Digvijay Bhimrao Kanase

@engg.dypvp.edu.in

Assistant Professor
Dr. D. Y. Patil Institute of Technology



                       

https://researchid.co/digvijaykanase

EDUCATION

M.Tech Electrical Power System
PhD Pursuing

RESEARCH, TEACHING, or OTHER INTERESTS

Electrical and Electronic Engineering, Electrical and Electronic Engineering, Civil and Structural Engineering

16

Scopus Publications

75

Scholar Citations

3

Scholar h-index

2

Scholar i10-index

Scopus Publications

  • Solar PV System and Battery-operated DSTATCOM for Power Quality Enhancement: A Review
    Digvijay Bhimrao Kanase and H. T. Jadhav
    Springer Science and Business Media LLC

  • Incremental conductance MPPT algorithm implementation in a photovoltaic system using CUK converter for battery charging
    Sachin P. Jadhav, Shankar D. Chavan, Digvijay B. Kanase, Pankaj Kumar, and Rajashree Bhokare
    AIP Publishing


  • Energy Management Using Smart Inverter
    Digvijay B Kanase, Sachin P Jadhav, Dushyant P Patil, Shashikant Prasad, Swaraj Kadam, and Digambar P. Patil
    IEEE
    In the digital age, nearly all activities require a consistent power supply to function. Homes may experience prolonged power outages due to major disruptions in the local or regional electrical grid, often caused by severe weather, car accidents, or fallen trees. Inverters are commonly used as backup power sources in homes and are frequently employed as secondary power sources in both residential and commercial settings. The primary function of a solar inverter is to convert the direct current (DC) electricity generated by photovoltaic cells into alternating current (AC) power. Smart inverters further enhance this by utilizing batteries to store excess energy. These inverters optimize power management and ensure efficient operation. Maximum Power Point Tracking (MPPT) technology is implemented to maximize energy extraction from solar panels, thereby improving overall system efficiency. The system also supports remote monitoring and management, allowing for optimized battery storage and improved performance.

  • Underwater Wireless Communication Network By Magnetic Field Using Sparse Sensing
    Shankar D. Chavan, Digvijay B Kanase, Sachin P Jadhav, Sudhanshu Uttarwar, Shashikant Prasad, and Anand Kumar
    IEEE
    Even though acoustic waves are the broadly used technology inside the body layers of UWCNs, they’re negatively stricken by blurring, ambient noise and multipath distribution. Low bandwidth, high distribution delays. To overcome the problem of various losses occurred in the acoustic wave communication we need another technology. Magnetic Induction (MI) is an confident technique for UWCN unaffected through multipath distribution, widespread distribution delays and wilting. This paper will describe the Magnetic field (MF) communication channel modeled by scant estimation to reduce the error produces in acquired sign. thinking about the significance, this paper offers a review of the primary principles of MF communication with compressive sensing.

  • PLC-SCADA based Online Monitoring and Conditioning of Laboratory
    Shashikant Prasad, Swaraj Kadam, Trupti Dhanadhya, Digvijay Kanase, and Sachin Jadhav
    IEEE
    The potential for energy savings in commercial buildings is significant, with international studies indicating a reduction of $\\mathbf{2 5 \\%}$ to $\\mathbf{3 5 \\%}$ through automation. In India, however, the adoption of automation in commercial buildings remains limited, primarily concentrated in industrial settings. This paper examines the implementation of automation in critical systems such as air conditioning and lighting within commercial buildings. Using Programmable Logic Controllers (PLCs) as the preferred automation technology, this research outlines the design and deployment of a PLC-based energy-saving system. The integration of a PLC-SCADA framework for real-time monitoring and control is demonstrated to enhance system efficiency, optimize energy consumption, and enable proactive maintenance. The findings emphasize the economic and environmental benefits of adopting PLC-based automation in commercial buildings, highlighting its scalability and reliability. This study contributes to advancing automation practices in India’s commercial sector, encouraging broader adoption for sustainable energy management.

