@srivasaviengg.ac.in
ASSISTANT PROFESSOR- EEE DEPT
SRI VASAVI ENGINEERING COLLEGE
M.TECH FROM VIGNAN UNIVERSITY IN 2011
Electrical and Electronic Engineering, Electrical and Electronic Engineering, Renewable Energy, Sustainability and the Environment
Scopus Publications
Scholar Citations
Scholar h-index
Scholar i10-index
Lanka Komal Sai Manohar*, , Kotapati Subhash Reddy, Sk. Moulali, G. Swapna, K.V.Siva Reddy, , , , and
Blue Eyes Intelligence Engineering and Sciences Engineering and Sciences Publication - BEIESP
Present day's remote power Transfer Systems are utilized mainly to move the limited quantity of power inside short ranges. In latest applications it is for the most part used to charge Smart Phones, Electric Toothbrushes Scanning RFID [Radio wave Frequency Identification labels are utilized to assemble information or read the data] Tags. In the fields medical, WPT frameworks are utilized to charge the Bio-gadgets like pacemakers with no contact and move the vitality in attractive medium. These all applications are low power gadgets. For high power applications like EV accusing is additionally conceivable of WPT Systems. From the previous barely any years, looks into on Electric vehicles are made increasingly concerned and it picked up ubiquity since it won't emanate any ozone depleting substances and it uses environmentally friendly power vitality. Indeed, even Electric vehicles are having numerous favorable circumstances there are a few issues ejected when it experiences with the clients. One of the primary drawbacks is charging framework. Since it is powerless against certain conditions like Weather, Vandalism and Electrocution. Thus, WPT frameworks are better partner for charging EVs. In this paper, unmistakable sorts of Wireless Power Transfer advancements has given and basic structure of shut and open circle WPT frameworks in tangle lab were given. Further, recognize highlights has been made in the middle of the tangle lab reproduction of both open and shut circle frameworks and distinctive link frameworks and remote power move frameworks.
K. V. Siva Reddy, SK. Moulali, K. Harinadha Reddy, Ch. Rami Reddy, B. V. RajannaRajanna, G. Venkateswarlu, and Ch. Amarendra
Institute of Advanced Engineering and Science
In this paper, a micro grid resonance propagation model is investigated. To actively mitigate the resonance using DG units, an enhanced DG unit control scheme that uses the concept of virtual impedance is proposed. It can be seen that a conventional voltage-controlled DG unit with an LC filter has a short-circuit feature at the chosen harmonic frequencies, whereas a current-controlled DG unit presents an open-circuit characteristic. The application of underground cables and shunt capacitor banks may introduce power distribution system resonances. This paper additionally focuses on developing a voltage-controlled DG unit-based active harmonic damping technique for grid-connected and islanding micro grid systems. An improved virtual impedance control method with a virtual damping resistor and a nonlinear virtual capacitor is proposed. The nonlinear virtual capacitor is used to compensate the harmonic dip on the grid-side inductor of a DG unit LCL filter. The virtual resistance is principally answerable for micro grid resonance damping. The effectiveness of the proposed damping method is examined using each a single DG unit and multiple parallel DG units<strong>.</strong>