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Abdul Matin Ibrahimi
University of the Ryukyus

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Journal article
Published: 01 June 2020 in Journal of Sustainability Outreach
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The enormous potential supply of energy in central Asia offers an excellent opportunity to establish international energy-sharing agreements, mitigate political instability, and improve regional socio-economic development. Pakistan and India have increasingly relied on energy imported from Middle and Central Asia to meet frequent energy shortages. Afghanistan has played a central role in recent efforts to balance energy trade among regional countries with an emerging opportunity as an emerging energy hub. This study considers what energy trade policies and strategies are needed to transform Afghanistan from energy consumer to energy provider. This analysis summarizes multi-disciplinary approaches that target geopolitics, economic, trade, management, institutional, environmental, and technical aspects. This study avoided a commentary description of the subject. The overriding objective of this study is addressing key solutions to enable Afghanistan as a leading stakeholder of the energy hub in the region countries. The finding of this study is outlined in 30 recommendations. Beneficiaries and stakeholders also express increasing concern about Afghanistan’s current security and political stability. This brief study can inform students, researchers, scholars, and interested policymakers with the recent trends and future outlook.

ACS Style

Mir Sayed Shah Danish; Tomonobu Senjyu; Hameedullah Zaheb; Najib Rahman Sabory; Mikaeel Ahamadi; Abdul Matin Ibrahimi; Zahra Nazari; Mohammad Hamid Ahadi. Afghanistan as an emerging regional energy hub. Journal of Sustainability Outreach 2020, 10 -14.

AMA Style

Mir Sayed Shah Danish, Tomonobu Senjyu, Hameedullah Zaheb, Najib Rahman Sabory, Mikaeel Ahamadi, Abdul Matin Ibrahimi, Zahra Nazari, Mohammad Hamid Ahadi. Afghanistan as an emerging regional energy hub. Journal of Sustainability Outreach. 2020; ():10-14.

Chicago/Turabian Style

Mir Sayed Shah Danish; Tomonobu Senjyu; Hameedullah Zaheb; Najib Rahman Sabory; Mikaeel Ahamadi; Abdul Matin Ibrahimi; Zahra Nazari; Mohammad Hamid Ahadi. 2020. "Afghanistan as an emerging regional energy hub." Journal of Sustainability Outreach , no. : 10-14.

Journal article
Published: 01 February 2020 in Energy Reports
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ACS Style

Mark Kipngetich Kiptoo; Oludamilare Bode Adewuyi; Mohammed Elsayed Lotfy; Abdul Matin Ibrahimi; Tomonobu Senjyu. Harnessing demand-side management benefit towards achieving a 100% renewable energy microgrid. Energy Reports 2020, 6, 680 -685.

AMA Style

Mark Kipngetich Kiptoo, Oludamilare Bode Adewuyi, Mohammed Elsayed Lotfy, Abdul Matin Ibrahimi, Tomonobu Senjyu. Harnessing demand-side management benefit towards achieving a 100% renewable energy microgrid. Energy Reports. 2020; 6 ():680-685.

Chicago/Turabian Style

Mark Kipngetich Kiptoo; Oludamilare Bode Adewuyi; Mohammed Elsayed Lotfy; Abdul Matin Ibrahimi; Tomonobu Senjyu. 2020. "Harnessing demand-side management benefit towards achieving a 100% renewable energy microgrid." Energy Reports 6, no. : 680-685.

Journal article
Published: 01 October 2019 in Journal of Cleaner Production
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ACS Style

Mir Sayed Shah Danish; Tomonobu Senjyu; Hameedullah Zaheb; Najib Rahman Sabory; Abdul Matin Ibrahimi; Hidehito Matayoshi. A novel transdisciplinary paradigm for municipal solid waste to energy. Journal of Cleaner Production 2019, 233, 880 -892.

AMA Style

Mir Sayed Shah Danish, Tomonobu Senjyu, Hameedullah Zaheb, Najib Rahman Sabory, Abdul Matin Ibrahimi, Hidehito Matayoshi. A novel transdisciplinary paradigm for municipal solid waste to energy. Journal of Cleaner Production. 2019; 233 ():880-892.

