Study on the effect of Distributed Generation towards unified power quality conditioner performance in mitigating voltage sags

Saudin, Norshafinash; Jobran, Junaidah Ali Mohd; Isa, Muhammad Firdaus Mohd; Mohamed, Mohd Azizi; Mohamed, Latifah; Suboh, S. M.

doi:10.1109/pecon.2012.6450304

Cited by 2 publications

(2 citation statements)

References 3 publications

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“…Furthermore, the interest in distributed generation systems such as wind and solar power is increasing, so has raised the use of one or more distributed generation systems in UPQCs that require injection of active power to the compensated system [11][12][13][14][15][16][17][18]. This type of system has the advantage that it can to control power quality problems either in voltage and current.…”

Section: Distributed Generator Integrated With Upqcmentioning

confidence: 99%

Unit vector template generator applied to a new control algorithm for an UPQC with instantaneous power tensor formulation, a simulation case study

Gómez¹,

Toro²,

Hoyos³

2020

IJECE

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<span>In this paper we present a new algorithm to generate the reference signals to control the series and parallel power inverters in an unified power quality conditioner “UPQC” to enhance power quality. The algorithm is based in the instantaneous power tensor formulation which it is obtained by the dyadic product between the instantaneous vectors of voltage and current in n-phase systems. The perfect harmonic cancelation algorithm “PHC” to estimate the current reference in a shunt active power filter was modified to make it hardy to voltage sags through unit vector template generation “UVGT” while from the same algorithm it extracts the voltage reference for series active power filter. The model was validated by mean of simulations in Matlab-Simulink®.</span>

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Section: Distributed Generator Integrated With Upqcmentioning

confidence: 99%

Unit vector template generator applied to a new control algorithm for an UPQC with instantaneous power tensor formulation, a simulation case study

Gómez¹,

Toro²,

Hoyos³

2020

IJECE

View full text Add to dashboard Cite

show abstract

“…6. Fault test system with DVR and DG [5] From the graph of RMS voltage versus time for the test system during fault with DVR and with DG above, the simulation results is in the Table 3: From simulation results during the test system fault with DVR and DG, the average of percentage voltage dips phase to ground is 7.14 % compared to the average of percentage voltage dips phase to ground during the test system fault with DVR without DG was 7.24 %. From the simulation data results during the test system with DVR and with DG in Table 3 being compared with the simulation data results during the test system with DVR and without DG in Table 2, it is apparent that the system contained DVR combination of DG in series with the load can reduced more the percentage of voltage dips than by using DVR alone.…”

mentioning

confidence: 99%

Performance of Distributed Generation (DG) towards Dynamic Voltage Restorer (DVR) in Mitigating Voltage Dips

Amirruddin

Idris

Hana

et al. 2015

AMM

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This article presents the performance of Distributed Generation (DG) towards Dynamic Voltage Restorer (DVR) in mitigating voltage dips. An investigation was conducted to explore the effect of DG with the test system and the results will be analyzed during line to ground fault with DVR contains DG and without DG. The percentages of the voltage dips that occur will be compared between all the test systems. From this analysis of voltage dips percentage, the effectiveness of the DG towards DVR in mitigating voltage dips can be obtained clearly. The simulation of the test system will be done using Power System Computer Aided Design (PSCAD) software.

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Study on the effect of Distributed Generation towards unified power quality conditioner performance in mitigating voltage sags

Cited by 2 publications

References 3 publications

Unit vector template generator applied to a new control algorithm for an UPQC with instantaneous power tensor formulation, a simulation case study

Unit vector template generator applied to a new control algorithm for an UPQC with instantaneous power tensor formulation, a simulation case study

Performance of Distributed Generation (DG) towards Dynamic Voltage Restorer (DVR) in Mitigating Voltage Dips

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