Anjali Rajput - Academia.edu (original) (raw)
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Papers by Anjali Rajput
Journal of emerging technologies and innovative research, Jun 1, 2021
Inverter-based distributed generators (DGs) have traditionally been used to mitigate voltage imba... more Inverter-based distributed generators (DGs) have traditionally been used to mitigate voltage imbalance (VU) in microgrids. It may not be reasonable to rely solely on DGs for VU reduction, especially in islanded microgrids. In microgrids, demand side management (DSM) may be a viable option for VU mitigation. Unbalanced power dispatch from distributed generators (DGs) in a three-phase islanded microgrid with non-stiff grid-supporting or grid-forming distributed generators (DGs) can have a detrimental impact on the voltage quality, stability, and longevity of the DGs. One approach to address such imbalances is to install DGs that can adjust for load imbalances by dispatching unbalanced electricity. Single-phase controlled PQ inverter interfaced DGs are modeled for this purpose in this research. The power stage of the single-phase PQ inverter is approximated to a voltage regulated source using a comprehensive control model of the single-phase PQ inverter. This paper is reviewing the different techniques for voltage unbalance control of islanded microgrid system. In an islanded microgrid, the DGs may be solar PV system, Wind turbine system but in some cases, fuel cell-based system and biogas based electric energy generation system. This paper will be useful for the complete study of unbalance voltage control of islanded microgrid system.
link failure and node failure is the major issue of the MANET which is responsible for the packet... more link failure and node failure is the major issue of the MANET which is responsible for the packet loss in the network and the packets are not reached to the destination. Bypass route mainly select for the transmission of data if the congestion occur in the path. There are various methods for finding bypass route to avoid congestion but this process is very time consuming as multiple paths should be constructed for sending the data from source to destination. In this paper, we initially detect the congestion in the path by calculating the capacity of the link and if the congestion detected then we applied Leaky Bucket Algorithm for the storing of data. This prevents the data from the dropping and retransmission of packets and improves the performance of network.
Journal of emerging technologies and innovative research, Jun 1, 2021
Inverter-based distributed generators (DGs) have traditionally been used to mitigate voltage imba... more Inverter-based distributed generators (DGs) have traditionally been used to mitigate voltage imbalance (VU) in microgrids. It may not be reasonable to rely solely on DGs for VU reduction, especially in islanded microgrids. In microgrids, demand side management (DSM) may be a viable option for VU mitigation. Unbalanced power dispatch from distributed generators (DGs) in a three-phase islanded microgrid with non-stiff grid-supporting or grid-forming distributed generators (DGs) can have a detrimental impact on the voltage quality, stability, and longevity of the DGs. One approach to address such imbalances is to install DGs that can adjust for load imbalances by dispatching unbalanced electricity. Single-phase controlled PQ inverter interfaced DGs are modeled for this purpose in this research. The power stage of the single-phase PQ inverter is approximated to a voltage regulated source using a comprehensive control model of the single-phase PQ inverter. This paper is reviewing the different techniques for voltage unbalance control of islanded microgrid system. In an islanded microgrid, the DGs may be solar PV system, Wind turbine system but in some cases, fuel cell-based system and biogas based electric energy generation system. This paper will be useful for the complete study of unbalance voltage control of islanded microgrid system.
link failure and node failure is the major issue of the MANET which is responsible for the packet... more link failure and node failure is the major issue of the MANET which is responsible for the packet loss in the network and the packets are not reached to the destination. Bypass route mainly select for the transmission of data if the congestion occur in the path. There are various methods for finding bypass route to avoid congestion but this process is very time consuming as multiple paths should be constructed for sending the data from source to destination. In this paper, we initially detect the congestion in the path by calculating the capacity of the link and if the congestion detected then we applied Leaky Bucket Algorithm for the storing of data. This prevents the data from the dropping and retransmission of packets and improves the performance of network.