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A Comprehensive Review of Renewable and Sustainable Energy Sources with Solar Photovoltaic Electricity Advancement in Bangladesh Md. Naeem Hussain; Md Rakibur Zaman; Md Abdul Halim; Md. Sumon Ali; Md. Yakub Ali Khan
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.v2i1.59

With an emphasis on Bangladesh's accomplishments in solar photovoltaic power production, this extensive study offers a comprehensive review of sustainable and renewable energy sources. Bangladesh, a heavily populated country that depends heavily on energy, has a difficult time satisfying its rising electrical demand while also taking environmental issues into account. The assessment covers a wide range of topics related to renewable energy sources, including solar photovoltaic technology, how it fits into the nation's current energy infrastructure, legislative frameworks, and socioeconomic effects. The report emphasizes how solar photovoltaic power may play a key role in Bangladesh's sustainable energy future by lowering the country's reliance on fossil fuels, lessening the effects of climate change, and promoting economic development via the use of renewable energy sources. This comprehensive review explores the many facets of sustainable and renewable energy sources in further detail, with a particular emphasis on Bangladesh's ever-changing solar photovoltaic power market. The topic of discussion includes developments in solar panel technology, such as increased efficiency, lower costs, and novel ideas. It also looks at how solar energy may be integrated into the current energy system, discussing the benefits and problems related to energy storage and grid modernization. This paper has the potential to improve energy security, the environment, the economy, and the general well-being of the populace, with a focus on solar PV advancement in Bangladesh. It can act as a guide for decision-makers in government, academia, and business to work together to create a more resilient and sustainable energy future for the nation. The research explores how the expansion of the solar business might lead to the creation of jobs, the improvement of skills, and the enhancement of local economies. It also takes into account the advantages for the environment that come from using less fossil fuels, such as lower greenhouse gas emissions and better air quality. This thorough review highlights the importance of Bangladesh's progress toward solar photovoltaic electricity development as a way to guarantee a sustainable and environmentally conscious energy future, lower consumer energy costs, and improve energy security in a country with rising energy consumption and aggressive renewable energy targets.

Technical and Economic Challenges and Future Prospects of a Smart Grid - A Case Study Abrarul Haque; Md. Naeem Hussain; Md. Sumon Ali; Md. Yakub Ali Khan; Md Abdul Halim
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

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.

Efficient Power Management Strategy and Challenges of Hybrid Renewable Energy Based Electric Vehicles - A Review Md Rakibur Zaman; Md Reazul Hoque; Md. Naeem Hussain; Md Shopan Ali
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.v2i1.70

Forging a new paradigm in the automobile industry, hybrid electric vehicles (HEVs) coupled with renewable energy sources are a result of the increased focus on sustainable transportation. To better understand the difficulties involved in deploying hybrid renewable energy-powered electric vehicles, this article explores effective power management solutions. Power management techniques that are complex are required when integrating renewable energy sources, including solar and wind, with hybrid electric vehicles. Although the use of renewable energy in electric vehicles appears promising, several obstacles prevent widespread use. This study tackles dynamic difficulties such as the requirement for robust energy management systems, the intermittent nature of renewable energy sources, and the limited storage capacity aboard. The paper outlines new technological developments that aim to improve the incorporation of renewable energy sources into electric vehicles as a solution to the issues that have been highlighted. This review addresses the challenges associated with incorporation of renewable energy and electric vehicles. Addressing the challenges requires collaboration among stakeholders, technological advancements, and supportive policies to foster the widespread adoption of sustainable transportation solutions. The study highlights the effectiveness of various power management systems through case studies that show how hybrid renewable energy-based electric vehicles are used in the real world. The effective power management techniques and difficulties related to hybrid electric vehicles powered by renewable energy sources are thoroughly examined in this research. It adds to the current conversation on sustainable transportation by tackling the ever-changing problems and putting forward creative solutions, which could influence developments that could influence the direction of electric mobility in the future. The optimal utilization of energy provided from renewable sources, such solar panels or wind turbines, is ensured by effective power management. A cleaner and more sustainable transportation system is made possible by an effective power management plan, which maximizes the use of renewable energy. HREVs can benefit from the best grid conditions, electricity costs, and charging periods when they are integrated with smart charging infrastructure.

