Updated on 2025/06/07

写真a

 
ARINAMI Yuki
 
Organization
Academic Assembly Institute of Science and Technology SEISAN DESIGN KOUGAKU KEIRETU Assistant Professor
Faculty of Engineering Department of Engineering Assistant Professor
Title
Assistant Professor
Homepage
http://tkkankyo.eng.niigata-u.ac.jp/
External link

Degree

  • 博士(工学) ( 2015.3   新潟大学 )

Research Interests

  • Architectural Environment Engineering

  • Computstionl Fluid Dynamics

  • 空気環境

  • Flow Visualization

  • 熱環境

  • 省エネルギー

  • PIV

Research Areas

  • Social Infrastructure (Civil Engineering, Architecture, Disaster Prevention) / Architectural environment and building equipment  / 建築環境工学

Research History (researchmap)

  • Niigata University   Faculty of Engineering Department of Engineering   Assistant Professor

    2017.4

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  • Niigata University   Graduate School of Science and Technology   Specially Appointed Assistant Professor

    2015.7 - 2017.3

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  • 日本学術振興会 特別研究員PD

    2015.4 - 2015.6

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    Notes:早期修了に伴うDC2からの変更

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  • 新潟大学大学院自然科学研究科環境科学専攻 社会基盤・建築学コース(建築系)博士後期課程   早期修了 博士(工学)

    2013.4 - 2015.3

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  • 新潟大学大学院自然科学研究科環境科学専攻 社会基盤・建築学コース(建築系)博士前期課程   修了 修士(工学)

    2011.4 - 2013.3

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Research History

  • Niigata University   Faculty of Engineering Department of Engineering   Assistant Professor

    2017.4

  • Niigata University   Graduate School of Science and Technology   Specially Appointed Assistant Professor

    2015.7 - 2017.3

Professional Memberships

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Committee Memberships

  • 日本風工学会   運営学術委員会委員  

    2024.10   

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    Committee type:Academic society

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  • 空気調和衛生工学会 換気設備委員会   委員  

    2023.4   

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    Committee type:Academic society

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  • 日本建築学会 空気環境運営委員会   委員  

    2023.4   

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    Committee type:Academic society

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  • 空気調和衛生工学会 次世代実用CFDパーツの公開小委員会   幹事  

    2023.4   

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    Committee type:Academic society

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  • 日本風工学会   編集・広報委員会 副幹事  

    2022.10 - 2024.9   

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    Committee type:Academic society

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  • 日本建築学会 換気・通風小委員会 換気・通風応用理論WG   委員  

    2022.4   

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    Committee type:Academic society

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  • 日本建築学会   次世代デジタル環境教育検討小委員会 委員  

    2022.4   

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    Committee type:Academic society

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  • 日本建築学会   換気・通風小委員会 換気・CFD検討WG 委員  

    2022.4   

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    Committee type:Academic society

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  • 空気調和衛生工学会   CFDパーツの環境シミュレーションへの適用性検討小委員会 委員  

    2022.4 - 2023.3   

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    Committee type:Academic society

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  • 日本建築学会   屋外空気環境小委員会委員  

    2020.4   

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    Committee type:Academic society

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  • 空気調和・衛生工学会   換気設備委員会 換気効率・性能小委員会委員  

    2020.4   

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    Committee type:Academic society

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  • 日本建築学会   建築・都市熱環境に関する将来構想小委員会委員  

    2018.4 - 2022.3   

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    Committee type:Academic society

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Qualification acquired

  • Licensed Smell Examiner

 

Papers

  • Recently Developments in Particle Image Velocimetry Technology -Study on PIV Measurement for Real-Scale Indoor Space-

    Shin-ichi Akabayashi, Yuki Arinami

    63 - 70   2023.9

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    Authorship:Corresponding author   Language:Japanese   Publishing type:Research paper (other academic)  

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  • STUDY ON CAPTURE EFFICIENCY FOR RESIDENTIAL ELECTRIFIED KITCHENS (PART 1) CAPTURE EFFICIENCY OF RANGE HOODS BY NUMERICAL FLUID MODEL CONSIDERING BOILING WATER Reviewed

    Han WANG, Shin-ichi AKABAYASHI, Yuki ARINAMI

    2023.8

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    Authorship:Last author, Corresponding author   Language:Japanese   Publishing type:Research paper (scientific journal)  

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  • STUDY ON ZERO ENERGY HOUSE (PART 1): EVALUATION OF LIFE-CYCLE COST FOR ALL-ELECTRIFIED DETACHED ZEH Reviewed

    Yuki ARINAMI, Shin-ichi AKABAYASHI, Yajing FANG

    Journal of Environmental Engineering (Transactions of AIJ)   86 ( 784 )   638 - 648   2021.6

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    Authorship:Lead author   Publishing type:Research paper (scientific journal)   Publisher:Architectural Institute of Japan  

    DOI: 10.3130/aije.86.638

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  • RELATIONSHIP BETWEEN ENERGY CONSUMPTION AND OUTSIDE TEMPERATURE IN NIIGATA UNIVERSITY Reviewed

