Article Per Year (5 Year)
p-Index From 2020 - 2025
1.244
P-Index
This Author published in this journals
All Journal Control Systems and Optimization Letters
Haque, Abrarul
Unknown Affiliation
Aerospace Engineering Automotive Engineering Computer Science & IT Control & Systems Engineering Electrical & Electronics Engineering Engineering

Published : 8 Documents Claim Missing Document
Claim Missing Document
Check
Articles

Found 8 Documents
Search

 1 
The Integration of Renewable Energy Sources into Mechanical Systems, Focusing on Efficiency and Reliability - A Case Study Khan, Saidul Islam; Dodaev, Zohar Al; Haque, Abrarul
Control Systems and Optimization Letters Vol 2, No 2 (2024)
Publisher : Peneliti Teknologi Teknik Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59247/csol.v2i2.92

Abstract

The main objective of this review to analyze the efficiency and reliability of renewable energy technologies when integrated into mechanical infrastructure. The concerns of energy sustainability and environmental impact can be effectively addressed by incorporating renewable energy sources into mechanical systems. The use of renewable energy technology to mechanical systems is examined in this case study, with an emphasis on improving dependability and efficiency. The study explores the integration of solar, wind, and hydroelectric power generation into mechanical systems, such as HVAC (heating, ventilation, and air conditioning) systems, industrial machinery, and transportation systems, by means of a thorough analysis of a practical application. Studying the integration of solar, wind and hydroelectric thermal energy to raise building HVAC systems' dependability and efficiency are the main concern of this review. The design, implementation, and optimization of renewable energy systems are important topics covered because they optimize energy output while maintaining dependability and compatibility with the mechanical infrastructure already in place. In addition, the study assesses the technological issues, environmental advantages, and economic feasibility of integrating renewable energy sources, offering insights into successful strategies and difficulties faced. This case study is to educate decision-makers, engineers, and stakeholders about the potential and factors for sustainable energy solutions in mechanical engineering applications by examining the effectiveness and dependability of renewable energy integration in mechanical systems.
Technical and Economic Challenges and Future Prospects of a Smart Grid - A Case Study Haque, Abrarul; Hussain, Md. Naeem; Ali, Md. Sumon; Khan, Md. Yakub Ali; Halim, Md Abdul
Control Systems and Optimization Letters Vol 1, No 3 (2023)
Publisher : Peneliti Teknologi Teknik Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59247/csol.v1i3.57

Abstract

In order to improve grid efficiency, dependability, and sustainability, smart grid technology is being developed and implemented at the vanguard of updating the world's electrical infrastructure. In addition to looking at the potential implications of smart grid technology, this case study analyzes the technical and financial difficulties encountered during the implementation of a smart grid. Technical issues with energy management and system stability arise when intermittent renewable energy sources are integrated into the smart grid. To make smooth transmission, sophisticated algorithms and grid management strategies are needed. Maintaining data security and privacy is crucial since smart grids mostly depend on digital technology and data exchange. It is a constant worry to defend the grid from hackers and illegal access. The installation of sensors, smart meters, and communication equipment might come with a significant initial cost when implementing a smart grid. One of the main economic challenges is financing these developments while maintaining reasonable power bills. It may be difficult to strike a balance between the interests of technology suppliers, customers, and utilities. Real-time monitoring and control are made possible by smart grids, which improve energy distribution and minimize energy waste. In addition to lowering greenhouse gas emissions, this improves overall energy efficiency. Smart grids can enable EV charging infrastructure as electric vehicle (EV) use increases, providing potential for grid optimization and new income streams for utilities. Reliability could be increased and downtime is decreased in a smart grid when defects can be promptly identified and isolated. The implementation of a smart grid is not without its technical and financial difficulties, but the future seems bright. Overcoming these obstacles may result in an electrical grid that is more sustainable, robust, and profitable for customers as well as utilities. Stakeholder cooperation, flexible regulations, and continuous technical development are needed to address these problems. By providing practical applications and real-world insights into the implementation of a smart grid, the case study acts as a link between theoretical concepts. Stakeholders obtain a comprehensive comprehension of the intricacies involved by analyzing technical and economic obstacles. To maximize the potential of smart grid technology, this knowledge is essential for fine-tuning strategies and creating focused solutions.
Analysis of Different Control Approaches for a Local Microgrid: A Comparative Study Haque, Abrarul; Kholilullah, Ibrahim; Sharma, Anik; Mohammad, Ashif; Khan, Saidul Islam
Control Systems and Optimization Letters Vol 2, No 1 (2024)
Publisher : Peneliti Teknologi Teknik Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59247/csol.v2i1.88