A Comprehensive Review on Techniques and Challenges of Energy Harvesting from Distributed Renewable Energy Sources for Wireless Sensor Networks Md. Naeem Hussain; Md Abdul Halim; Md. Yakub Ali Khan; Salah Ibrahim; Abrarul Haque
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

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.

An Extensive Analysis of the Significance and Difficulties of Microgrids Based on Renewable Energy in Wireless Sensor Networks Md. Naeem Hussain; Kazi Abdul Kader; Md. Sumon Ali; Aman Ullah; Zohar Al Dodaev
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.v2i2.102

The main objective of this paper is to review the importance of renewable energy based microgrid on wireless sensor networks (WSNs) including challenges of renewable energy-based MGs. This paper explores the critical nexus between Wireless Sensor Networks (WSNs) and microgrids powered by renewable energy, explaining the rising importance of these networks and the issues they provide. Microgrids have become a promising technology in the worldwide search for sustainable energy solutions, since they allow for the effective integration of distributed energy management, local energy production, and Renewable Energy (RE) sources. WSNs allow for the microgrid-wide real-time monitoring of multiple parameters, including voltage, current, temperature, and humidity. The constant flow of data contributes to the preservation of ideal operating circumstances. When combined with WSNs' powers to enable data-driven decision-making and real-time monitoring, these two technologies have the potential to revolutionize a wide range of applications. This paper offers a thorough examination of the significance of this synergy, including topics like environmental effect mitigation, grid resilience, and energy sustainability. In addition, the study analyzes the complex issues related to energy management, communication protocols, security, scalability, and integration with intermittent renewable sources that arise when synchronizing microgrids with WSNs. Future directions and new trends are also examined, including the growth of Internet of Things and AI-driven energy optimization. This study intends to assist academics, policymakers, and practitioners in realizing the full potential of microgrid implementations based on renewable energy for a more sustainable and interconnected future by illuminating the symbiotic link between microgrids and WSNs.

An Overview of the Growth of Bangladesh's Renewable Energy Sector, Outlining Current Challenges and Future Prospects Aman Ullah; Md. Naeem Hussain; Firoj Ahamad; Saifullah Saifullah; Fahim Al Mahmud Roman
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.v2i1.67

The main objective of this review is to develop renewable energy (RE) sectors and overcome any obstacles regarding this in Bangladesh. Bangladesh has been facing energy crisis in all sectors in need of electricity. The techno-economical and policy making challenges are the main barrier of renewable energy sources installment in Bangladesh. But in recent years, Bangladesh has achieved notable progress in the development of its renewable energy industry. Bangladesh produces 723.26 MW of electricity from renewable sources, which include 67.61% solar, 31.80% hydro, and 0.58% wind, biogas, and biomass. Of these, 489 MW are produced by more than 6 million (63, 25, 278) installed solar cells. This assessment offers a thorough examination of the nation's present renewable energy situation, stressing both the fundamental difficulties and noteworthy successes. The research reviews the many renewable energy sources, such as hydropower, biomass, mechanical vibration, wind, and solar electricity, and assesses how much of each the country needs to use. Analyzing the legal and policy environment that governs renewable energy in Bangladesh, the research highlights the necessity of focused measures to remove current obstacles. It talks about how overcoming obstacles and promoting sustainable growth can be accomplished through international cooperation and financial assistance. The research also looks at the socioeconomic effects of renewable energy programs, considering how they may affect employment and electrification in rural areas. The analysis provides an outlook on the prospects of the renewable energy sector in Bangladesh. Emerging technologies, possible market trends, and innovative prospects are covered. To assist stakeholders, investors, and legislators in navigating the shift to a more resilient and sustainable energy future, recommendations are offered. With an emphasis on highlighting successes and outlining challenges, this research provides a thorough analysis of Bangladesh's renewable energy industry. Bangladesh may establish itself as a regional leader in the adoption of renewable energy sources and support international efforts to mitigate climate change by recognizing the obstacles of the present and laying out a plan for future development. This research will help to the researchers and policymakers for making more renewable energy in Bangladesh without facing any difficulties.

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