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Hasan Masrur
Electrical and Electronic Engineering, University of the Ryukyus, 26428 Okinawa, Okinawa, Japan, 903-0213

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Journal article
Published: 02 July 2021 in IEEE Transactions on Applied Superconductivity
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By providing a reliable and economical supply of energy, microgrids (MGs) may play a pivotal role in the case of large grid disruptions. However, the resilience benefits of microgrids in terms of outage survivability that often leads to economic paybacks are not well investigated in the existing literature. To address this concern, this paper optimizes and simulates a grid-connected MG placed at a hospital in the USA, consisting of a photovoltaic (PV) module and an energy storage unit that can adequately prevent a prolonged blackout. The impact of net energy metering (NEM) and diesel generator (DG) has further been examined for this hybrid system. Four different cases have been optimized and results show that the PV and battery work in tandem, both with and without considering the existing DG and NEM and meets all critical load demand during a grid outage. The findings also indicate that the proposed approach yields significant economic benefits for two cases relative to business as usual case

ACS Style

Hasan Masrur; Tomonobu Senjyu; Rabiul Islam; Abbas Z. Kouzani; M A Parvez Mahmud. Resilience-oriented Dispatch of Microgrids Considering Grid Interruptions. IEEE Transactions on Applied Superconductivity 2021, PP, 1 -1.

AMA Style

Hasan Masrur, Tomonobu Senjyu, Rabiul Islam, Abbas Z. Kouzani, M A Parvez Mahmud. Resilience-oriented Dispatch of Microgrids Considering Grid Interruptions. IEEE Transactions on Applied Superconductivity. 2021; PP (99):1-1.

Chicago/Turabian Style

Hasan Masrur; Tomonobu Senjyu; Rabiul Islam; Abbas Z. Kouzani; M A Parvez Mahmud. 2021. "Resilience-oriented Dispatch of Microgrids Considering Grid Interruptions." IEEE Transactions on Applied Superconductivity PP, no. 99: 1-1.

Journal article
Published: 24 May 2021 in International Journal of Electrical Power & Energy Systems
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With the rapid proliferation of power supply via the national grid, energy resiliency in unforeseen outages has to be ensured. However, the resilience advantages of microgrids concerning power failure endurance, which also result in financial disbursements, are little explored in available academic research. Hence, this study proposes an airport microgrid tied with the grid, which increases a host critical facility’s resiliency under different circumstances, using an optimized dispatch of renewable energy technology (Photovoltaics) with energy storage and diesel generator. First, the proposed system’s superiority is established in terms of technical and economic values by comparing with other feasible hybrid and standalone configurations feeding critical loads. Then, the resilience benefits from the microgrid during blackout occurrences are examined through a case study under four different scenarios. Finally, the microgrids’ survival probability during a significant outage over any time in a year has been carried out. Results show that the critical facility subject to the proposed system’s deployment, can save more than 73 thousand US dollars on average, over 25 years of the life cycle, and withstand 718 hours of grid outage.

ACS Style

Hasan Masrur; Ayyoob Sharifi; Rabiul Islam; Alamgir Hossain; Tomonobu Senjyu. Optimal and economic operation of microgrids to leverage resilience benefits during grid outages. International Journal of Electrical Power & Energy Systems 2021, 132, 107137 .

AMA Style

Hasan Masrur, Ayyoob Sharifi, Rabiul Islam, Alamgir Hossain, Tomonobu Senjyu. Optimal and economic operation of microgrids to leverage resilience benefits during grid outages. International Journal of Electrical Power & Energy Systems. 2021; 132 ():107137.

Chicago/Turabian Style

Hasan Masrur; Ayyoob Sharifi; Rabiul Islam; Alamgir Hossain; Tomonobu Senjyu. 2021. "Optimal and economic operation of microgrids to leverage resilience benefits during grid outages." International Journal of Electrical Power & Energy Systems 132, no. : 107137.

