at the bus no. 3 and load at the bus no. 5 get islanded from the main system. A spike due to switching seen at the instant of 1.0 s. During islanding conditions (i.e. between 1.02 and 1.5 s), the load voltage rises to around 1.1 pu. The load voltage gets normalized to 1 pu when islanded part of the system reconnected with the main system (i.e. between 1.5 and 2.0 s) During the single-phase to ground fault (i.e. between 2.0 and 2.5 s), the load voltage rises to around 1.1 pu due to the intentional islanding of the generator at the bus no. 3 and a load at the bus no. 5. The voltage profile improves due to the islanding of a balanced system.
Figure 2.20 Load voltage profile in test case-3.
2.5.3.4 Test Case: 4—With GUPFC and With Fuel Cell
As shown in Figure 2.21 with GUPFC and fuel cell in the system under intentional islanding condition, load voltage observed is 1 pu with a healthy system (i.e. between 0.0 and 1.0 s). A brief spike due to switching observed at the instant of fault (i.e. at 1.0 s). The load voltage rises to around 1.1 pu during three-phase to a ground fault between 1.0 and 1.5 s but minor unbalance is observed. The improvement in the load voltage is due to the presence of fuel cells and GUPFC. After clearing of the fault at 1.5 s the load voltage becomes normalized to 1 pu.
The load voltage again rises to 1.1 pu and remains constant during the single-phase to ground fault (i.e. during 2.0 to 2.5 s) with a brief switching spike at the instant of 2.0 s. After clearing of the fault, the load voltage becomes normalized to 1 pu.
2.5.3.5 Test Case: 5—With Active GUPFC
Figure 2.22 shows the load voltage profile with an active GUPFC based sub-system. The load voltage remains constant during the entire simulation period. The intentionally islanded load has almost constant voltage. The brief spikes observed during switching in the system at 1.0 and 2.0 s. The fuel cell embedded GUPFC improves the load voltage profile during the three-phase to ground fault and single-phase to ground fault. The GUPFC, as compared to previous test cases, receives power for improving load voltage profile during fault due to fuel cell connected to its common DC bus. The load voltage profile using active GUPFC during intentional islanding condition shows almost constant load voltage of 1 pu during the simulation.
Figure 2.21 Load voltage profile in test case-4.
Figure 2.22 Load voltage profile in test case-5.
By examining different test cases, it can be seen that load voltage remains constant with active GUPFC. The percentage load voltage deviation from the rated