  • Optimizing Efficiency and Extending Battery Life in Electric Vehicles: A Comprehensive Analysis of System Components and Design Strategies
    Swaraj Kadam, Trupti Dhanadhya, Dushyant Patil, Shashikant Prasad, and Digvijay Kanase
    IEEE
    The urgency for environmentally friendly transportation solutions has driven the rapid expansion of the electric vehicle (EV) market, revolutionizing the automotive industry. This paper provides an in-depth analysis of EV system topology, highlighting essential components, structures, and interactions that ensure efficient and reliable operation. Key aspects of an electric powertrain-based vehicle are explored, including the battery pack and motor. The study details the main components of an EV system-control unit, power electronics, energy storage (battery), and electric motor-which collectively support propulsion, energy storage, and overall functionality. A practical component of this research involved converting an old petrol vehicle into an electric vehicle to validate theoretical calculations and predict battery life and efficiency. Emphasis is placed on the control unit and power electronics for managing power flow, and the battery system for its capacity and lifecycle efficiency. The electric motor’s performance is assessed based on torque and power output. Efficiency improvements through modifications in aerodynamic drag coefficient (CA), mass (M), and rolling resistance coefficient (Crr) are analyzed, showing significant gains. Reducing CA from 0.7 to 0.6 improved efficiency by 4-13%, lowering mass from 180 kg to 160 kg increased efficiency by $0.9-8 \\%$, and decreasing Crr from 0.004 to 0.003 led to $2-18 \\%$ efficiency gains. Battery life predictions indicate that lower speeds considerably extend battery life, with approximately 51.27 hours at $10 \\mathrm{~km} / \\mathrm{h}$ and 1.02 hours at $55 \\mathrm{~km} / \\mathrm{h}$.

  • Crop Detection and Weed Removal Agriculture Robot
    Digambar P. Patil, Digvijay B. Kanase, Seema S. Patil, Deepak B. Patil, Himmat Singh Purohit, and Nupoor Mhatre
    IEEE
    Weed management is important thing of modern agriculture, as weeds can significantly impact crop yields, increase production costs, and pose environmental challenges. Weeds are unwanted plants that make race with desirable crops for resources such as nutrients, sunlight and water. It can cause significant damage to crops and other vegetation if left uncontrolled. The use of herbicides to control weeds can result in environmental pollution if not applied properly or if excessive amounts are used. Continuous use of herbicides without proper rotation or alternative weed management strategies can lead to the development of herbicide-resistant weed populations. Weed presence in harvested crops can reduce their quality, making them less marketable. The weed removal robot will be equipped with various sensors to scan the field and detect the presence of weeds. Advanced computer vision algorithms and machine learning techniques are often employed to differentiate between crops and weeds based on color, shape, or other characteristics. Sensors scan the field and capture images or data that are then processed by the processor. The single board computer can be programmed to recognize the visual differences between crops and weeds based on color, shape, or other characteristics. This robot will be equipped with precise actuators, which can include mechanical arms or electric tools. These actuators are used to perform the actual weed removal tasks. The processor controls the weed removal mechanism, which could be a mechanical arm with tools like rotating brushes or blades for physical weed removal

  • Efficient Load Balancing and Neutral Current Management in Three-Phase Systems with DSTATCOM
    Digvijay B Kanase and H. T. Jadhav
    IEEE
    In three-phase four-wire distribution networks, numerous challenges persist regarding power quality that require attention. These challenges encompass deficient voltage regulation, increased demands for reactive power and harmonic currents, uneven distribution of loads, and an overflow of neutral currents. Consequently, there exists a notable accumulation of neutral current across fundamental and harmonic frequencies. This investigation examines the potential of the T -linked transformer to reduce neutral current, while concurrently assessing the capability of the VSC to regulate reactive power, harmonic currents, and load distribution. Through the use of MATLAB's Simulink and Power Grid Block Set toolboxes, DSTATCOM is implemented efficiently.