Journal article
Published: 21 May 2021 in Energies
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This article proposes a plan to replace real-time power with constant power from the grid to reduce costs and reduce the impact of the micro-grid on the main grid at the same time. Most of the peak electricity consumption periods of universities or some enterprise institutions are during the daytime. If solar energy can be used reasonably at this time, it can provide a good guarantee of peak power. In this study, a grid-linked solar-plus-storage micro-grid was used to supply power to a university located in Okinawa, Japan. The non-dominated sorting genetic algorithm II (NSGA-II) was used to optimize the model size, and the loss of power supply probability (LPSP), life cycle cost (LCC), and waste of energy (WE) were taken as the optimization indicators. For this study, three scenarios were considered where the first scheme (Case 1) was a comparison scheme, which used a PV battery and real-time power from the infinity bus. Both the second and third cases used constant power. While Case 2 used constant power throughout the year, Case 3 used daily constant power. The optimal solutions for the power supply units were grouped into three cases where Case 1 was found to be the most expensive one. It was found that the costs of Cases 2 and 3 were 62.8% and 63.3% less than Case 1. As a result, the waste of energy was found to be more significant than Case 1: 70 times and 60 times, respectively. On the contrary, Case 1 had 15.2% and 16.7% less carbon emissions than Case 2 and Case 3, respectively. This article put forward the idea of constant power supply growth at the financial markets, which breaks the traditional way in which the power supply side follows the user’s consumption. While reducing costs, it reduces the impact on large-scale power grids and can also ensure the reliability of campus microgrids.

ACS Style

Yongyi Huang; Hasan Masrur; Ryuto Shigenobu; Ashraf Hemeida; Alexey Mikhaylov; Tomonobu Senjyu. A Comparative Design of a Campus Microgrid Considering a Multi-Scenario and Multi-Objective Approach. Energies 2021, 14, 2853 .

AMA Style

Yongyi Huang, Hasan Masrur, Ryuto Shigenobu, Ashraf Hemeida, Alexey Mikhaylov, Tomonobu Senjyu. A Comparative Design of a Campus Microgrid Considering a Multi-Scenario and Multi-Objective Approach. Energies. 2021; 14 (11):2853.

Chicago/Turabian Style

Yongyi Huang; Hasan Masrur; Ryuto Shigenobu; Ashraf Hemeida; Alexey Mikhaylov; Tomonobu Senjyu. 2021. "A Comparative Design of a Campus Microgrid Considering a Multi-Scenario and Multi-Objective Approach." Energies 14, no. 11: 2853.

Journal article
Published: 18 May 2021 in Sustainability
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The need for inexpensive and sustainable electricity has become an exciting adventure due to the recent rise in the local population and the number of visitors visiting the Banana Islands. Banana Islands is a grid-isolated environment with abundant renewable energy, establishing a hybrid renewable energy-based power system may be a viable solution to the high cost of diesel fuel. This paper describes a dual-flow optimization method for electrifying the Banana Islands, a remote island in Sierra Leone. The study weighs the pros and cons of maintaining the current diesel-based power setup versus introducing a hybrid renewable energy system that takes backup component analysis into account. Hybrid Optimization of Multiple Energy Resources (HOMER) software is used in the first optimization to optimally design the various system configurations based on techno-economic and environmental characteristics. A Multi-Attribute Decision-Making (MADM) Model that takes into account in the second optimization, the Combinative Distance-based Assessment System (CODAS) algorithm, and various methods of assigning weights to the attributes is used to rank the best configuration. The results show that the hybrid renewable energy system is a better option for electrifying the Banana Islands than the current stand-alone system. The Analytical Hierarchy Process (AHP) method of weight assignment was found to be superior to the Entropy method. Biogas generator-assisted hybrid configurations outperformed diesel generator-assisted hybrid configurations. With an optimum design of 101 kW PV, 1 wind turbine, 50 kW biogas, 86 batteries, and a 37.8 kW converter, the PV-wind-biogas-battery system is rated as the best configuration. It has a net present cost (NPC) of $487,247, a cost of energy (COE) of $0.211/kWh, and CO2 emission of 17.5 kg/year. Sensitivity analyses reveal that changes in the rate of inflation and the cost of storage have a significant effect on the overall cost of the configuration.

ACS Style

Keifa Konneh; Hasan Masrur; Mohammad Othman; Hiroshi Takahashi; Narayanan Krishna; Tomonobu Senjyu. Multi-Attribute Decision-Making Approach for a Cost-Effective and Sustainable Energy System Considering Weight Assignment Analysis. Sustainability 2021, 13, 5615 .

