Your search keyword '"Mojtaba Ghadamyari"' showing total 12 results

1. An innovative technique for optimization and sensitivity analysis of a PV/DG/BESS based on converged Henry gas solubility optimizer: A case study

Author

Noradin Ghadimi, Majid Sedaghat, Keyvan Karamnejadi Azar, Behdad Arandian, Gholamreza Fathi, and Mojtaba Ghadamyari

Subjects

converged Henry gas solubility optimization algorithm, hybrid renewable energy system, multi‐objective optimization, sensitivity analysis, Taklamakan desert, ε‐constraint method, Distribution or transmission of electric power, TK3001-3521, Production of electric energy or power. Powerplants. Central stations, TK1001-1841

Abstract

Abstract The construction of hybrid power plants with renewable resources can bring significant economic benefits if it is evaluated economically and technically. The present study uses a novel optimum methodology for designing a combined solar/battery/diesel system in Yarkant, Xinjiang Uyghur Autonomous Region of China. In the desired system, the green energy combined system is designed to reduce the use of diesel generators. The diesel generator has been used in the photovoltaic, diesel, and battery to support green energy resources and batteries, as well as function as a backup generator for critical times whenever the production of green energy resources is low or the load demand is high. The amount of CO2 emitted, the probability of load shortage and the system cost on yearly basis are the major goals in the process of optimization. Here, the single‐objective problem is created by using the ε‐constraint technique to combine the many objectives. An improved Henry gas solubility optimizer handles the problem of optimization. To demonstrate the superiority of the strategy, a comparison is conducted between the simulation outcomes of the offered system, HOMER, and particle swarm optimizer ‐based optimum systems from the literature. The sensitivity of each parameter is also examined using sensitivity analysis.

Published

2023

2. Evaluating the efficiency of CCHP systems in Xinjiang Uygur Autonomous Region: An optimal strategy based on improved mother optimization algorithm

Author

Shunlei Li, Xia Fang, Jiawei Liao, Mojtaba Ghadamyari, Majid Khayatnezhad, and Noradin Ghadimi

Subjects

Gas turbine, Combined cooling heating and power system, Optimization, Improved mother optimization algorithm, 4E analysis, Exergy, Engineering (General). Civil engineering (General), TA1-2040

Abstract

A novel approach is presented in this research to improve the design of a combined cooling, heating, and power (CCHP) system. The focus of the study is on a gas turbine system that can provide efficient power, cooling, and heating. The efficacy of the proposed technique is evaluated based on four parameters, namely energetic, exergetic, economic, and environmental features. To achieve superior and optimal results, an Improved Mother Optimization Algorithm (IMOA), a recently developed metaheuristic algorithm, is employed. This study provides a comprehensive guide for enhancing the performance, efficiency, and sustainability of CCHP systems. A practical case study was conducted to evaluate the proposed methodology in rural areas of Xinjiang Uygur Autonomous Region, China, over a period of one year. The simulation results reveal that the Gas Engine (GE) and the boiler components play a significant role in utilizing fuel energy, contributing 65 % and 35 %, respectively to the overall utilization. The analysis of the destruction rate of profile highlights that heat dissipation, mechanical losses, and electrical losses are the primary sources of energy losses within the system. When comparing the proposed IMOA with existing techniques, it is evident that the IMOA achieves a noteworthy 10 % reduction in energy consumption and a remarkable 15 % increase in overall efficiency of system. Furthermore, in terms of environmental impact, the IMOA leads to a substantial 20 % reduction in carbon dioxide (CO2) emissions compared to traditional optimization methods. The economic analysis results demonstrate that the IMOA-based approach not only improves cost-effectiveness by 25 %, but also yields an estimated return on investment (ROI) that is 18 % higher than alternative optimization techniques. Moreover, the proposed method with minimum fuel usage of 0.200 L/h, compared with Improved Butterfly Optimizer (IBO) with 0.201 L/h, Modified Mayfly (MM) algorithm with 0.205 L/h, Developed Owl Search (DOS) algorithm with 0.211 L/h, and Improved Owl Search (IOS) algorithm methods with 0.207 L/h, provides better results.

