Yayati Bhimrao Shinde

@bvcoenm.edu.in

Assistant Professor
Bharati Vidyapeeth college of Engineering, Navi mumbai



           

https://researchid.co/yayatishinde

RESEARCH, TEACHING, or OTHER INTERESTS

Mechanical Engineering, Materials Science, Renewable Energy, Sustainability and the Environment, Waste Management and Disposal

7

Scopus Publications

Scopus Publications

  • Medical Robotics for Pandemic Crisis: A Rover-Inspired Solution for Contactless Healthcare Logistics


  • Design and Control of PV Based Isolated Power Supply Using iQF Controller for Agricultural
    R. Shanmugasundaram, Joshua Daniel S, Prashant D Yadav, Deepak T. Patil, Yayati Shinde, and C. Mohan Raj
    IEEE
    Electricity is very important in agriculture. Such electricity is not always available to the farmers. Uninterrupted power becomes impossible due to natural disasters, repairs, maintenance etc. The main objective of this research paper is to generate uninterrupted electricity from sunlight, store it and run agricultural equipment. FX5U iQF controller is used as the heart of the standalone power system. FX5U32MTESS controller is used for controlling the mode of operation of standalone power system. Both online mode and offline mode of operations are accomplished by the FX5U controller. FX5U controller has an inbuilt PWM port for controlling the solar tracking mechanism. Produced solar energy is stored in the battery through the charge controller and the same is used to drive the irrigation pump motor. Variable AC is obtained from the inverter part and the DC-DC chopper is used for obtaining the variable dc supply from the battery dc link voltage. The entire power system is easy to move wherever the power supply is required. The parameters of the standalone power supply are monitored by GT27 GOT2000 HMI.

  • The Effect of Lean-Green-Six Sigma Practices on Organizational Performance: A Machine Learning Approach
    Lokpriya Gaikwad, Chandan Chaudhari, Sandip Kanase, Yayati Shinde, Jaydeep Patil, and Vahid M. Jamadar
    Springer Nature Singapore

  • Recycling Methods for Crystalline Silicon Solar Panels
    Padmini Sawant, Yayati Shinde, Prathmesh Patil, Shubhangi Gurav, Surekha Khetree, and Firdos Khan
    IEEE
    Solar panels are used to utilize solar energy and life of solar panel is around 25 to 30 years. Landfilling option is used for end-of-life (EOL) PV Modules. However, it contains dangerous and non-biodegradable materials, which, if improperly recycled, may contaminate the environment in a number of ways, so recycling is necessary. The end of a PV module's life cycle has been examined and analyzed using a variety of methodologies in a several of research studies. Various research publications have identified some drawbacks, such as harmful emissions during certain processes, reduced process complexity, imperfect process efficiency, energy requirements, and usage of harmful chemicals. This article provides different methods of recycling of crystalline silicon solar panel investigated by various researchers, industries. Using a series of mechanical, thermal & chemical processes, acceptable recycling methods for crystalline silicon solar cells are listed in this paper with different efficiencies of recycling.

  • A Complete Appraisal of Various Emerging Battery Technology Along with Its Own Attributes
    N. Pushpalatha, G. Banu, Govind Vishwanath Jagatap, S. Sivaranjani, Yayati Shinde, and J. Uma
    IEEE
    Attributes of battery is the reliable key for any sustainable Electrical power source. Appraising the battery along with its unique feature deserves its appropriate application. Normally there are several aspects need to consider for choosing the right battery. The performance attributes like type of battery, Watt hour rating, Energy density or specific energy, Battery power, rate capability, or C-rate, Cycle life, Calendar life, Charge rate or charge speed, Swell rate, Impedance, Battery State of Charge (BSOC), power density, Depth of Discharge, Daily Depth of Discharge, Charging and Discharging Rates, Charging and Discharging Regimes etc., Searching the best battery with tremendous knowledge and best performance is challenging as still the technology is evolving. In that aspects this paper insight the few essential qualities and process involved in appropriate battery selection.

  • Increase in Solar Panel Efficiency by the Use of Easy Mirror and Cooling Gadget
    Vinayak Patil, Sandip Kanase, Shivgond Teli, Jaydeep Patil, Yayati Shinde, Sandhya Jadhav, and Amit Kadam
    Springer Nature Singapore

  • An Investigation on Battery Management System for Autonomous Electric Vehicles
    K. Raj Thilak, S. Ashwinkarthik, M. Varatharaj, V. Muralidharan, M. Vinosh, and Yayati Shinde
    IEEE
    Autonomous Electric Vehicles (AEVs) use the next generation batteries and other upgraded technologies to transform passengers from a boarding point to their destination more efficiently, without the need for drivers and fossil fuel-driven internal combustion engines. In today's electric vehicles, the commonly used batteries are lithium-ion batteries. This paper presents the study of Battery Monitoring Systems (BMS) in AEVs. The aim of the monitoring system in a battery is to improve the efficiency of electric vehicles. Therefore, Very Large-Scale Integration (VLSI) plays a role in AEVs due to the growth in efficiency of the BMS. To overcome the issues in BMS, some modules are also developed in the battery monitoring system to improve the state of technology.