@engg.dypvp.edu.in
Assistant Professor
Dr. D. Y. Patil Institute of Technology
M.Tech Electrical Power System
PhD Pursuing
Electrical and Electronic Engineering, Electrical and Electronic Engineering, Civil and Structural Engineering
Scopus Publications
Scholar Citations
Scholar h-index
Scholar i10-index
Ninad Yadav, Dushyant Patil, Sachin P Jadhav, Digvijay Kanase, and Shashikant Prasad
IEEE
The purpose of this paper was to design and build an electric bicycle that incorporates the Pedal Assist System (PAS). The PAS system detects when the rider starts pedaling and immediately kicks in to provide electric assistance, making riding easier and more efficient. Our team utilized a lithium-ion battery and a brush less DC motor to power the PAS system. The bicycle was designed to be easy to ride, energy efficient and sustainable mode of transportation. The PAS system was successfully integrated into the bicycle, and it proved to be highly effective in assisting the rider. Overall, our paper successfully demonstrated that PAS based electric bicycles are a viable alternative to traditional bicycles and gasoline- powered vehicles, with the potential to revolutionize personal transportation.
Digvijay Bhimrao Kanase and H. T. Jadhav
Springer Science and Business Media LLC
Ajinkya Patil, Swapnil Patil, Suraj Pawar, and Digvijay Kanse
AIP Publishing
Digvijay Bhimrao Kanase and H.T. Jadhav
IEEE
This research work provides a detailed study of power quality issues in a three-phase four-wire system caused by nonlinear load penetration at the distribution side. Non-conventional sources, primarily photovoltaic cell, is directly connected to the Static synchronous compensator (DSTATCOM) at the side of the DC-link capacitor to maintain the constant voltage required by the Voltage source converter, i.e. DSTATCOM, which improves overall power quality issues within the distribution system. Unbalanced loads, a high reactive power burden, and poor voltage control are common issues of three-phase three-wire and three-phase four-wire systems. But the most significant issue in the three-phase system's four-wire distribution system is neutral current. The effectiveness of DSTATCOM over other custom power devices for improving power quality is determined by the use of control algorithms. A control algorithm suitable for a static synchronous compensator for determining power quality is developed. The analysis is carried out using the synchronous reference frame (SRF) method. Nowadays, Renewable Energy (RE) based power quality enhancement approaches are of considerable interest to many researchers; this work describes a comprehensive evaluation of a Distribution Static Compensator operated with a solar photovoltaic system. This research addresses the photovoltaic fed three-leg static synchronous compensator (PV DSTATCOM) for enhancing power quality.
Digvijay B. Kanase and H. T. Jadhav
Springer Science and Business Media LLC
Digvijay B Kanase, A. R Thorat, and H. T Jadhav
IEEE
The three phase system is undergoing major PQ problems because of various loads present in system and also due to unplanned expansion of the network. Most of AC loads consumes reactive power that result in poor power quality in power system. The paper proposes distribution static compensator for improvement of power quality using PV cell. Dstatcom is used for reducing the reactive power that resulted from various types of load on the distribution systems. The Dstatcom is used for compensating harmonics and neutral current at PCC.