Published

2024

3. An Overview on Power Quality Issues and Control Strategies for Distribution Networks With the Presence of Distributed Generation Resources

Author

Darioush Razmi, Tianguang Lu, Behnaz Papari, Ehsan Akbari, Gholamreza Fathi, and Mojtaba Ghadamyari

Subjects

Power quality, distributed generation resources, renewable energy, harmonic, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Power systems based on centralized production are facing two limitations: the lack of fossil fuels and the need to reduce pollution; Therefore, the importance of distributed generation resources (DGs) has increased by connecting renewable energy systems to the network. With the increasing penetration of renewable energies in the network, power quality challenges in low voltage and medium voltage distribution systems have become one of the main fields of studies. Since most of the renewable energy systems are connected to the network with the help of electronic power converters devices and the main purpose of these converters is to connect DGs to the network in compliance with power quality standards; Therefore, if the switching frequency of inverters is not implemented properly, major power quality problems will be created. On the other hand, the reduction in power quality causes acute problems in power networks, which include lack of proper performance, reduction in useful life and efficiency of electrical and electronic devices in the network, creation of series and parallel resonance in some harmonics due to the presence of inductors and the capacitor, and as a result, more distortion in the voltage of the distribution network. This paper actually provides a road-map for researchers to investigate power quality issues. In other words, the mentioned cases show the importance of research and providing the solutions to improving power quality in distribution networks.

Published

2023

4. Bi‐level optimization of the integrated energy systems in the deregulated energy markets considering the prediction of uncertain parameters and price‐based demand response program

Author

Ali Toolabi Moghadam, Farideh Soheyli, Sareh Sanei, Ehsan Akbari, Hossein Khorramdel, and Mojtaba Ghadamyari

Subjects

demand response program, distribution network, energy hub, multienergy system, optimization, Technology, Science

Abstract

Abstract The proliferation of multienergy systems (MESs) in recent years has led to the higher efficiency of energy consumption in different sectors. MESs are generally studied in the context of energy hubs (EHs). Most of the previous works in the field of EH operation and scheduling are at the scale of residential households or communities. There is a research gap in proposing a framework in which the EH actively interacts with different energy networks. This article, however, is focused on the optimal operation and scheduling of the EH and two integrated energy grids such as power and heat distribution systems. The EH consists of combined heat and power (CHP), electric heat pump (EHP), thermal and electric energy storage systems, which are operated by an independent entity. The proposed optimization problem is based on the bi‐level optimization method in which the EH is the leader and two networks are the followers. Nonlinear variables are also linearized using binary expansion and Big M methods. As another research novelty, uncertainties of load demand and photovoltaic (PV) systems' output power are taken into account using a mixed machine learning (ML)‐based forecasting method. To enhance the flexibility of the system, a price‐based demand response (DR) program is proposed based on the predicted load pattern of the mixed ML method. Simulation results show the efficiency of the optimization model. Also, the DR program has a significant impact on the system's cost by 40% improvement in the profit of the system.

Published

2022

5. SqueezeNet for the forecasting of the energy demand using a combined version of the sewing training-based optimization algorithm

Author

Noradin Ghadimi, Elnazossadat Yasoubi, Ehsan Akbari, Mohammad Hosein Sabzalian, Hamzah Ali Alkhazaleh, and Mojtaba Ghadamyari

Subjects

Energy demand forecasting, SqueezeNet, Combined sewing training-based optimization, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

With the introduction of various loads and dispersed production units to the system in recent years, the significance of precise forecasting for short, long, and medium loads have already been recognized. It is important to analyze the power system’s performance in real-time and the appropriate response to changes in the electric load to make the best use of energy systems. Electric load forecasting for a long period in the time domain enables energy producers to increase grid stability, reduce equipment failures and production unit outages, and guarantee the dependability of electricity output. In this study, SqueezeNet is first used to obtain the required power demand forecast at the user end. The structure of the SqueezeNet is then enhanced using a customized version of the Sewing Training-Based Optimizer. A comparison between the results of the suggested method and those of some other published techniques is then implemented after the method has been applied to a typical case study with three different types of demands-short, long, and medium-term. A time window has been set up to collect the objective and input data from the customer at intervals of 20 min, allowing for highly effective neural network training. The results showed that the proposed method with 0.48, 0.49, and 0.53 MSE for Forecasting the short-term, medium-term, and long-term electricity provided the best results with the highest accuracy. The outcomes show that employing the suggested technique is a viable option for energy consumption forecasting.

