Ph.D (Electrical and Electronics Engineering) -Shri Venkateshwara University: Gajraula, IN-2018
M.Tech ( High Voltage Engineering) -Jawaharlal Nehru Technological University - Kakinada: Kakinada, Andhra Pradesh, IN-2013
B.Tech (Electrical and Electronics Engineering)-Jawaharlal Nehru Technological University-Bhadrachalam -2003
RESEARCH INTERESTS
Power System , Power Electronics, FACTS
25
Scopus Publications
Scopus Publications
Manufacturing techniques for Aluminium metal matrix composites, an in-depth review of recent advancements Sachin Jain, Rahul Kumar Singh, Radhika Ikkurti, T.V.V.Pavan Kumar Journal of Physics Conference Series, 2026 The aluminium metal matrix composites (AMMCs) have emerged as an attractive category of advanced materials with their high performance attributes to their in comparison to the traditional aluminium alloys. These composites exhibit a higher ratio of strength-to-weight, a higher wear and corrosion resistance, and customized thermal and electrical conductivities by introducing ceramic, metallic or bio-based reinforcements into the aluminium matrix. Much research has been done on their preparation by both liquid state and solid state processing pathways. The most accepted technique of liquid state can be considered as stir casting which is easy and economically viable, but solid-state techniques are also being used increasingly in order to overcome the problems of porosity, segregation and ineffective interfacial bonding of liquid processing. Advancement in these fabrication methods has led to creation of AMMCs whose characteristics are applicable to engineering services in the automobile industries, aerospace, marine, and electronic industries. This review summarizes the latest developments in the processing methods, points out the consequent enhancements in the properties of the materials and outlines the various industrial uses as such, hence giving us perspectives of the current trends as well as the research perspectives.
Role of clay sediment environments in synthesis of Gas Hydrates using non-stirred and stirred reactors Radhika Ikkurti, Saritha Dasari, Pallavi Shastrula, Mahendra Munirathnam, T.V.V. Pavan Kumar Journal of Physics Conference Series, 2026 This work examines how different clay environments influence the formation of methane gas hydrates. The study shows that hydrate growth in clay-rich systems is noticeably slower when the water–sediment ratio is high, mainly because a larger portion of the water becomes tightly bound to the fine clay particles and is not readily available for hydrate formation. The experiments also reveal clear differences in induction time and the overall cooling behaviour of the system when pressure and sediment type are varied. These factors collectively affect both the onset and the rate of hydrate growth. During the repeated thawing and cooling cycles, there was an abrupt increase in the formation of the hydrate once the samples went beyond the sub-cooling range and moved closer to the saturated point. This result clearly highlights the importance of the texture of the clay and the distribution of the water in the process of hydrate formation.
Navigating Independence: The Smart Walking Stick for the Visually Impaired Rajanish Kumar Kaushal, T V V Pavan Kumar, Sharath N, Swapnil Parikh, Natrayan L, Harshal Patil Proceedings 2024 5th International Conference on Mobile Computing and Sustainable Informatics Icmcsi 2024, 2024 Blindness is a common disability that affects millions of people globally. According to the World Health Organization (WHO), there are approximately 285 million individuals in the globe who are visually challenged, with 39 million classified as blind and 246 million having low vision. The vast majority, about 90%, of these individuals live in developing countries. Conventional walking sticks are ineffective in identifying obstacles, offering a substantial challenge to the visually impaired. In response to this problem, the study proposes a revolutionary solution: the "smart blind stick." The recent technologies integrates sensors with Artificial Intelligence (AI) and wireless transmission to help visually impaired individuals. The identification of obstacles is vital to its functioning, which is especially important for people with visual impairments. The model consists of an ultrasonic sensor, a camera, and a speaker into the smart blind stick to tackle this issue. These components operate in tandem to detect items and notify the user as soon as they are detected. The smart stick also includes an emergency switch, GSM, and GPS capabilities. In an emergency, the user can activate this option, causing the system to send an SMS to a specified contact, replete with the user's actual location. The incorporation of these characteristics is an important step toward increasing the self-reliance of visually impaired people while navigating their surroundings. The smart blind stick is a companion as well as a walking assistance, allowing users to face daily problems with greater confidence and independence.
