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Affiliation |
Graduate School of International Resource Sciences Department of Earth Resource Engineering and Environmental Science |
MOHAMMADZADEH BINA SAEID
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Research Interests 【 display / non-display 】
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Renewable Energy
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Geothermal Energy
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Heat Pump
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Resource Assessment
Graduating School 【 display / non-display 】
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2006.09-2010.07
Islamic Azad University Engineering Faculty Graduated
Graduate School 【 display / non-display 】
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2015.10-2018.09
Akita University Graduate School of Engineering and Resource Science Doctor's Course Completed
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2011.09-2014.02
IAU SCIENCE & RESERCH University, Tehran Renewable Energies Engineering Master's Course Completed
Studying abroad experiences 【 display / non-display 】
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2015.10-2018.09
Japan Akita University
Degree 【 display / non-display 】
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Akita University - Doctor of Engineering
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- Master of Engineering (MEng.), Renewable Energies Engineering
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- Bachelor of Engineering (BE.), Mechanical Engineering
Campus Career 【 display / non-display 】
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2019.12-Now
Akita University Graduate School of International Resource Sciences Department of Earth Resource Engineering and Environmental Science Assistant Professor
Academic Society Affiliations 【 display / non-display 】
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2015.10-Now
Japan
THE GEOTHERMAL RESEARCH SOCIETY OF JAPAN (GRSJ)
Research Achievements 【 display / non-display 】
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Evaluation of utilizing horizontal directional drilling technology for ground source heat pumps
Saeid Mohammadzadeh Bina, Hikari Fujii, Shunsuke Tsuya, Hiroyuki Kosukegawa, Shigemi Naganawa, Retsu Harada
Geothermics 85 ( 101769 ) 2019.11
Research paper (journal) Domestic Co-author
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A comprehensive approach for wind power plant potential assessment, application to northwestern Iran
Mohammadzadeh Bina, Saeid Jalilinasrabady, Saeid Fujii, Hikari Farabi-Asl, Hadi
Energy 164 344 - 358 2018.12
Research paper (journal) Domestic Co-author
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Classification of geothermal resources in Indonesia by applying exergy concept
Mohammadzadeh Bina, Saeid Jalilinasrabady, Saeid Fujii, Hikari Pambudi, Nugroho Agung
Renewable and Sustainable Energy Reviews 93 499 - 506 2018.10 [Refereed]
Research paper (journal) Domestic Co-author
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Exergoeconomic analysis and optimization of single and double flash cycles for Sabalan geothermal power plant
Mohammadzadeh Bina, Saeid Jalilinasrabady, Saeid Fujii, Hikari
Geothermics 72 74 - 82 2018.03
Research paper (journal) Domestic Co-author
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Life Cycle Energy and Greenhouse Gas Emission Assessment of a Wind Turbine Installed in Northeast of Iran
Noorollahi, Y., Mohammadzadeh Bina, S., Kiana Rahmani
International Journal of Energy Policy and Management 3 ( 1 ) 8 - 15 2018.03
Research paper (journal) Domestic Co-author
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Energy challenges for clean cooking in Asia, the background, and possible policy solutions
Hadi Farabi-Asl, Farhad Taghizadeh-Hesary, Andrew Chapman, Saeid Mohammadzadeh Bina, Kenshi Itaoka
ADBI Working Paper 1007 ( Asian Development Bank Institute ) 2019.09
Introduction and explanation (others) Domestic Co-author
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Thermo-Economic Evaluation and Optimization of a Regenerative ORC Cycle Utilizing Geothermal Energy
Saeid Mohammadzadeh Binaa, Saeid Jalilinasrabady, Hikari Fujii
Geothermal Resources Council Transactions 41 ( 2527 ) 2017.10 [Refereed] [Invited]
Research paper (international conference proceedings) Domestic Co-author
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Exergetic Sensitivity Analysis of ORC Geothermal Power Plant Considering Ambient Temperature
Mohammadzadeh Bina, Saeid Jalilinasrabady, Saeid Fujii, Hikari
Geothermal Resources Council Transactions 40 279 - 286 2016.10 [Refereed] [Invited]
Research paper (international conference proceedings) Domestic Co-author
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Exergetic Sensitivity Analysis of ORC Geothermal Power Plant Considering Ambient Temperature
Mohammadzadeh Bina, Saeid Jalilinasrabady, Saeid Fujii, Hikari
Geothermal Resources Council Transactions 40 2016.10 [Refereed] [Invited]
Research paper (international conference proceedings) Domestic Co-author
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Field Test and Numerical Simulation of Single-Tube Horizontal Ground HeatExchangers Installed Using Horizontal Directional Drilling Method
TSUYA Shunsuke, FUJII Hikari, KOSUKEGAWA Hiroyuki, BINA Saeid Mohammadzadeh, HARADA Retsu
Journal of the Geothermal Research Society of Japan ( THE GEOTHERMAL RESEARCH SOCIETY OF JAPAN ) 43 ( 1 ) 7 - 17 2021.01