Published

2023

6. Application of Mixture of Experts in Machine Learning-Based Controlling of DC-DC Power Electronics Converter

Author

Mohsen Mohammadzadeh, Ehsan Akbari, Anas A. Salameh, Mojtaba Ghadamyari, Sasan Pirouzi, and Tomonobu Senjyu

Subjects

Mixture of experts, machine learning, power electronic converters (PECs), controlling strategy, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Regardless of the application in which power electronic converters are deployed, their desired performances crucially depend on the controlling strategy while different impressive parameters are varied. This paper offers a novel controlling strategy originated from the mixture of two well-known controlling techniques, namely feedback (FBC) and model predictive (MPC) controllers. It uses the advantages of the above-mentioned controllers while their drawbacks or limitations are covered by each other using the mixture of experts (MoE) technique. Two neural networks for capturing the features of MPC and FBC along with a gating network as the main tool of MoE are employed in order to optimize the controlling of the DC-DC power electronic converters. These networks are trained through a set of pair data as the input vector and the target data. The results reveal that better performance can be obtained via benefit exploitation of both controlling techniques using a comprehensive MoE. The dynamic and steady state errors are decreased by 5% and 8%, respectively which demonstrate a global enhancement in the controlling of the DC-DC power electronic converters.

Published

2022

7. Metrics Analysis Framework of Control and Management System for Resilient Connected Community Microgrids

Author

Badrul H. Chowdhury, Behnaz Papari, Mojtaba Ghadamyari, Chris S. Edrington, Mostafa Ansari, and Gokhan Ozkan

Subjects

Optimization problem, Renewable Energy, Sustainability and the Environment, Computer science, Control system, Control (management), Management system, Path (graph theory), Control reconfiguration, Dijkstra's algorithm, Power (physics), Reliability engineering

Abstract

This paper proposes a novel metrics analysis of the control and management system for an efficient and resilient post-hurricane integrated recovery framework. To enhance the resiliency of networked-microgrids (MGs), resources such as mobile emergency resources (MERs), electrical vehicles (EVs), and energy storage systems (ESSs) associated with the reconfiguration strategy are utilized to decrease blackouts to a minimum time. In the proposed method, the local power-flow path is actively altered by the network reconfiguration. This capability allows restoring critical loads and minimizing the energy not supplied (ENS) to the local consumers. Islanded loads that need truck-mounted MERs are simultaneously determined through optimal scheduling. The role of MERs is to deliver power to the islanded load regarding optimal routes. To produce optimal routes and to avoid out-of-service roads, the well-known Dijkstras algorithm is used in this study. The proposed method aims to maximize system resiliency through the integrated single-objective optimization problem, associated with evaluating the metrics, to assess the control system performance from a resiliency index perspective. Simulation results on a 69-bus test system indicate satisfactory performance and effectiveness of the proposed method.

Published

2022

8. Investigating the Effects of the Driving Cycle and Penetration of Electric Vehicles on Technical and Environmental Characteristics of the Hybrid Energy System Considering Uncertainties

Author

Jiusong Chen, Dejun Miao, Yizong Dai, and Mojtaba Ghadamyari

Subjects

Renewable Energy, Sustainability and the Environment, Energy Engineering and Power Technology, Building and Construction

Published

2022

9. Developed Design of Battle Royale Optimizer for the Optimum Identification of Solid Oxide Fuel Cell

Author

Keyvan Karamnejadi Azar, Armin Kakouee, Morteza Mollajafari, Ali Majdi, Noradin Ghadimi, and Mojtaba Ghadamyari

Subjects

solid oxide fuel cell, parameter estimation, Developed Battle Royale algorithm, sensitivity analysis, Renewable Energy, Sustainability and the Environment, Geography, Planning and Development, Building and Construction, Management, Monitoring, Policy and Law