AMA Style

Keifa Konneh, Hasan Masrur, Mohammad Othman, Hiroshi Takahashi, Narayanan Krishna, Tomonobu Senjyu. Multi-Attribute Decision-Making Approach for a Cost-Effective and Sustainable Energy System Considering Weight Assignment Analysis. Sustainability. 2021; 13 (10):5615.

Chicago/Turabian Style

Keifa Konneh; Hasan Masrur; Mohammad Othman; Hiroshi Takahashi; Narayanan Krishna; Tomonobu Senjyu. 2021. "Multi-Attribute Decision-Making Approach for a Cost-Effective and Sustainable Energy System Considering Weight Assignment Analysis." Sustainability 13, no. 10: 5615.

Journal article
Published: 26 April 2021 in IEEE Access
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The concept of introducing hybrid off-grid systems has made electricity accessible to areas that are far or have no access to grid network. This paper evaluates the techno-economic and environmental characteristics of a hybrid renewable energy system considering three different scheduling approaches, four different solar tracking systems, two different PV modules and eight scheduling scenarios to supply sustainable electricity to a rural community in Sierra Leone. Each scenario consists of a solar tracking system, a specific type of PV module and a scheduling approach. The aim is to find the most efficient and cost-effective scenario that meets the electrical demands of the village. Results revealed that the ‘Two axis tracking system’ generated the highest PV power, 28.8% additional power compared to the ‘No tracking system’ confirming the superiority of using a tracking system though it comes with initial cost repercussions. Also, systems that employed the use of Canadiasolar Dymond CS6K-285M-FG PV module tend to be more efficient and cost-effective than those that employed Sharp ND-250QCS PV module even with the same solar tracking technology and scheduling approach. From the best scheduling approach (third scheduling), Scenario 7 (SC#7) gives the lowest net present cost (NPC) of $ \$ $ 1.53M with $ \$ $ 0.173/kWh cost of energy (COE) and CO 2 emission of 8.54 kg/yr making it the optimum scenario. A daily operation of the optimum scenario on both a sunny and rainy day confirms that the system is capable of supplying the required electricity for both rainy and dry seasons. Sensitivity analyses explain the high reliance of the system cost on the erratic inflation rate, discount rate and PV derating factor. Maintaining a healthy and sustainable environment depends on the minimum load ratio of both the biogas and diesel generators.

ACS Style

Keifa Vamba Konneh; Hasan Masrur; Mohammad Lutfi Othman; Noor Izzri Abdul Wahab; Hashim Hizam; Syed Zahurul Islam; Peter Crossley; Tomonobu Senjyu. Optimal Design and Performance Analysis of a Hybrid Off-Grid Renewable Power System Considering Different Component Scheduling, PV Modules, and Solar Tracking Systems. IEEE Access 2021, 9, 64393 -64413.

AMA Style

Keifa Vamba Konneh, Hasan Masrur, Mohammad Lutfi Othman, Noor Izzri Abdul Wahab, Hashim Hizam, Syed Zahurul Islam, Peter Crossley, Tomonobu Senjyu. Optimal Design and Performance Analysis of a Hybrid Off-Grid Renewable Power System Considering Different Component Scheduling, PV Modules, and Solar Tracking Systems. IEEE Access. 2021; 9 ():64393-64413.

Chicago/Turabian Style

Keifa Vamba Konneh; Hasan Masrur; Mohammad Lutfi Othman; Noor Izzri Abdul Wahab; Hashim Hizam; Syed Zahurul Islam; Peter Crossley; Tomonobu Senjyu. 2021. "Optimal Design and Performance Analysis of a Hybrid Off-Grid Renewable Power System Considering Different Component Scheduling, PV Modules, and Solar Tracking Systems." IEEE Access 9, no. : 64393-64413.

Journal article
Published: 17 February 2021 in Energies
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Photovoltaic (PV) systems encounter substantial losses throughout their lifespan due to the different derating factors of PV modules. Those factors mainly vary according to the geographical location and PV panel characteristics. However, the available literature does not explicitly concentrate on the technical and economic impact of the derating factors within the PV system. Owing to that necessity, this study performs a comprehensive analysis of various PV loss parameters followed by a techno-economic assessment of derating factors using the average value on a grid-connected and optimally tilted PV system located in Hatiya, Bangladesh. Some criteria linked to the derating factors such as PV degradation and ambient temperature are further explored to analyze their impact on the aforementioned power system. Simulation results show that PV power generation would vary around 12% annually, subject to a 10% variation in the derating factor. Again, a 10% difference in the derating factor changes the net present cost (NPC) by around 3% to 4%. The system provides the best technical performance concerning annual PV production, power trade with the grid, and the renewable fraction at a higher value of the derating factor since it represents a lower impact of the loss parameters. Similarly, the financial performance in terms of the NPC, levelized cost of energy (LCOE), and grid power exchange cost is found to be lower when the derating factor value is higher.