Abstract

An analysis that contrasts various methods for managing a microgrid's operations in a community context is known as comparison research on control strategies for community microgrids. The study's objectives are to evaluate the benefits and drawbacks of various control schemes and to pinpoint the best approach for enhancing the microgrid's performance. Control methods include islanded mode control, hybrid mode control, grid-connected mode control, and advanced control strategies that combine economic dispatch with optimum power flow are usually compared in the research. A comparison is established. Depending on elements including resilience, cost-effectiveness, efficiency, stability and dependability. The comparative study's findings shed light on the optimal control approach for a particular community microgrid taking into account the resources that are available, the local energy consumption, and other variables. This review also emphasizes the advantages of using advanced control systems, these systems maximize energy management, maintain grid stability, and improve overall system performance by controlling the intricate interactions among distributed energy resources (DERs), such as solar photovoltaics, wind turbines, energy storage, and conventional generators. Energy efficiency will be increase in rural locations with high solar radiation and limited wind power by using advanced methods and grid-connected mode management. Demand response reduces dependency on external grids and associated expenses while improving resilience. Customized control strategies are essential for maximizing community microgrid performance. There includes discussion of a number of control systems, including distributed control, grid-forming control, energy management and optimization, frequency and voltage regulation, islanded operation, and demand response.
A Thorough Analysis of the Opportunities and Challenges of Community Microgrid System Based on Renewable Energy in Bangladesh Zaman, Md Rakibur; Sarker, Sudip; Halim, Md Abdul; Ibrahim, Salah; Haque, Abrarul
Control Systems and Optimization Letters Vol 2, No 1 (2024)
Publisher : Peneliti Teknologi Teknik Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59247/csol.v2i1.71

Abstract

The main objective of this extensive research is to assess the possible benefits and challenges related to the implementation of renewable energy-powered community microgrid systems in Bangladesh. Within the framework of Bangladesh's energy environment, the study aims to identify interesting possibilities present in such systems. Notable benefits include less reliance on traditional fossil fuels, increased accessibility to energy, and possible socioeconomic advantages for nearby populations. In addition, several issues that can prevent these microgrid systems from being deployed smoothly are carefully examined in this research. For sustained execution, these difficulties require a comprehensive and varied strategy since they involve technical complexities, economic concerns, regulatory obstacles, and social elements. Critical attention is paid to matters including community involvement, financial feasibility, regulatory frameworks, and the erratic nature of renewable energy sources. Furthermore, the research incorporates a comparative evaluation of current international community microgrid initiatives, deriving significant knowledge and lessons that are relevant to Bangladesh's particular circumstances. The study uses a comparative lens to attempt to provide useful and knowledgeable suggestions for stakeholders, energy practitioners, and policymakers who are involved in determining the future course of community microgrid projects in Bangladesh. When it comes to ecology, renewable energy sources like hydroelectric, solar, and wind power are far superior to fossil fuels. They decrease air and water pollution and emit the fewest greenhouse gases possible. Globally, there is an increasing interest in microgrid systems due to the pressing need to combat climate change, increase energy security, foster economic growth, and ensure that everyone has access to clean, dependable electricity. This paper offers a roadmap for the effective integration of community microgrid projects customized to Bangladesh's unique energy landscape, acting as a nuanced guide for strategic development.
A Comprehensive Review of Techno-Economic Perspective of AC/DC Hybrid Microgrid Zaman, Md Rakibur; Sarker, Sudip; Halim, Md Abdul; Ibrahim, Salah; Haque, Abrarul
Control Systems and Optimization Letters Vol 2, No 1 (2024)
Publisher : Peneliti Teknologi Teknik Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59247/csol.v2i1.72