Abstract

One of the most appropriate electricity production systems is solid oxide fuel cells (SOFCs), which are important because they are highly efficient, flexible to fuel, and have fewer environmental degradation effects. A new optimum technique has been provided for providing well-organized unknown parameters identification of the solid oxide fuel cell system. The main idea is to achieve the lowest amount of the sum of square error between the model’s output voltage and the empirical voltage datapoints. To get efficient results, the minimum error value has been achieved by designing a new metaheuristic algorithm, called the Developed version of Battle Royale algorithm. The reason for using this version of Battle Royale algorithm is to achieve results with higher accuracy and better convergence. The proposed technique was then applied to a 96-cell SOFC stack under different temperature and pressure values and its achievements were compared with several different latest methods to show the proposed method’s efficiency.

Published

2022

10. Storage-integrated virtual power plants for resiliency enhancement of smart distribution systems

Author

Ghasem Piltan, Sasan Pirouzi, Alireza Azarhooshang, Ahmad Rezaee Jordehi, Ali Paeizi, and Mojtaba Ghadamyari

Subjects

Renewable Energy, Sustainability and the Environment, Energy Engineering and Power Technology, Electrical and Electronic Engineering

Published

2022

11. Model parameters estimation of the proton exchange membrane fuel cell by a Modified Golden Jackal Optimization

Author

Mehrdad Rezaie, Keyvan karamnejadi azar, Armin kardan sani, Ehsan Akbari, Noradin Ghadimi, Navid Razmjooy, and Mojtaba Ghadamyari

Subjects

Renewable Energy, Sustainability and the Environment, Energy Engineering and Power Technology

Published

2022

12. Robust multi-objective optimal design of islanded hybrid system with renewable and diesel sources/stationary and mobile energy storage systems

Author

Sasan Pirouzi, Zaoli Yang, Farzad Banihashemi, Noradin Ghadimi, Muhammed Milani, S.M. Alizadeh, Hossein Khorramdel, and Mojtaba Ghadamyari

Subjects

Optimal design, Mathematical optimization, Optimization problem, Renewable Energy, Sustainability and the Environment, Computer science, 020209 energy, Robust optimization, 02 engineering and technology, Energy consumption, Multi-objective optimization, Energy storage, Hybrid system, 0202 electrical engineering, electronic engineering, information engineering, Diesel generator

Abstract

Planning of an islanded hybrid system (IHS) with different sources and storages to supply clean, flexible, and highly reliable energy at consumption sites is of high importance. To this end, this paper presents the design of an IHS with a wind turbine, photovoltaic, diesel generator, and stationary (battery) and mobile (electrical vehicles) energy storage systems (ESS). The proposed method includes a multi-objective optimization to minimize the total cost of construction, maintenance, and operation of sources and ESSs within the IHS and the emission level of the system using two separate objective functions. The problem is subject to operational and planning constraints of sources and ESSs and power. Employing the Pareto optimization technique based on the e-constraint method forms a single-objective optimization problem for the proposed design. The problem involves uncertainties of load, renewable energy, and energy demand of mobile ESSs and has a nonlinear form. Adaptive robust optimization based on a hybrid meta-heuristic algorithm that utilizes a combination of the sine-cosine algorithm (SCA) and crow search algorithm (CSA) is proposed to achieve an optimal robust structure for the suggested scheme. In this scheme, operation model of the mobile storage systems in the IHS considering the uncertainties prediction errors and its model using HMA-based ARO besides adopting the HMA to achieve a unique optimal solution are among the novelties of this research. Eventually, considering the climate data and energy consumption of a region in Rafsanjan, Iran, capabilities of the method in extracting a robust IHS for sources and ESSs are validated depending on optimal economic and environmental conditions. The HMA succeeds to reach an optimal solution with an SD of 0.92% in the final response and this underlines its capability in achieving approximate conditions of unique responsiveness. The proposed scheme with proper planning and operation of sources and storages in the form of a HIS finds optimal values for economic and environmental conditions so that the difference between pollution and cost values from its minimum values at the compromise point is roughly 22%. For 17% uncertainty parameters prediction errors, the scheme obtains a robust structure for the IHS.

Published

2021