Chicago/Turabian Style

Mir Sayed Shah Danish; Tomonobu Senjyu; Hameedullah Zaheb; Najib Rahman Sabory; Abdul Matin Ibrahimi; Hidehito Matayoshi. 2019. "A novel transdisciplinary paradigm for municipal solid waste to energy." Journal of Cleaner Production 233, no. : 880-892.

Journal article
Published: 20 August 2019 in Sustainability
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This paper focuses on the optimal unit commitment (UC) scheme along with optimal power trading for the Northeast Power System (NEPS) of Afghanistan with a penetration of 230 MW of PV power energy. The NEPS is the biggest power system of Afghanistan fed from three main sources; 1. Afghanistan’s own power generation units (three thermal units and three hydro units); 2. imported power from Tajikistan; 3. imported power from Uzbekistan. PV power forecasting fluctuations have been handled by means of 50 scenarios generated by Latin-hypercube sampling (LHS) after getting the point solar radiation forecast through the neural network (NN) toolbox. To carry out the analysis, we consider three deterministic UC and two stochastic UC cases with a two-stage programming model that indicates the day-ahead UC as the first stage and the intra-day operation of the system as the second stage. A binary-real genetic algorithm is coded in MATLAB software to optimize the proposed cases in terms of thermal units’ operation costs, import power tariffs, as well as from the perspective of the system reliability risks expressed as the reserve and load not served costs. The results indicate that in the deterministic UC models, the risk of reserve and load curtailment does exist. The stochastic UC approaches including the optimal power trading are superior to the deterministic ones. Moreover, the scheduled UC costs and reserves are different from the actual ones.

ACS Style

Mohammad Masih Sediqi; Mohammed Elsayed Lotfy; Abdul Matin Ibrahimi; Tomonobu Senjyu; Narayanan. K. Stochastic Unit Commitment and Optimal Power Trading Incorporating PV Uncertainty. Sustainability 2019, 11, 4504 .

AMA Style

Mohammad Masih Sediqi, Mohammed Elsayed Lotfy, Abdul Matin Ibrahimi, Tomonobu Senjyu, Narayanan. K. Stochastic Unit Commitment and Optimal Power Trading Incorporating PV Uncertainty. Sustainability. 2019; 11 (16):4504.

Chicago/Turabian Style

Mohammad Masih Sediqi; Mohammed Elsayed Lotfy; Abdul Matin Ibrahimi; Tomonobu Senjyu; Narayanan. K. 2019. "Stochastic Unit Commitment and Optimal Power Trading Incorporating PV Uncertainty." Sustainability 11, no. 16: 4504.

Journal article
Published: 20 June 2019 in International Journal of Emerging Electric Power Systems
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Power sector, as one of the least progressed division, is limiting the socioeconomic development in Afghanistan. Although the country has a vast solar energy potential with a bright prospect for growth, however inadequate endorsement and attention have prevented its proper use. Meanwhile, Kabul the capital city and one of the fastest growing cities in the world, is suffering severe challenges to supply its energy needs. Presently, Kabul electrical system is subjected to insecure and insufficient supply due to the lack of integrated networks and deployment of Renewable Energy (RE) sources. This research investigates an appropriate approach by introducing two Linear Fresnel Reflector (LFR) plants with a total capacity of 120 MW to overcome the present challenges in Kabul city. The proposed LFR units are incorporated with an energy storage system of full capacity production for five hours to cover the power shortage at night. The design aspect of LFR is specified by using of System Adviser Model (SAM). Levelized Cost of Electricity (LCOE) and the total annual output of the proposed LFR units are estimated as 0.2508$/kWh and 294,657.28 kWh respectively. To minimize the total operating costs of the integrated model and mitigate CO2 emissions, an optimal Unit Commitment is (UC) fulfilled as well. UC is accomplished by using MATLAB INTLINPROG optimization toolbox.

ACS Style

Abdul Matin Ibrahimi; Harun Or Rashid Howlader; Mir Sayed Shah Danish; Ryuto Shigenobu; Mohammad Masih Sediqi; Tomonobu Senjyu. Optimal Unit Commitment with Concentrated Solar Power and Thermal Energy Storage in Afghanistan Electrical System. International Journal of Emerging Electric Power Systems 2019, 20, 1 .