Abstract

The main objective of this research is to review the techno-economic aspects of AC/DC hybrid microgrid. This review has been done by scrutinizing the essential constituents of both AC and DC microgrids, accentuating their corresponding benefits and constraints. The benefits and reasons for integrating AC and DC technology in a hybrid microgrid setting are then covered. From a technological standpoint, the study addresses Renewable Energy Integration, Power Electronic Converters, Energy Storage Systems, Control and Energy Management system and Grid Synchronization. This can lead to a reduction in the overall operational expenses of the microgrid, making it more economically viable in the long run. Initial Investment, Life cycle costs, Payback period, Operational and Maintenance Costs, Regulatory Incentives and Policies and energy savings cost regarding the financial aspect has been reviewed in this paper. complexity to design, operation, and control is a big challenge of AC/DC Hybrid Microgrid. Challenges in the smooth integration of AC and DC components have also been reviewed. The study also investigates how different regulations, laws, and incentives affect the financial sustainability of AC/DC hybrid microgrid projects. Real-world examples and case studies are included to offer useful insights into the effectiveness and viability of current AC/DC hybrid microgrid systems from an economic standpoint. In addition, the review points out areas of current research deficiency and makes recommendations for future directions in this area of study. Researchers, practitioners, and policymakers interested in the design and implementation of resilient and sustainable energy systems will find great value in the thorough review that presents the current level of knowledge on the techno-economic aspects of AC/DC hybrid microgrids. The review's conclusions can be used by legislators to create well-informed rules and policies that encourage the installation of AC/DC hybrid microgrids and their integration with the current energy infrastructure. When designing, developing, and implementing AC/DC hybrid microgrid systems, researchers and technology developers can recognize important obstacles as well as opportunities.
Prospects and Challenges of Embedded Systems for Semiconductor Devices in Industry - A Case Study Tareq, Abdulla Al; Hossain, Md. Taufiq; Dodaev, Zohar Al; Haque, Abrarul
Control Systems and Optimization Letters Vol 2, No 1 (2024)
Publisher : Peneliti Teknologi Teknik Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59247/csol.v2i1.97

Abstract

The main objective of this paper is to review the current challenges and prospects of semiconductor devices in Industry. Modern semiconductor devices are not the same without embedded systems, which allow for improved functionality, connectivity, and efficiency in a wide range of industrial applications. This work examines the opportunities and difficulties of integrating embedded systems into semiconductor devices in an industrial setting, concentrating on a thorough case study. This paper investigates the possible advantages of embedded systems, including enhanced performance, lower costs, and more dependability, through a thorough analysis. It also looks at the difficulties that come with its implementation, such as complex designs, interoperability problems, and security risks. The case study offers useful insights into the implementation of embedded systems in semiconductor devices in the real world by emphasizing effective tactics, lessons discovered, and potential future directions. Through the integration of theoretical frameworks and empirical data, this study advances our comprehension of the challenges and opportunities associated with utilizing embedded systems for semiconductor devices in industrial environments. Various functionalities can be included into semiconductor devices thanks to embedded systems, which increases their market potential beyond conventional applications. This creates chances for revenue development and innovation. By improving the adoption and usage of embedded systems, industry practitioners, researchers, and policymakers may boost innovation and competitiveness in the semiconductor sector.
Integrating Micro and Smart Grid-Based Renewable Energy Sources with the National Grid in Bangladesh - A Case Study Zaman, Md Rakibur; Halim, Md Abdul; Khan, Md. Yakub Ali; Ibrahim, Salah; Haque, Abrarul
Control Systems and Optimization Letters Vol 2, No 1 (2024)
Publisher : Peneliti Teknologi Teknik Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59247/csol.v2i1.76