    Yuki ARINAMI, Shin-ichi AKABAYASHI, Masaki TOMITA

    AIJ Journal of Technology and Design   26 ( 64 )   1037 - 1042   2020.10

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    Authorship:Lead author   Publishing type:Research paper (scientific journal)   Publisher:Architectural Institute of Japan  

    DOI: 10.3130/aijt.26.1037

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  • 家庭用燃料電池を導入した場合の一次エネルギー削減効果に関する研究 Reviewed

    有波裕貴, 坂口淳, 赤林伸一

    日本建築学会環境系論文集   84 ( 761 )   687 - 697   2019.7

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  • Performance evaluation of single-sided natural ventilation for generic building using large-eddy simulations: Effect of guide vanes and adjacent obstacles Reviewed

    Yuki Arinami, Shin-ichi Akabayashi, Yoshihide Tominaga, Jun Sakaguchi

    Building and Environment   154   68 - 80   2019.1

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    Authorship:Lead author   Language:English   Publishing type:Research paper (scientific journal)  

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  • Study on accuracy verification of annual performance factor in catalogue for home-use air conditioner by cop measurement experiments Reviewed

    Xinjie Wen, Shin-Ichi Akabayashi, Jun Sakaguchi, Yuki Arinami

    Journal of Environmental Engineering (Japan)   82 ( 740 )   873 - 882   2017.10

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    Language:English   Publishing type:Research paper (scientific journal)   Publisher:Architectural Institute of Japan  

    Annual performance factor (APF) in catalogue is one of the selection criteria for home-use air conditioner. In this paper, the relationship of COP, heating and cooling load and outside air temperature is analyzed using the calorie meter which can carry out temperature adjustment. We constructed "COP Matrix" using the database which is measurement results. APF is calculated from the COP Matrix and compared with catalogue APF to evaluate accuracy of catalogue value. As the result, although the APF of an air conditioner in the catalogue is 5.6, which computed from COP matrix in case1-1 (Tokyo) is 2.9, which is about 0.5 times rather than catalogue value.

    DOI: 10.3130/aije.82.873

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  • Airflow Distribution Measurements around the Human Body Using a Thermal Manikin by Particle Image Velocimetry Reviewed

    Yuki Arinami, Shin-Ichi Akabayashi, Kunio Mizutani, Jun Sakaguchi

    Journal of Flow Control, Measurement & Visualization   05 ( 03 )   65 - 72   2017

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    Authorship:Lead author, Corresponding author   Language:English   Publishing type:Research paper (scientific journal)   Publisher:Scientific Research Publishing, Inc.  

    DOI: 10.4236/jfcmv.2017.53005

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  • Measuring method for indoor airflow using Particle Image Velocimetry technique: Airflow measurements around two house models with outdoor airflow inducing devices Reviewed

    Yuki Arinami, Shin-ichi Akabayashi, Jun Sakaguchi, Wen Xinjie

    IAQVEC2016 Conference Proceedings   2016.10

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  • A Basic Study of the Measuring Method of the Indoor Airflow by Particle Image Velocimetry: Airflow Distribution Measurements around the Human Body using a Thermal Manikin Reviewed

    Jun Sakaguchi, Shin-ichi Akabayashi, Yuki Arinami, Wen Xinjie

    IAQVEC2016 Conference Proceedings   2016.10

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    Language:English   Publishing type:Research paper (international conference proceedings)  

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  • Study on the best S election method of home use Air Condition er Experiment al Study on COP Matrix es and Simulation of Annual Averaged COP Reviewed

    Xinjie Wen, Sin-ichi Akabayashi, Jun Sakaguchi, Yuki Arinami

    IAQVEC2016 Conference Proceedings   2016.10

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    Authorship:Last author   Language:English   Publishing type:Research paper (international conference proceedings)  

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  • Les(large-eddy simulation: Proposal of an evaluation method for natural cross-ventilation performance considering flow fluctuation: study on naturally cross-ventilated house using large-eddy simulation(LES) part 2 Reviewed

    Yuki Arinami, Shin-Ichi Akabayashi, Yoshihide Tominaga, Jun Sakaguchi, Yasuo Takano, Miho Honda

    Journal of Environmental Engineering (Japan)   81 ( 725 )   589 - 597   2016.7

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    Language:Japanese   Publishing type:Research paper (scientific journal)   Publisher:Architectural Institute of Japan  

    The driving force behind natural cross-ventilation is outdoor wind. The indoor airflow distribution and flow rate under cross-ventilation vary greatly because the direction and velocity of wind changes constantly. Thus, cross-ventilation is said to be an unsteady fluid phenomena. Therefore, replicating actual fluid phenomena using computational fluid dynamics is very important for evaluating the unsteady cross-ventilation performances of houses. Recently, unsteady fluid phenomena have been analyzed by using large-eddy simulation. In this study, a new evaluation method that considers flow fluctuation for natural cross-ventilation is proposed. According to this method, particles are released at openings and the ratio of particles arriving at the evaluation area of a house model is calculated. The method sets inner half part over the central plane of the model as the evaluation area to exclude short circuit phenomena. Ratio of particles entering into the model, ratio of particles arriving at the evaluation area, effective ventilation rate and effective ventilation ratio are analyzed for the simple house model. The evaluation results for the performance of this unsteady natural cross-ventilation model are reported.