AMA Style

Abdul Matin Ibrahimi, Harun Or Rashid Howlader, Mir Sayed Shah Danish, Ryuto Shigenobu, Mohammad Masih Sediqi, Tomonobu Senjyu. Optimal Unit Commitment with Concentrated Solar Power and Thermal Energy Storage in Afghanistan Electrical System. International Journal of Emerging Electric Power Systems. 2019; 20 (3):1.

Chicago/Turabian Style

Abdul Matin Ibrahimi; Harun Or Rashid Howlader; Mir Sayed Shah Danish; Ryuto Shigenobu; Mohammad Masih Sediqi; Tomonobu Senjyu. 2019. "Optimal Unit Commitment with Concentrated Solar Power and Thermal Energy Storage in Afghanistan Electrical System." International Journal of Emerging Electric Power Systems 20, no. 3: 1.

Journal article
Published: 01 February 2019 in Energy Procedia
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The energy utility sector’s transition to an automated and managed energy endeavor in term of microgrid has hastened around the globe. Referring to the literature, the microgrid had been a matter of focus since decades ago. An exhaustive and customized project management methodology (framework) for microgrid projects can assure successful implementation and reliable operation. Such framework indispensably requires a multi-disciplinary investigation to cover technical, managerial, and sustainability aspects in a real-world application. For the first time, this study deals with these three domains also propounds a novel and customized framework for microgrid projects proper management, that comprising an optimum intersection of these certain measures. In addition to a glance review of the literature, this study tries to merge the project management principles and best practices into the microgrid lifecycle as an innovative practice that is emerging in the profession. The proposed methodology consists of the three main influential factors namely management, technical, and sustainability measures. Besides, this paper identifies the main challenges faced a microgrid project from initiation to sign-off (operation), as well as propound feasible solutions fit the identified problems.

ACS Style

Mir Sayed Shah Danish; Tomonobu Senjyu; Toshihisa Funabashia; Mikaeel Ahmadi; Abdul Matin Ibrahimi; Ryoya Ohta; Harun Or Rashid Howlader; Hameedullah Zaheb; Najib Rahman Sabory; Mohammad Masih Sediqi. A sustainable microgrid: A sustainability and management-oriented approach. Energy Procedia 2019, 159, 160 -167.

AMA Style

Mir Sayed Shah Danish, Tomonobu Senjyu, Toshihisa Funabashia, Mikaeel Ahmadi, Abdul Matin Ibrahimi, Ryoya Ohta, Harun Or Rashid Howlader, Hameedullah Zaheb, Najib Rahman Sabory, Mohammad Masih Sediqi. A sustainable microgrid: A sustainability and management-oriented approach. Energy Procedia. 2019; 159 ():160-167.

Chicago/Turabian Style

Mir Sayed Shah Danish; Tomonobu Senjyu; Toshihisa Funabashia; Mikaeel Ahmadi; Abdul Matin Ibrahimi; Ryoya Ohta; Harun Or Rashid Howlader; Hameedullah Zaheb; Najib Rahman Sabory; Mohammad Masih Sediqi. 2019. "A sustainable microgrid: A sustainability and management-oriented approach." Energy Procedia 159, no. : 160-167.

Journal article
Published: 01 January 2019 in AIMS Energy
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ACS Style

Abdul Matin Ibrahimi; Mohammad Masih Sediqi; Harun Or Rashid Howlader; Mir Sayed Shah Danish; Shantanu Chakraborty; Tomonobu Senjyu. Generation expansion planning considering renewable energy integration and optimal unit commitment: A case study of Afghanistan. AIMS Energy 2019, 7, 441 -464.

AMA Style

Abdul Matin Ibrahimi, Mohammad Masih Sediqi, Harun Or Rashid Howlader, Mir Sayed Shah Danish, Shantanu Chakraborty, Tomonobu Senjyu. Generation expansion planning considering renewable energy integration and optimal unit commitment: A case study of Afghanistan. AIMS Energy. 2019; 7 (4):441-464.