ACS Style

Hasan Masrur; Keifa Konneh; Mikaeel Ahmadi; Kaisar Khan; Mohammad Othman; Tomonobu Senjyu. Assessing the Techno-Economic Impact of Derating Factors on Optimally Tilted Grid-Tied Photovoltaic Systems. Energies 2021, 14, 1044 .

AMA Style

Hasan Masrur, Keifa Konneh, Mikaeel Ahmadi, Kaisar Khan, Mohammad Othman, Tomonobu Senjyu. Assessing the Techno-Economic Impact of Derating Factors on Optimally Tilted Grid-Tied Photovoltaic Systems. Energies. 2021; 14 (4):1044.

Chicago/Turabian Style

Hasan Masrur; Keifa Konneh; Mikaeel Ahmadi; Kaisar Khan; Mohammad Othman; Tomonobu Senjyu. 2021. "Assessing the Techno-Economic Impact of Derating Factors on Optimally Tilted Grid-Tied Photovoltaic Systems." Energies 14, no. 4: 1044.

Preprint content
Published: 26 May 2020
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Solar-powered photovoltaic (PV) system encounters a significant amount of losses due to different derating factors of PV modules throughout its lifespan. Thus, proper investigation is much needed to grasp the technical and economic impact of derating factors on the solar PV system, specially the one which is connected to the utility grid. This study performs a comprehensive discussion on various PV loss parameters followed by a techno-economic-environmental assessment of combined derating factor on an grid-connected and optimally tilted PV system located at Hatiya, Bangladesh using HOMER (Hybrid Optimization Model for Multiple Energy Resources) software. Some criteria linked with derating factor such as PV degradation and ambient temperature are further explored to analyze their impact on the aforementioned power system. Simulation results show that the system provides the best technical performance concerning annual PV production, power trade with grid, and renewable fraction with less emissions at a higher value of derating factor since it represents the lower impact of loss parameters. Similarly, financial performance in terms of net present cost (NPC), levelized cost of energy (LCOE), and grid power exchange cost is found lower when derating factor value is higher.

ACS Style

Hasan Masrur. Techno-Economic-Environmental Impact of Derating Factors on the Optimally Tilted PV System. 2020, 1 .

AMA Style

Hasan Masrur. Techno-Economic-Environmental Impact of Derating Factors on the Optimally Tilted PV System. . 2020; ():1.

Chicago/Turabian Style

Hasan Masrur. 2020. "Techno-Economic-Environmental Impact of Derating Factors on the Optimally Tilted PV System." , no. : 1.

Preprint content
Published: 26 May 2020
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Solar-powered photovoltaic (PV) system encounters a significant amount of losses due to different derating factors of PV modules throughout its lifespan. Thus, proper investigation is much needed to grasp the technical and economic impact of derating factors on the solar PV system, specially the one which is connected to the utility grid. This study performs a comprehensive discussion on various PV loss parameters followed by a techno-economic-environmental assessment of combined derating factor on an grid-connected and optimally tilted PV system located at Hatiya, Bangladesh using HOMER (Hybrid Optimization Model for Multiple Energy Resources) software. Some criteria linked with derating factor such as PV degradation and ambient temperature are further explored to analyze their impact on the aforementioned power system. Simulation results show that the system provides the best technical performance concerning annual PV production, power trade with grid, and renewable fraction with less emissions at a higher value of derating factor since it represents the lower impact of loss parameters. Similarly, financial performance in terms of net present cost (NPC), levelized cost of energy (LCOE), and grid power exchange cost is found lower when derating factor value is higher.

ACS Style

Hasan Masrur. Techno-Economic-Environmental Impact of Derating Factors on the Optimally Tilted PV System. 2020, 1 .

AMA Style

Hasan Masrur. Techno-Economic-Environmental Impact of Derating Factors on the Optimally Tilted PV System. . 2020; ():1.

