Research Interests and Outcomes
Embedded Files
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Research Interest
Model Predictive Control and its application in Renewable Energy Field
Off-grid and on-grid Solar PV system modelling
Power System Stability and Control
Dynamic modelling of Electric Vehicle Charging Stations
Smart grid and Distributed Energy Integration
Research Group
Amit Kumer Podder, Group leader Current Affiliation: Doctoral Student, NCSU, USA
Anik Kumar Das, Group MemberPrevious Affiliation: Graduate Student (2k15), KUET, Khulna.Current Affiliation: Assistant Engineer, Nuclear Power Plant Company Bangladesh Limited, Bangladesh.Research Topic: Rooftop Solar PV system Design for an academic building
Oishikha Chakraborty, Group MemberCurrent Affiliation: Graduate Student (2k16), KUET, Khulna, BangladeshResearch Topic: Electric Vehicle Charging Station Design and Integration
Sayemul Islam, Group MemberCurrent Affiliation: Under-graduate Student (2k17), KUET, Khulna, BangladeshResearch Topic: Virtual Power plant, Electric Vehicle, Demand side management
Saima Afroza Supti, Group MemberPrevious Affiliation:Graduate student, Institute of Energy, University of Dhaka.Current Affiliation: Ph.D. student, Simon Fraser UniversityResearch Topic: Integrated Bio-energy
Md. Mostafizur Rahman Komol, Group MemberPrevious Affiliation:Graduate student (2k12), KUET, Khulna, BangladeshCurrent Affiliation: Ph.D. student, Queensland University of TechnologyResearch Topic: Connected Vehicle, Autonomous vehicle
Neloy Bishnu, Group MemberCurrent Affiliation: Under-graduate Student (2k19), KUET, Khulna, BangladeshResearch Topic: PSO based MPPT
Professional Services (Paper Reviews)
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Verified Reviews
IET
IET Renewable Power Generation
Elsevier
Renewable & Sustainable Energy Reviews
Environmental Challenges
Energy Reports
International Journal of Power and Energy Systems
Sustainable Energy Technologies and Assessments
Computer & Electrical Engineering
IEEE
IEEE Transactions on Power Systems
IEEE PES Letters
Springer Nature
Technolgy and Economics of Smart Grids and Sustainable Energy
Artificial Intelligence Review
Scientific Reports
MDPI
Energies
Sustainability
Processes
Crystals
Electronics
Frontiers
Frontiers in Energy Research
Google Scholar Profile
Research Highlights
Floating Solar Photovoltaic Plants
Floating solar photovoltaic (FSPV) systems that allow solar panel installations on water bodies are gaining popularity worldwide as they mainly avoid land-use conflicts created by, and for their superior performance over, ground-mounted photovoltaic installations.
We formulated this work to explore better feasibility assessment approaches for FSPV that presents a holistic performance framework that should be practiced in academia and industry based on the indicators.
A dynamic programming and IoT-based simultaneous load-sharing controller for residential homes
Symbolic representation of confounding situation in hybrid system
The proposed simultaneous load-sharing concept helps the system to decide which ON state loads of a household receive power from rooftop solar PV or grid, considering the maximum power available at the rooftop solar plant.
Prototype of a dynamic programming and IoT-based simultaneous load-sharing controller
The schematic diagram for exchanging data between the Blynk app and hardware model.
The experimental verification ensured the effectiveness and real-time feasibility by reducing the grid energy consumption by 17.59% and related carbon dioxide (CO2) emissions thereby promoting low-carbon solar PV electricity consumption
Virtual Inertia Support in Power Systems for High Penetration of Renewables
A classification of VIC techniques
This study thoroughly reviews existing 51 virtual inertia control (VIC) strategies for improving inertia response and frequency stability and classified as intelligent, adaptive, derivative, coordinated control, and other VIC techniques.
Provides an in-depth analysis of the present state of several VIC techniquesin terms of configurations, fundamental characteristics, simulation platforms, features, and contributions.
Link : https://ieeexplore.ieee.org/document/9978626
Contribution Table
Feasibility Assessment of Hybrid Solar Photovoltaic-Biogas Generator Based Charging Station
Geographical view of the research origin (Narayanganj, Bangladesh)
This paper presents an energy solution for EV charging with two RESs, namely, solar photovoltaic (PV) and biogas.
The proposed system is efficient with a COE of $0.181 irrespective of the variation of solar irradiance from 3.72 to 5.58 kwh/m2.day
The environmental analysis demonstrates that the emission of CO2 is much lower (6.93 kg/h) than the existing grid-only system (16,727 kg/h).
Link : https://www.mdpi.com/2071-1050/14/1/166
A chronological review of prospects of solar photovoltaic systems in Bangladesh
Sensitivity analyses reveal that the total net present cost of the solar project implementation may be increased by 20% (maximum) in the lowest solar potential area than the highest one with an average payback period of 13 years.
Twenty-one feasibility studies at different locations of Bangladesh are reviewed and analysed, in terms of financial viability, sensitivity analysis, and greenhouse gas emissions, to foresee the prospects of solar energy in Bangladesh.
Integrated modeling and feasibility analysis of a rooftop photovoltaic systems
The paper presents a detailed procedure for designing an on-grid roof-top photovoltaic system (RPS) on an academic building’s rooftop, considering the necessary educational activities.
The most viable RPS (91 kW) was found for the selected area is determined, which requires only 37.85% of the total rooftop area, costs nearly $120 790 with a payback period of 8.3 years (from 25 years lifetime of PV) and provides a per-unit cost of $0.0385.
Shading analysis for considered (a) 46 kW, (b) 64 kW, (c) 91 kW and (d) 238 kW solar PV system designed in HelioScope
Control Strategies of Different Hybrid Energy Storage Systems (HWSS) for Electric Vehicles Applications
A schematic representation of HEV system for (a) Fuel cell (FC)-battery-Super-capacitor (SC) (b) FC-SC (c) Battery-SC (d) FC-battery HESS configuration.
This paper reflects a comprehensive review of the imperative information of energy storage systems related to Hybrid Electric Vehicles(HEVs) and procurable optimization topologies based on various control strategies and vehicle technologies.
Various SC bank utilized in different control strategies
Link : https://ieeexplore.ieee.org/document/9389539
IoT based smart agrotech system for verification of Urban farming parameters
In this paper, an IoT based Smart AgroTech system is proposed in the context of urban farming that considers humidity, temperature, and soil moisture as necessary farming parameters. The proposed system decides whether the irrigation action should begin or stop depending on the farming land condition and provides the monitoring facility and remote control to the farm owner
A multivibrator and oscillator trainer kit for an emerging pedagogy in engineering
In this paper, a trainer kit has been developed which is just like a laboratory with necessary components and aims to implement multivibrators (Bistable, Monostable, and Astable) and RC phase shift oscillators in the laboratory.
An illustration for showing overall operation with the proposed trainer kit.
Pictorial view of the implemented trainer kit
Systematic Categorization of Optimization Strategies for Virtual Power Plants (VPP)
This paper presents a comprehensive review of 65 existing different VPP optimization models, techniques, and algorithms based on their system configuration, parameters, and control schemes.
Systematic categorization
A basic framework of VPP
Power Loss Analysis of Solar Photovoltaic Integrated Model Predictive Control Based On-Grid Inverter
This paper presents a finite control-set model predictive control (FCS-MPC) based technique to reduce the switching loss and frequency of the on-grid PV inverter by incorporating a switching frequency term in the cost function of the MPC.
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