Chicago/Turabian Style

Abdul Matin Ibrahimi; Mohammad Masih Sediqi; Harun Or Rashid Howlader; Mir Sayed Shah Danish; Shantanu Chakraborty; Tomonobu Senjyu. 2019. "Generation expansion planning considering renewable energy integration and optimal unit commitment: A case study of Afghanistan." AIMS Energy 7, no. 4: 441-464.

Journal article
Published: 01 January 2019 in AIMS Energy
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ACS Style

Abdul Matin Ibrahimi; K Narayanan; Mohammed Elsayed Lotfy; Mir Sayed Shah Danish; Mikaeel Ahmadi; Tomonobu Senjyu. Transients outrush current analysis and mitigation: A Case study of Afghanistan North East power system. AIMS Energy 2019, 7, 493 -506.

AMA Style

Abdul Matin Ibrahimi, K Narayanan, Mohammed Elsayed Lotfy, Mir Sayed Shah Danish, Mikaeel Ahmadi, Tomonobu Senjyu. Transients outrush current analysis and mitigation: A Case study of Afghanistan North East power system. AIMS Energy. 2019; 7 (4):493-506.

Chicago/Turabian Style

Abdul Matin Ibrahimi; K Narayanan; Mohammed Elsayed Lotfy; Mir Sayed Shah Danish; Mikaeel Ahmadi; Tomonobu Senjyu. 2019. "Transients outrush current analysis and mitigation: A Case study of Afghanistan North East power system." AIMS Energy 7, no. 4: 493-506.

Journal article
Published: 12 December 2018 in IFAC-PapersOnLine
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A landlocked country, Afghanistan, located between energy surplus regions and energy deficit areas is blessed with abundant renewable energy sources (RESs) which can exploit not only to cover its power demand but also to earn remarkable export revenue. This paper focuses on generation scheduling problem along with the optimal sizing of the hybrid renewable energy system (HRES) integrated with the northeast power system (NEPS) of Afghanistan to electrify northeast region of Afghanistan as well as to meet power shortages of Afghanistan’s longest shared border neighbor, Pakistan. The NEPS of Afghanistan is an isolated power system supplied by Afghanistan’s own generations and imported powers from Uzbekistan and Tajikistan. Genetic Algorithm (GA) is used to schedule all units’ output power as well as to find the on/off status of thermal units and the optimal values of the total area occupied by the set of photovoltaic (PV) panels, total swept area by the rotating turbines’ blades and the volume of the upper reservoir of pumped hydro energy storage (PHES) system. The objective of this research is to minimize the total operation cost of thermal units, aggregate imports power tariffs, and the total net present cost of HRES and to maximize the income from selling electricity to Pakistan.

ACS Style

Mohammad Masih Sediqi; Abdul Matin Ibrahimi; Mir Sayed Shah Danish; Tomonobu Senjyu; Shantanu Chakraborty; Paras Mandal. An Optimization Analysis of Cross-border Electricity Trading between Afghanistan and its Neighbor Countries. IFAC-PapersOnLine 2018, 51, 25 -30.

AMA Style

Mohammad Masih Sediqi, Abdul Matin Ibrahimi, Mir Sayed Shah Danish, Tomonobu Senjyu, Shantanu Chakraborty, Paras Mandal. An Optimization Analysis of Cross-border Electricity Trading between Afghanistan and its Neighbor Countries. IFAC-PapersOnLine. 2018; 51 (28):25-30.

Chicago/Turabian Style

Mohammad Masih Sediqi; Abdul Matin Ibrahimi; Mir Sayed Shah Danish; Tomonobu Senjyu; Shantanu Chakraborty; Paras Mandal. 2018. "An Optimization Analysis of Cross-border Electricity Trading between Afghanistan and its Neighbor Countries." IFAC-PapersOnLine 51, no. 28: 25-30.