Chicago/Turabian Style

Hasan Masrur. 2020. "Techno-Economic-Environmental Impact of Derating Factors on the Optimally Tilted PV System." , no. : 1.

Journal article
Published: 04 April 2020 in Sustainability
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Following a rise in population, load demand is increasing even in the remote areas and islands of Bangladesh. Being an island that is also far from the mainland of Bangladesh, St. Martin’s is in need of electricity. As it has ample renewable energy resources, a renewable energy-based microgrid system seems to be the ultimate solution, considering the ever-increasing price of diesel fuel. This study proposes a microgrid system and tests its technical and economic feasibility in that area. All possible configurations have been simulated to try and find the optimal system for the island, which would be eco-friendly and economical with and without considering renewable energy options. The existing power supply configuration has also been compared to the best system after analyzing and investigating all technical and economic feasibility. Sensitivity and risk analysis between different cases provide added value to this study. The results show that the current diesel-based system is not viable for the island’s people, but rather a heavy burden to them due to the high cost of per unit electricity and the net present cost. In contrast, a PV /Wind/Diesel/Battery hybrid microgrid appeared to be the most feasible system. The proposed system is found to be around 1.5 times and 28% inexpensive considering the net present cost and cost of energy, respectively, with a high (56%) share of renewable energy which reduces 23% carbon dioxide.

ACS Style

Hasan Masrur; Harun Or Rashid Howlader; Mohammed Elsayed Lotfy; Kaisar R. Khan; Josep M. Guerrero; Tomonobu Senjyu. Analysis of Techno-Economic-Environmental Suitability of an Isolated Microgrid System Located in a Remote Island of Bangladesh. Sustainability 2020, 12, 2880 .

AMA Style

Hasan Masrur, Harun Or Rashid Howlader, Mohammed Elsayed Lotfy, Kaisar R. Khan, Josep M. Guerrero, Tomonobu Senjyu. Analysis of Techno-Economic-Environmental Suitability of an Isolated Microgrid System Located in a Remote Island of Bangladesh. Sustainability. 2020; 12 (7):2880.

Chicago/Turabian Style

Hasan Masrur; Harun Or Rashid Howlader; Mohammed Elsayed Lotfy; Kaisar R. Khan; Josep M. Guerrero; Tomonobu Senjyu. 2020. "Analysis of Techno-Economic-Environmental Suitability of an Isolated Microgrid System Located in a Remote Island of Bangladesh." Sustainability 12, no. 7: 2880.

Journal article
Published: 15 February 2020 in International Journal of Emerging Electric Power Systems
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A comprehensive theoretical investigation validated by the measurement is necessary to assess the impact of a microgrid on the electric distribution system. Some key parameters worth investigating are- enhancing economy, reliability, quality, and resiliency of a microgrid. Considering this necessity, a study of energy delivery system in a microgrid and its financial feasibility to integrate into the energy infrastructure has been presented in this paper. A campus microgrid with energy-efficient combined heat and power (CHP) natural gas-fired microturbine and photovoltaic generation has been used as a testbed to evaluate the efficiency of the power delivery. With distributed control and communication capability, this microgrid can be considered as a building block of smart grid that facilitates the inclusion of renewable and energy-efficient distributed generation. Simulation work has been performed to study the economic feasibility to integrate such microgrid into the energy grid. Several cases of remote microgrid operation have been studied to compare the best possible solution.

ACS Style

Hasan Masrur; Kaisar R. Khan; Waleed Abumelha; Tomonobu Senjyu. Efficient Energy Delivery System of the CHP-PV Based Microgrids with the Economic Feasibility Study. International Journal of Emerging Electric Power Systems 2020, 21, 1 .

AMA Style

Hasan Masrur, Kaisar R. Khan, Waleed Abumelha, Tomonobu Senjyu. Efficient Energy Delivery System of the CHP-PV Based Microgrids with the Economic Feasibility Study. International Journal of Emerging Electric Power Systems. 2020; 21 (1):1.

Chicago/Turabian Style

Hasan Masrur; Kaisar R. Khan; Waleed Abumelha; Tomonobu Senjyu. 2020. "Efficient Energy Delivery System of the CHP-PV Based Microgrids with the Economic Feasibility Study." International Journal of Emerging Electric Power Systems 21, no. 1: 1.