Performance analysis of ZVS and ZCS boost converters for Solar Photo Voltaic Applications Devineni Gireesh Kumar, Nagineni Venkata Sireesha, D.S. Naga Malleswara Rao, Kshatri Sainadh Singh, Prashant Chaudhary, T.V.V. Pavan kumar E3s Web of Conferences, 2023 This paper describes a useful modulated, asymmetric full-bridge converter for sustainable solar PV applications. The suggested converter achieves zero-voltage switching (ZVS) on the main side’s power switches and reduces circulating current loss by utilizing a full-bridge architecture and an asymmetric control method. The blocking capacitor and the leakage inductance of the transformer operate in resonance to further provide the Zero Current Switching (ZCS) off for the output diode without the need for any further circuitry. Output diode reverse recovery is no longer a concern as a result. Additional connections to the input voltage include the power switch voltage stresses. Because of these features, the suggested converter has the infrastructure to reduce power losses. The buildings of renewable energy sources can benefit especially from it.
Optimized Inverter Circuits for Driving Dual AC Loads for Home Solar Water Pumping Devineni Gireesh Kumar, Nagineni Venkata Sireesha, D.S. Naga Malleswara Rao, Pandla Chinna Dastagiri Goud, Musheer Vaqur, T.V.V. Pavan kumar E3s Web of Conferences, 2023 This research presents a generic pulse width modulation (PWM) approach for nine switch inverters and five-leg inverters. The circuit design of both inverters and a modulation mechanism for separate drives have been described. The available DC bus voltage supplied the two induction motors using a PWM technique for a 5-leg inverter. Nine-switch inverters and nine-switch z-source inverters have lately been presented as dual-output inverter. A nine-switch z-source inverter and a unique pulse width modulation (PWM) were created. Also, a five-leg inverter is modelled using Extended Two Arm Modulation (ETAM) scheme. The suggested modulation techniques were applied to control two machine drive systems with a single inverter architecture with a reduced switch count for pumping the water to house hold appliances. The comparative analysis of the two dual-output inverters is integral to this work.
Integrated Solar Roofing T.V.V. Pavan Kumar, M. Harivardhan, V. Santhosh, G. Vamshi, Praveen Jugge, Awadhesh Chandramauli E3s Web of Conferences, 2023
EV BMS With Temperature and Fire Protection T.V.V. Pavan Kumar, U. Rajendra, G. Varaprasad, G. Suryaprakash, T. Sadanand, Vinay Kumar Awaar, Surya Prakash Gairola E3s Web of Conferences, 2023
Low-cost Battery Management System For E-vehicles T. V. V. Pavan Kumar, Moazzam Haidari, R. Vimala, Raghavendra Subramanya, Lakshminarayana. M, Hemavathi International Conference on Edge Computing and Applications Icecaa 2022 Proceedings, 2022
AAYU APP - Mobile application for healthcare management system Yeresime Suresh, T Vineeth Kumar, Firdous Afreen, Mohammed Muniruddin, Cheella Ashwith Kumar Proceedings of the 3rd International Conference on Smart Systems and Inventive Technology Icssit 2020, 2020
Enhancing power quality using fuzzy logic for microgrid system International Journal of Advanced Science and Technology, 2019
A critical evaluation of islanding and seamless reconfiguration technique for microgrid system with fuzzy logic controller based UPQC scheme International Journal of Recent Technology and Engineering, 2019
Reducing number of switches in multi level inverter using diode clamped & h-bridge inverters Journal of Advanced Research in Dynamical and Control Systems, 2019