Journal article
Published: 21 October 2018 in Journal of Building Engineering
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In this paper, a holistic approach in the context of energy management and efficiency is utilized, integrating different standpoints and best recent world-wide practices to establish a sustainable framework for an energy-efficient building. Managing energy in buildings is a complicated task; every building is unique from application and behavior standpoints, which relies on a series of factors. The study presents a critical exposition in both energy efficiency and management within a viable framework for building sustainability. The article then explores innovations in a systematic manner of energy-efficient building implementations, as well as sustainable decision-making is preferred to facilitate the conflicting nature of both energy efficiency and management performance indices. Finally, the research efforts put forward a series of procedures paradigm within management, engineering, and business domains in a synergistic manner as a multilateral design and implementation references for students, researchers, scholars, and practitioners related to a sustainable building. The findings of this study have some overriding implications for future practice in term of high-quality building.

ACS Style

Mir Sayed Shah Danish; Tomonobu Senjyu; Abdul Matin Ibrahimi; Mikaeel Ahmadi; Abdul Motin Howlader. A managed framework for energy-efficient building. Journal of Building Engineering 2018, 21, 120 -128.

AMA Style

Mir Sayed Shah Danish, Tomonobu Senjyu, Abdul Matin Ibrahimi, Mikaeel Ahmadi, Abdul Motin Howlader. A managed framework for energy-efficient building. Journal of Building Engineering. 2018; 21 ():120-128.

Chicago/Turabian Style

Mir Sayed Shah Danish; Tomonobu Senjyu; Abdul Matin Ibrahimi; Mikaeel Ahmadi; Abdul Motin Howlader. 2018. "A managed framework for energy-efficient building." Journal of Building Engineering 21, no. : 120-128.

Conference paper
Published: 01 September 2018 in 2018 4th International Conference on Electrical Engineering and Information & Communication Technology (iCEEiCT)
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This research proposes a smart mini-grid operation and management for an island by introducing Hybrid Concentrated Solar Power (HCSP), Photovoltaic (PV) and thermal generations, Smart Houses (SH) and loads. Indeed, PV power output depends on weather conditions. So, uncertainty of PV generations is a common drawback that is very difficult to tackle. Typically, smart grids are introducing bulk capacity Battery Energy Storage System (BESS) for tackling uncertainty problem. It is expensive and consumes grid power while charging. HCSP is a renewable generation that can be used instead of bulk BESS. Usually, Concentrated Solar Power (CSP) needs at least 15 minutes for a hot start-up. Therefore it cannot solve the problem of uncertainty. This proposed research introduces an HCSP which has a small capacity BESS inside of HCSP. This BESS is charged and discharged from HCSP. BESS covers the start-up time of HCSP, so any time Information Communication and Technology (ICT) department call this HCSP to turn on. A utility company can make optimal thermal generators' unit commitment (UC) by running HCSP optimally and can save operational costs. PVs power outputs have predicted by Neural Networks, and simulations results are determined by using MATLAB® INTLINPROG optimization toolbox.

ACS Style

Harun Or Rashid Howlader; Hidehito Matayoshi; Abdul Matin Ibrahimi; Mir Sayed Shah Danish; Tomonobu Senjyu; Ahmed Yousuf Saber. Operational Cost Based UC by Introducing HCSP in Case of PVs Power Uncertainty. 2018 4th International Conference on Electrical Engineering and Information & Communication Technology (iCEEiCT) 2018, 193 -198.

AMA Style

Harun Or Rashid Howlader, Hidehito Matayoshi, Abdul Matin Ibrahimi, Mir Sayed Shah Danish, Tomonobu Senjyu, Ahmed Yousuf Saber. Operational Cost Based UC by Introducing HCSP in Case of PVs Power Uncertainty. 2018 4th International Conference on Electrical Engineering and Information & Communication Technology (iCEEiCT). 2018; ():193-198.

Chicago/Turabian Style

Harun Or Rashid Howlader; Hidehito Matayoshi; Abdul Matin Ibrahimi; Mir Sayed Shah Danish; Tomonobu Senjyu; Ahmed Yousuf Saber. 2018. "Operational Cost Based UC by Introducing HCSP in Case of PVs Power Uncertainty." 2018 4th International Conference on Electrical Engineering and Information & Communication Technology (iCEEiCT) , no. : 193-198.