  • Electric Bicycle using Pedal Assist System (PAS)
    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.

  • Supercapacitor powered electric car as vitual power plant
    Ajinkya Patil, Swapnil Patil, Suraj Pawar, and Digvijay Kanse
    AIP Publishing

  • PV Operated DSTATCOM for Power Quality Enhancement for the Three Phase Four Wire Distribution System
    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.

  • Three-Phase Distribution Static Compensator for Power Quality Improvement
    Digvijay B. Kanase and H. T. Jadhav
    Springer Science and Business Media LLC


  • Distribution static compensator for power quality improvement using PV array
    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.

  • Performance of DC to DC dual active bridge converter driving single phase inverter


RECENT SCHOLAR PUBLICATIONS

  • Optimizing Efficiency and Extending Battery Life in Electric Vehicles: A Comprehensive Analysis of System Components and Design Strategies
    S Kadam, T Dhanadhya, D Patil, S Prasad, D Kanase
    2024 International Conference on Intelligent Systems and Advanced 2024

  • Energy Management Using Smart Inverter
    DB Kanase, SP Jadhav, DP Patil, S Prasad, S Kadam, DP Patil
    2024 International Conference on Intelligent Systems and Advanced 2024

  • Underwater Wireless Communication Network By Magnetic Field Using Sparse Sensing
    SD Chavan, DB Kanase, SP Jadhav, S Uttarwar, S Prasad, A Kumar
    2024 International Conference on Intelligent Systems and Advanced 2024

  • PLC-SCADA based Online Monitoring and Conditioning of Laboratory
    S Prasad, S Kadam, T Dhanadhya, D Kanase, S Jadhav
    2024 International Conference on Intelligent Systems and Advanced 2024

  • Crop Detection and Weed Removal Agriculture Robot
    DP Patil, DB Kanase, SS Patil, DB Patil, HS Purohit, N Mhatre
    2024 International Conference on Intelligent Systems and Advanced 2024

  • Solar PV system and battery-operated DSTATCOM for power quality enhancement: a review
    DB Kanase, HT Jadhav
    MAPAN 39 (3), 751-773 2024

  • Incremental conductance MPPT algorithm implementation in a photovoltaic system using CUK converter for battery charging
    SP Jadhav, SD Chavan, DB Kanase, P Kumar, R Bhokare
    AIP Conference Proceedings 3122 (1) 2024

  • Three phase four wire distribution static compensator for power quality improvement
    DB Kanase, HT Jadhav
    AIP Conference Proceedings 3122 (1) 2024

  • Efficient Load Balancing and Neutral Current Management in Three-Phase Systems with DSTATCOM
    DB Kanase, HT Jadhav
    2024 1st International Conference on Cognitive, Green and Ubiquitous 2024

  • Electric Bicycle using Pedal Assist System (PAS)
    N Yadav, D Patil, SP Jadhav, D Kanase, S Prasad
    2024 IEEE International Students' Conference on Electrical, Electronics and 2024

  • PV Operated DSTATCOM for Power Quality Enhancement for the Three Phase Four Wire Distribution System
    DB Kanase, HT Jadhav
    2023 2nd International Conference on Edge Computing and Applications (ICECAA 2023

  • Supercapacitor powered electric car as vitual power plant
    A Patil, S Patil, S Pawar, D Kanse
    AIP Conference Proceedings 2717 (1) 2023

  • MPPT Charge Controller With Battery Protection
    DBK Tushar Dilipkumar More,Anisha Suresh Vanjari,Harshada Hanmant Pawar ...
    International Research Journal of Modernization in Engineering Technology 2023

  • Accident Detection and Alert System for Vehicles
    PBT Digvijay B. Kanase, Chaitanya P. Deshpande, Mayur R. Borate, Vishal L ...
    International Journal for Research Trends and Innovation 8 (3), 491 - 494 2023

  • Three-phase distribution static compensator for power quality improvement
    DB Kanase, HT Jadhav
    Journal of The Institution of Engineers (India): Series B 103 (5), 1809-1826 2022