Journal article
Published: 25 December 2019 in Energies
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In Japan, residents of apartments are generally contracted to receive low voltage electricity from electric utilities. In recent years, there has been an increasing number of high voltage batch power receiving contracts for condominiums. In this research, a high voltage batch receiving contractor introduces a demand–response in a low voltage power receiving contract, which maximizes the profit of a high voltage batch receiving contractor and minimizes the electricity charge of residents by utilizing battery storage, electric vehicles (EV), and heat pumps. A multi-objective optimization algorithm calculates a Pareto solution for the relationship between two objective trade-offs in the MATLAB ® environment.

ACS Style

Yuta Susowake; Hasan Masrur; Tetsuya Yabiku; Tomonobu Senjyu; Abdul Motin Howlader; Mamdouh Abdel-Akher; Ashraf M. Hemeida. A Multi-Objective Optimization Approach towards a Proposed Smart Apartment with Demand-Response in Japan. Energies 2019, 13, 127 .

AMA Style

Yuta Susowake, Hasan Masrur, Tetsuya Yabiku, Tomonobu Senjyu, Abdul Motin Howlader, Mamdouh Abdel-Akher, Ashraf M. Hemeida. A Multi-Objective Optimization Approach towards a Proposed Smart Apartment with Demand-Response in Japan. Energies. 2019; 13 (1):127.

Chicago/Turabian Style

Yuta Susowake; Hasan Masrur; Tetsuya Yabiku; Tomonobu Senjyu; Abdul Motin Howlader; Mamdouh Abdel-Akher; Ashraf M. Hemeida. 2019. "A Multi-Objective Optimization Approach towards a Proposed Smart Apartment with Demand-Response in Japan." Energies 13, no. 1: 127.

Journal article
Published: 28 December 2018 in International Journal of Electrical Power & Energy Systems
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An analysis of estimating the electric energy production from different fuel sources and its exchanges between interconnected utilities has been performed, based on the historical trend of economic growth. We used a model that considers meeting the load by committed generators where capacity weighted availability has been factored in for generating units run by same types of fuel. The focus is on Bangladesh, in particular, studying energy exchanges between its different regions as well as potential international energy trading between selected countries in South East Asia (SEA). Another aspect of the paper is to study the utilization of energy resources with less possible negative environmental impacts. Our model also accommodates the effect of gradual/impulsive changes of energy generation and availability of different energy sources. The estimated values match well with the actual energy generation, as reported in Bangladesh power authority’s publication. Based on the evaluated expected energy generation, oligopolistic energy market models with uncertainty/certainty have been proposed here to show the probable trading in private sector, and in the mix of private and public sector utilities. Market models also consider the potential cross-border trading. In addition, a power-flow study has been conducted to verify the quantitative nature of energy exchanges between regions. This analysis is intended to facilitate energy system planners and designers with the necessary tools to predict energy distribution in growing electric power systems.

ACS Style

Kaisar R. Khan; Matiur Rahman; Hasan Masrur; Shahin Alam. Electric energy exchanges in interconnected regional utilities: A case study for a growing power system. International Journal of Electrical Power & Energy Systems 2018, 107, 715 -725.

AMA Style

Kaisar R. Khan, Matiur Rahman, Hasan Masrur, Shahin Alam. Electric energy exchanges in interconnected regional utilities: A case study for a growing power system. International Journal of Electrical Power & Energy Systems. 2018; 107 ():715-725.

Chicago/Turabian Style

Kaisar R. Khan; Matiur Rahman; Hasan Masrur; Shahin Alam. 2018. "Electric energy exchanges in interconnected regional utilities: A case study for a growing power system." International Journal of Electrical Power & Energy Systems 107, no. : 715-725.

Conference paper
Published: 16 February 2017 in 2016 International Conference on Innovations in Science, Engineering and Technology (ICISET)
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The intermittency of wind speed is very challenging in order to produce wind energy via wind turbine to synchronize with the power system. The accurate wind forecasting models are very important for effective power system management. There are many ways have been introduced for short term accurate wind forecasting. In this paper, Artificial Neural Network (ANN) is used with feed forward back propagation algorithm to forecast short-term wind speed of Asian Institute of Technology (AIT). After simulating the model in MATLAB, the result shows that the mean absolute percentage error (MAPE) between the predicted and measured wind speed is quite low and noteworthy. It represents the high prediction correctness of short-term wind speed forecasting using the above mentioned model.