Proceedings article
Published: 01 May 2018 in 2018 IEEE Innovative Smart Grid Technologies - Asia (ISGT Asia)
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This research proposes the methodology of multi-objective design of renewable energy system which consists of photvoltaic, wind generator, battery energy storage system, fuel cell, and seawater electrolysis plant. Furthermore, the power system has realized with minimum investment cost, as the operation plans of each source have optimized simultaneously. SEP has been introduced to solve the economic problem of power system on remote islands in Japan. Finally, the result has been compared with conventional renewable energy system to check the validity of the proposed renewable power system.

ACS Style

Yuta Susowake; Abdul Matin Ibrahimi; Mir Sayed Shah Danish; Tomonobu Senjyu; Abdul Motin Howlader; Paras Mandal. Multi-Objective Design of Power System Introducing Seawater Electrolysis Plant for Remote Island. 2018 IEEE Innovative Smart Grid Technologies - Asia (ISGT Asia) 2018, 909 -911.

AMA Style

Yuta Susowake, Abdul Matin Ibrahimi, Mir Sayed Shah Danish, Tomonobu Senjyu, Abdul Motin Howlader, Paras Mandal. Multi-Objective Design of Power System Introducing Seawater Electrolysis Plant for Remote Island. 2018 IEEE Innovative Smart Grid Technologies - Asia (ISGT Asia). 2018; ():909-911.

Chicago/Turabian Style

Yuta Susowake; Abdul Matin Ibrahimi; Mir Sayed Shah Danish; Tomonobu Senjyu; Abdul Motin Howlader; Paras Mandal. 2018. "Multi-Objective Design of Power System Introducing Seawater Electrolysis Plant for Remote Island." 2018 IEEE Innovative Smart Grid Technologies - Asia (ISGT Asia) , no. : 909-911.

Journal article
Published: 08 January 2018 in IEEE Access
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Nowadays, the installations of photovoltaics (PVs) in the smart grid have been growing dramatically because the price of PVs is falling drastically. Undoubtedly, this is a great achievement for the recent smart grid technology. However, the colossal penetration of PVs’ power at the day-time changes the load demand of thermal generations (TGs) of a smart grid which creates duck shape load curve called duck curve. In a duck curve, peak and off-peak gaps are very large which increase the start-up cost (SUC) of TGs because the units of TGs must be turned on and turned-off frequently. Therefore, it is very significant to run TGs units optimally. Only an optimization technique is not enough to bring a good solution. This research considers concentrated solar power (CSP) and pumped storage hydroelectricity (PSH) as the energy storages. Also, fuel cells (FCs) are considered as the controllable loads in the demand side’s smart houses. In addition, this paper considers the real-time price-based demand response. The optimal unit commitment (UC) of TGs, PSHs and other generators is introduced for saving the fuel cost and SUC of TGs. The optimal results of the proposed model are determined by using MATLAB® INTLINPROG optimization toolbox. To evaluate the effectiveness of the proposed method, simulation results have been compared with some other methods.

ACS Style

Harun Or Rashid Howlader; Mohammad Masih Sediqi; Abdul Matin Ibrahimi; Tomonobu Senjyu. Optimal Thermal Unit Commitment for Solving Duck Curve Problem by Introducing CSP, PSH and Demand Response. IEEE Access 2018, 6, 4834 -4844.

AMA Style

Harun Or Rashid Howlader, Mohammad Masih Sediqi, Abdul Matin Ibrahimi, Tomonobu Senjyu. Optimal Thermal Unit Commitment for Solving Duck Curve Problem by Introducing CSP, PSH and Demand Response. IEEE Access. 2018; 6 (99):4834-4844.

Chicago/Turabian Style

Harun Or Rashid Howlader; Mohammad Masih Sediqi; Abdul Matin Ibrahimi; Tomonobu Senjyu. 2018. "Optimal Thermal Unit Commitment for Solving Duck Curve Problem by Introducing CSP, PSH and Demand Response." IEEE Access 6, no. 99: 4834-4844.