  • Induction Motor Control and Protection Using IOT
    K Digvijay B, PV Deshmukh, PG Landge, PB Patil
    International Journal of Innovative Science and Research Technology 7 (Issue 2022

  • Condition Monitoring and Controlling of Induction Motors based on PIC Microcontroller and GSM System
    DB Kanase, MS Sangli, VB Patil, A Metkari
    Intelligent Transport Management: Issues and Challenges, 228 2021

  • DC/DC buck converter using fuzzy logic controller
    ND Bhat, DB Kanse, SD Patil, SD Pawar
    2020 5th International Conference on Communication and Electronics Systems 2020

  • Maximum Power Point Tracking along with Perturb and Observe method in Hybrid Micro-Grid
    PS Mali, SD Patil, SD Pawar, DB Kanase, RB Madake
     2020

  • Modulation and Control of Transformer less UPFC for Interconnecting Synchronous AC Grids
    MA Pawar, SD Patil, SD Pawar, DB Kanase
     2020

MOST CITED SCHOLAR PUBLICATIONS

  • DC/DC buck converter using fuzzy logic controller
    ND Bhat, DB Kanse, SD Patil, SD Pawar
    2020 5th International Conference on Communication and Electronics Systems 2020
    Citations: 33

  • Distribution static compensator for power quality improvement using PV array
    DB Kanase
    2015 IEEE International Conference on Electrical, Computer and Communication 2015
    Citations: 14

  • Three-phase distribution static compensator for power quality improvement
    DB Kanase, HT Jadhav
    Journal of The Institution of Engineers (India): Series B 103 (5), 1809-1826 2022
    Citations: 9

  • Solar PV system and battery-operated DSTATCOM for power quality enhancement: a review
    DB Kanase, HT Jadhav
    MAPAN 39 (3), 751-773 2024
    Citations: 3

  • Electric Bicycle using Pedal Assist System (PAS)
    N Yadav, D Patil, SP Jadhav, D Kanase, S Prasad
    2024 IEEE International Students' Conference on Electrical, Electronics and 2024
    Citations: 3

  • PV Operated DSTATCOM for Power Quality Enhancement for the Three Phase Four Wire Distribution System
    DB Kanase, HT Jadhav
    2023 2nd International Conference on Edge Computing and Applications (ICECAA 2023
    Citations: 3

  • Incremental conductance MPPT algorithm implementation in a photovoltaic system using CUK converter for battery charging
    SP Jadhav, SD Chavan, DB Kanase, P Kumar, R Bhokare
    AIP Conference Proceedings 3122 (1) 2024
    Citations: 2

  • Electricity generation from roads by using flip plate mechanism
    DB Kanase, D Patil, M Patil, A Pharne, P Waware
    European Journal of Electrical Engineering and Computer Science 3 (3) 2019
    Citations: 2

  • AN ENERGY AUDIT OF AN INDUSTRY: A CASE STUDY
    DB KANASE, VB PATIL
     2019
    Citations: 2

  • Supercapacitor powered electric car as vitual power plant
    A Patil, S Patil, S Pawar, D Kanse
    AIP Conference Proceedings 2717 (1) 2023
    Citations: 1

  • Maximum Power Point Tracking along with Perturb and Observe method in Hybrid Micro-Grid
    PS Mali, SD Patil, SD Pawar, DB Kanase, RB Madake
     2020
    Citations: 1

  • Comparative Study of Feed Forward and SPWM Control Technique for DC to DC Dual Active Bridge Converter Driving Single Phase Inverter
    DB Kanase, SS Amale, YA Makandar, DA Patil
     2016
    Citations: 1

  • PERFORMANCE OF DC TO DC DUAL ACTIVE BRIDGE CONVERTER DRIVING SINGLE PHASE INVERTER
    DB Kanase, HT Jadhav, RA Metri
    power 1, 9 2015
    Citations: 1