<p>The Horizontal Directional Drilling (HDD) method is applicable in the installation of Horizontal Ground Heat Exchangers (HGHEs) at everywhere while keeping the low initial cost of Ground Source Heat Pump (GSHP) system. However, the performance of HGHEs installed using the HDD method has not been researched well due to the lack of field application. In this study, we carried out field tests and numerical simulations to investigate the heat exchange capacity of HGHEs installed using HDD. Firstly, we conducted three Thermal Response Tests (TRTs) in Saga, Western Japan to demonstrate the applicability of conventional TRTs to the directional hole drilled using HDD. The TRTs showed that the estimated thermal conductivity in the field test site by graphical interpretation were almost same as the one estimated using a numerical simulation model. These results indicate that the use of conventional graphical interpretation of TRTs is applicable to the interpretation of TRTs carried out in directional hole. The thermal resistances of HGHEs in various flow rates were then calculated based on the results of TRTs. As a result, the high flow rate was found to reduce the thermal resistance and enhance the heat exchange capacity of HGHEs. Next, seven temperature constant circulation tests applying constant inlet fluid temperature were performed in the field to investigate the effects of flow direction reversing and installation of inner pipe into the HGHEs on the heat exchange rate. These TRTs showed that the heat exchange rate declined after changing the flow direction in the middle of TRTs and that the heat exchange behavior when an inner pipe is installed was almost same as the one without the pipe. Finally, sensitivity studies were performed using a numerical model of the HGHEs to evaluate the effect of flow rate on the heat exchange capacity. The simulations showed that the flow state of heat medium in HGHEs is a crucial element to enhance the HGHEs performance and that the optimum flow rate was 10L/min in the field test area. In addition, the HGHEs of larger diameter showed higher heat exchange capacity, while a large flow rate is required to maintain the high performance.</p>
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Determination of optimum installation depth of ground heat exchangers installed using horizontal directional drilling method
TSUYA Shunsuke, FUJII Hikari, KOSUKEGAWA Hiroyuki, BINA Saeid Mohammadzadeh, HARADA Retsu
Journal of the Geothermal Research Society of Japan ( THE GEOTHERMAL RESEARCH SOCIETY OF JAPAN ) 42 ( 3 ) 67 - 77 2020.07
<p>The Horizontal Directional Drilling (HDD) method is one of the most effective measures in reducing the installation cost of Horizontal Ground Heat Exchangers (HGHEs) in Ground Source Heat Pump (GSHP) systems. However, the performance of HGHEs using HDD method has not been studied well due to the lack of field application. In this study, we conducted Thermal Response Tests (TRTs) in a field test site located in Saga city, western Japan. A numerical model was then developed in FEFLOW software to simulate heating/cooling operations using the HGHE and to predict the behavior of the heat medium temperature of the GHE. Firstly, a polyethylene pipe of 50A (ID/OD:52mm/60mm) and U-tube pipe of 25A (ID/OD:27mm/34mm) were installed at the depth of 8m and 6m, respectively, using the HDD method. TRTs were carried out using these GHEs. According to the TRT results, the polyethylene pipe showed the lower temperature increase per unit heat exchange rate compared to the U-tube pipe. This result was considered to be attributed to the large surface area of GHE and also the absence of thermal interference between pipes which happens when using U-tubes. Next, the cooing/heating operations were simulated after the numerical model was developed and validated using TRT results. Furthermore, case studies were carried out for different installation depth of GHE. The simulation showed that the heat medium temperature of the GHE installed at a depth of 5m was lower and higher in the cooling and heating, respectively comparing to the GHE installed at a depth of 10-15m. This is because that the change of ground temperature of -5m has the phase difference of about 150 days, providing the good heat source/sink to the GHE.</p>
◆Original paper【 display / non-display 】
◆Introduction and explanation【 display / non-display 】
◆International conference proceedings【 display / non-display 】
◆Other【 display / non-display 】
Presentations 【 display / non-display 】
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Performance improvement of drysteam geothermal power plant by employing bottoming binary system
Nova Dany Setyawan
2nd International Geothermal Conference 2019.06 - 2019.06 IOP Conf. Series: Earth and Environmental Science
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Classification of Geothermal Resources by Applying Exergy Concept, Application to the Philippines
Saeid Mohammadzadeh Bina
日本地熱学会 2018.11 - 2018.11
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Emission reduction of ground source heat pump system in cold climate of Japan
Hadi Farabi-ASl
Grand Renewable Energy 2018 (GRE 2018) 2018.06 - 2018.06
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Multi Criteria Decision Analysis of Wind Energy Potential in North Part of Iran
Saeid Mohammadzadeh Bina
Grand Renewable Energy 2018 (GRE 2018) 2018.06 - 2018.06
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Effect of GHE Spacing on Thermal Performance of Semi-open Loop Ground Source Heat Pump System
Hadi Farabi-ASl
日本地熱学会 2017.10 - 2017.10 日本地熱学会