ACS Style

Hasan Masrur; Meas Nimol; Mohammad Faisal; Sk. Md. Golam Mostafa. Short term wind speed forecasting using Artificial Neural Network: A case study. 2016 International Conference on Innovations in Science, Engineering and Technology (ICISET) 2017, 1 -5.

AMA Style

Hasan Masrur, Meas Nimol, Mohammad Faisal, Sk. Md. Golam Mostafa. Short term wind speed forecasting using Artificial Neural Network: A case study. 2016 International Conference on Innovations in Science, Engineering and Technology (ICISET). 2017; ():1-5.

Chicago/Turabian Style

Hasan Masrur; Meas Nimol; Mohammad Faisal; Sk. Md. Golam Mostafa. 2017. "Short term wind speed forecasting using Artificial Neural Network: A case study." 2016 International Conference on Innovations in Science, Engineering and Technology (ICISET) , no. : 1-5.

Conference paper
Published: 16 February 2017 in 2016 International Conference on Innovations in Science, Engineering and Technology (ICISET)
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The traditional vertically integrated utility company combines the generation, transmission, distribution and customer service in a seamless operation that makes no detailed distinctions about the costs of each of these four activity levels. The target of deregulation of electricity market is to create an open access to assure perfect competition among purchasers and sellers and establish a reliable, secure and affordable electrical power system. So electric markets around the globe are undertaking unique changes related to deregulation to improve the efficiency of electricity power markets. Independent System Operator (ISO) and Power Exchange (PX) play very crucial role on unbundled power market. The integrated single buyer electricity market model of Bangladesh has very limited access of retail competition that lead to monopoly business of electricity. In this paper we propose a structure for the vertically unbundled electricity market of Bangladesh on the basis of existing electricity market around the world.

ACS Style

S. M. G. Mostafa; Jai Govind Singh; Hasan Masrur; Shahid Ullah. A prospective model of Bangladesh electricity market. 2016 International Conference on Innovations in Science, Engineering and Technology (ICISET) 2017, 1 -5.

AMA Style

S. M. G. Mostafa, Jai Govind Singh, Hasan Masrur, Shahid Ullah. A prospective model of Bangladesh electricity market. 2016 International Conference on Innovations in Science, Engineering and Technology (ICISET). 2017; ():1-5.

Chicago/Turabian Style

S. M. G. Mostafa; Jai Govind Singh; Hasan Masrur; Shahid Ullah. 2017. "A prospective model of Bangladesh electricity market." 2016 International Conference on Innovations in Science, Engineering and Technology (ICISET) , no. : 1-5.

Conference paper
Published: 01 May 2015 in 2015 International Conference on Electrical Engineering and Information Communication Technology (ICEEICT)
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In an electric power system, Automatic Generation Control (AGC) is a system for adjusting the power output of multiple generators at different power plants, in response to changes in the load. Since a power grid requires that generation and load closely balance moment by moment, frequent adjustments to the output of generators are necessary. The performance of the AGC system with optimized gain, in interconnected power system is investigated in this paper. A two area interconnected power system is considered and based on it a comprehensive mathematical model is developed. Boiler dynamics and nonlinearities such as governor dead band and generator rate constraints (GRC) are deliberated. A least square criterion of the performance index is used to obtain the gain setting of the governor control system. The simulation results show that the system stabilizes very quickly following a sudden load changes which in turn increases the capability of the whole system.

ACS Style

Hasan Masrur; Asif Ferdoush; M. G. Rabbani. Automatic Generation Control of two area power system with optimized gain parameters. 2015 International Conference on Electrical Engineering and Information Communication Technology (ICEEICT) 2015, 1 -5.

AMA Style

Hasan Masrur, Asif Ferdoush, M. G. Rabbani. Automatic Generation Control of two area power system with optimized gain parameters. 2015 International Conference on Electrical Engineering and Information Communication Technology (ICEEICT). 2015; ():1-5.

Chicago/Turabian Style

Hasan Masrur; Asif Ferdoush; M. G. Rabbani. 2015. "Automatic Generation Control of two area power system with optimized gain parameters." 2015 International Conference on Electrical Engineering and Information Communication Technology (ICEEICT) , no. : 1-5.