Conference paper
Published: 01 November 2017 in TENCON 2017 - 2017 IEEE Region 10 Conference
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Recently, the price of photovoltaic (PV) has been reduced massively, consequently the installations of PVs and roof PVs both are increasing rapidly. Although, growing PVs are beneficial for smart grid and environment but problem is that management of PV energy is a challenge. For example, PV generator output power is very uncertain, its mainly depend on weather conditions. Besides, PVs are generating power during the day time only that is why a huge penetration of PVs' power force to change the load demand of thermal generators (TGs) and others grid connected generators. The massive penetration of PVs creates very low and high off-peak and peak respectively. In case of very large gap between peak and off-peak load, the number of start-up and shut down of TGs are needed more. Also, very difficult to run TGs optimally. This research introduces the energy storage systems (ESSs) and demand responses (DRs) due to balance the load demand. The real-time price based DRs have been considered for getting DRs from consumers. This research considers the optimal unit commitment (UC) of TGs with considering optimal ESSs and DRs for reducing the fuels costs and start-up cost of TGs. The optimal simulations are conducted by MATLAB® INTLINPROG optimization tool box.

ACS Style

Harun Or Rashid Howlader; Tomonobu Senjyu; Abdul Matin Ibrahimi; Toshihisa Funabashi. Optimal ESSs and demand response can help to make profitable optimal thermal UC in case of high penetration of PVs. TENCON 2017 - 2017 IEEE Region 10 Conference 2017, 1213 -1218.

AMA Style

Harun Or Rashid Howlader, Tomonobu Senjyu, Abdul Matin Ibrahimi, Toshihisa Funabashi. Optimal ESSs and demand response can help to make profitable optimal thermal UC in case of high penetration of PVs. TENCON 2017 - 2017 IEEE Region 10 Conference. 2017; ():1213-1218.

Chicago/Turabian Style

Harun Or Rashid Howlader; Tomonobu Senjyu; Abdul Matin Ibrahimi; Toshihisa Funabashi. 2017. "Optimal ESSs and demand response can help to make profitable optimal thermal UC in case of high penetration of PVs." TENCON 2017 - 2017 IEEE Region 10 Conference , no. : 1213-1218.

Journal article
Published: 01 January 2017 in AIMS Energy
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Afghanistan is a key country between energy surplus areas (Central Asian Republics andIran) and energy deficit regions (Pakistan and India). It is in a position that can facilitate and launchregional electricity trade for the benefit of the region also derive significant gains for its own economyfrom energy imports and exports. On the other hand, Afghanistan is endowed with large renewableenergy resources (RERs), which it could exploit not only to satisfy its domestic power demand butalso to earn significant export revenue. This paper firstly explains the methodology and framework forthe power trade and then presents an optimization framework for profit maximization in the short-runtrading and cost minimization in the long-run trading. The proposed methodology is applied to a realcase between Afghanistan and Pakistan. The objective functions, parameters, variables and constraintsare described for both optimization models. System sizing, simulation and optimization are carriedout using genetic algorithm (GA) technique. The results in the short-run model represent optimalityof about 2654 MW electricity export from Afghanistan to Pakistan during summer. Moreover, resultsderived from running long-run model depict that by utilizing its RERs such as solar, wind and hydro,Afghanistan can not only meet its power demand but also can export to Pakistan during its deficitperiods and gain remarkable energy profits

ACS Style

Mohammad Masih Sediqi; Harun Or Rashid Howlader; Abdul Matin Ibrahimi; Mir Sayed Shah Danish; Najib Rahman Sabory; Tomonobu Senjyu. Development of renewable energy resources in Afghanistan for economically optimized cross-border electricity trading. AIMS Energy 2017, 5, 691 -717.

AMA Style

Mohammad Masih Sediqi, Harun Or Rashid Howlader, Abdul Matin Ibrahimi, Mir Sayed Shah Danish, Najib Rahman Sabory, Tomonobu Senjyu. Development of renewable energy resources in Afghanistan for economically optimized cross-border electricity trading. AIMS Energy. 2017; 5 (4):691-717.

Chicago/Turabian Style

Mohammad Masih Sediqi; Harun Or Rashid Howlader; Abdul Matin Ibrahimi; Mir Sayed Shah Danish; Najib Rahman Sabory; Tomonobu Senjyu. 2017. "Development of renewable energy resources in Afghanistan for economically optimized cross-border electricity trading." AIMS Energy 5, no. 4: 691-717.