Abstract

The worldwide quest for sustainable energy solutions has led to a thorough investigation of the integration of renewable energy sources based on micro and smart grids into national electricity systems. This case study focuses on Bangladesh's particular situation, as a nation attempting to find workable solutions to its energy problems. The study explores how cutting-edge smart grid technology and decentralized energy systems, such as microgrids, can be integrated to improve the country's energy environment. The report commences by evaluating the current condition of Bangladesh's national grid, outlining the obstacles that still need to be overcome, and stressing the importance of having a variety of reliable energy sources. After that, the emphasis switches to microgrids, where their potential to support energy autonomy, harvest renewable energy locally, and lessen load on the centralized grid is examined.  A thorough analysis of the technical, financial, and legal factors is carried out, considering how well micro and smart grid technologies work with the country's grid infrastructure. A case study that highlights a particular implementation in a chosen area of Bangladesh provides useful information. To assess the effectiveness and difficulties of the integration process, key metrics such the penetration of renewable energy, grid stability, and economic viability are described. In addition to providing resilience against power outages, increasing energy efficiency, and promoting a sustainable energy ecosystem, the results highlight the potential advantages of a synergistic strategy in which micro and smart networks supplement the national grid. Regulatory framework, technology standardization, and community participation challenges are all noted, and these call for the implementation of policy interventions and strategic planning. This case study provides insightful information about how Bangladesh's national system integrates renewable energy sources based on micro and smart grids. In the context of a developing nation's energy transition, it advocates for a comprehensive approach that considers technological breakthroughs, economic viability, and regulatory frameworks to unlock the full potential of decentralized and smart grid solutions.
A Comprehensive Review on Techniques and Challenges of Energy Harvesting from Distributed Renewable Energy Sources for Wireless Sensor Networks Hussain, Md. Naeem; Halim, Md Abdul; Khan, Md. Yakub Ali; Ibrahim, Salah; Haque, Abrarul
Control Systems and Optimization Letters Vol 2, No 1 (2024)
Publisher : Peneliti Teknologi Teknik Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59247/csol.v2i1.60

Abstract

Wireless Sensor Networks (WSNs) have drawn a lot of interest from a variety of industries, such as industrial automation, healthcare, and environmental monitoring. Typically, these networks are made up of sensor nodes that run on batteries and depend on energy-efficient operation to extend their lifetime. Renewable and sustainable energies are suitable for wireless sensor networks. Energy harvesting from dispersed renewable sources, such as solar, wind, biomass, and vibration, has emerged as a possible approach to alleviate the limits associated with limited battery life. The state-of-the-art methods and difficulties associated with energy harvesting in wireless sensor networks (WSNs) from a variety of distributed renewable sources, such as solar, wind, vibration, and temperature gradients, are thoroughly reviewed in this study. The paper discusses the many techniques for extracting and converting energy from these sources, highlighting the benefits and drawbacks of each.  This paper explores several energy harvesting techniques and challenges. The study also discusses the difficulties in integrating energy harvesting, including adaptive power management, energy forecast, intermittent energy supply, and integration issues. The assessment also highlights research gaps and potential future initiatives in the field of energy harvesting from renewable sources. Researchers, technologists, and policymakers working in the fields of renewable energy and wireless sensor networks would find this thorough assessment to be quite insightful. It illuminates how energy harvesting technologies may improve sensor network autonomy and sustainability, leading to breakthroughs in environmental monitoring and other vital applications. The development of sustainable, independent, and effective sensing systems is greatly aided by the investigation of methods and obstacles in energy harvesting for wireless sensor networks. In addition to addressing current issues, this research opens doors for innovation, fostering a more sustainable approach to data collection and monitoring, and having a positive effect on a number of industries.
Co-Authors Ali, Md. Sumon Dodaev, Zohar Al Halim, Md Abdul Hossain, Md. Taufiq Hussain, Md. Naeem Ibrahim, Salah Khan, Md. Yakub Ali Khan, Saidul Islam Kholilullah, Ibrahim Mohammad, Ashif Sarker, Sudip Sharma, Anik Tareq, Abdulla Al Zaman, Md Rakibur