S. Ravivarman scite author profile

S. Ravivarman

4Publications

5Citation Statements Received

33Citation Statements Given

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Enhancing the performance of Transmission Lines by FACTS Devices using GSA and BFOA Algorithms

Karuppiah¹,

Muthubalaji²,

Ravivarman³

et al. 2018

IJET

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Flexible Alternating Current Transmission System devices have numerous applications in electrical transmission lines like improvement of voltage stability, reactive power compensation, congestion management, Available Transfer Capacity enhancement, real power loss reduction, voltage profile improvement and much more. The effectiveness of these FACTS devices is enhanced by the placement of these devices in the transmission lines. The placement is based on transmission line sensitivity factors such as Bus voltage stability index and line voltage stability index. This research article focuses on optimizing the location, number and ratings of FACTS devices using Evolutionary Algorithms like Bacterial Foraging Algorithm and Gravitational search algorithm. FACTS devices such as Static Var Compensator, Thyristor Controlled Series Capacitor and Unified Power Flow Controller are placed on IEEE 14 bus and IEEE 30 bus systems for reducing the real power loss in the transmission system. The results show that the performance of the transmission lines is e nhanced more using Bacterial Foraging Algorithm than Gravitational Search Algorithm.

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A Review on Voltage Balancing Solutions in Multilevel Inverters

Ravivarman²

2015

IJEECS

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<p>Multilevel inverters are used in high power and medium voltage applications. Employing multilevel inverter with renewable energy alone, the voltage balance cannot be made because the number of level increases in multilevel inverter the control gets complexity. So voltage imbalance problems are introduced. The voltage imbalance problems can be classified into two types; Midpoint unbalance and the central capacitor discharge. These problems can be solved by using voltage balancing solutions. The solutions are hardware based; software based, and combined solutions. By using these types of solutions the voltage balancing problems can be solved and the efficiency of multilevel inverter could be high. This paper reviews about various voltage balancing solutions in multilevel inverter.<strong></strong></p>

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Z Source Inverter for Photovoltaic System with Fuzzy Logic Controller

Vijayabalan¹,

Ravivarman²

2012

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Performance study of MATLAB modelled PV panel and conventional PV panel interfaced with LabVIEW

Jaiganesh¹,

Karuppiah²,

Ravivarman³

et al. 2018

IJET

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The maximum electrical energy conversion efficiency of the Solar PV panel is up to 22% in normal conventional roof-top system under the temperature of 25˚C on Standard Test Condition (STC). In Indian climatic conditions, the atmospheric temperature is mostly above 35˚C to 45˚C, it incites 35˚C to 80˚C temperature on the PV panel. The black body of the PV panel absorbs more heat. This temperature affects the electrical efficiency of the panel significantly. This paper proposes the mathematical modelling of the solar PV panel for different solar irradiation and the temperature. The experimental evaluation is conducted in the latitude of 11.36 (N) and longitude 77.82 (E). The testing and monitoring was done with LabVIEW based National Instruments hardware such as NI cDAQ-9178, NI DAQ -9227 and NI DAQ 9225. The comparative study between the simulated result and real time hardware results are discussed in this paper. The test result shows that the output of the proposed model mismatches with the experimental output of the solar PV panel due to the negative correlation between the efficiency and temperature for variable irradiation condition. It shows a power difference of 9.41W between the output of the proposed model and the experimental setup.

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S. Ravivarman

Enhancing the performance of Transmission Lines by FACTS Devices using GSA and BFOA Algorithms

A Review on Voltage Balancing Solutions in Multilevel Inverters

Z Source Inverter for Photovoltaic System with Fuzzy Logic Controller

Performance study of MATLAB modelled PV panel and conventional PV panel interfaced with LabVIEW

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