    DOI: 10.3130/aije.81.589

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  • Study on the Selection of home-use Air Conditioners - COP Measurements of Air Conditioners on 2013 model year Reviewed

    Xinjie Wen, Shi-ichi Akabayashi, Jun Sakaguchi, Yasuo Takano, Yuki Arinami

    ISHVAC-COBEE 2015 Conference Proceedings   2015.7

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  • Study of airflow in a naturally cross-ventilated house -Evaluation of nat-ural cross ventilation considering flow fluctuation by using large-eddy simulation(LES)- Reviewed

    Yasuo Takano, Shin-ichi Akabayashi, Jun Sakaguchi, Yuki Arinami, Jie Wen

    ISHVAC-COBEE 2015 Conference Proceedings   2015.7

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  • Airflow visualization and measurements of fluctuating flow using particle image velocimetry (PIV) for a model house with single-sided and cross-ventilation in a large boundary-layer wind tunnel Reviewed

    Yuki Arinami, Shin-ichi Akabayashi, Jun Sakaguchi, Yasuo Takano, Jie Wen

    ISHVAC-COBEE 2015 Conference Proceedings   2015.7

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  • Study of Airflow Distribution in a Simple Model Room with a Model of a Human Body and Furniture using Particle Image Velocimetry (PIV) Reviewed

    Jun Sakaguchi, Shi-ichi Akabayashi, Yasuo Takano, Yuki Arinami, Xinjie Wen

    ISHVAC-COBEE 2015 Conference Proceedings   2015.7

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  • 住宅の通風性能の簡易評価手法に関する研究

    有波裕貴

    2015.3

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    Language:Japanese   Publishing type:Doctoral thesis  

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  • Air flow around isolated gable-roof buildings with different roof pitches: Wind tunnel experiments and CFD simulations Reviewed

    Yoshihide Tominaga, Shin-ichi Akabayashi, Takuya Kitahara, Yuki Arinami

    BUILDING AND ENVIRONMENT   84 ( 84 )   204 - 213   2015.1

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    Language:English   Publishing type:Research paper (scientific journal)   Publisher:PERGAMON-ELSEVIER SCIENCE LTD  

    The air flow around isolated gable-roof buildings with different roof pitches was investigated by wind tunnel experiments and computational fluid dynamics (CFD) simulations based on a steady Reynoldsaveraged Navier Stokes equations (RANS) model. Firstly, wind tunnel experiments on the air flow around building models with three different pitches, specifically, 3:10, 5:10, and 7.5:10, were conducted to create a measurement database of the time-averaged velocity, turbulent kinetic energy, and pressure coefficient around the building. Next, sensitivity analyses for the grid resolutions and turbulence models of the CFD simulations were performed for the 5:10 roof pitch model. The performance of the CFD simulation with the selected grid resolution and turbulence model was examined and validated by comparing the results of the simulation with the measured data for all the roof pitches. Generally, for the streamwise velocity, the simulation results were found to be in good agreement with the measured values, with an average deviation of less than 15%. For points behind the building, however, the prediction accuracy showed as much as 30% deviation. This discrepancy was closely related to the fact that the transient fluctuations caused by vortex shedding around the building are not reproduced by the steady-RANS simulations used in this study. Finally, the effect of the roof pitch on the flow field around the building was investigated using the CFD simulations. We clarified that the difference in the flow fields of the 3:10 and 5:10 roof pitches is large, relative to the difference between the 5:10 and 7.5:10 pitches. (C) 2014 Elsevier Ltd. All rights reserved.

    DOI: 10.1016/j.buildenv.2014.11.012

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  • ANALYSIS of CROSS VENTILATION AIRFLOW in and AROUND SIMPLE HOUSE MODEL CONSIDERING FLOW FLUCTUATION : Study on naturally cross-ventilated house using large-eddy simulation(LES) part 1 Reviewed

    Yasuo Takano, Shin-Ichi Akabayashi, Yoshihide Tominaga, Jun Sakaguchi, Miho Honda, Yuki Arinami

    Journal of Environmental Engineering (Japan)   80 ( 716 )   925 - 934   2015

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    Language:Japanese   Publishing type:Research paper (scientific journal)   Publisher:Architectural Institute of Japan  

    Natural cross ventilation in house is commonly used as ventilation method in Japan. It is influenced by wind direction, distribution of wind velocity and total pressure on walls. Cross ventilation is not observed with using Reynolds Averaged Navier-Stokes Simulation (RANS), nevertheless occurs in actual phenomena. Flow field in the house varies depending on fluctuating wind. For example, cross ventilation is affected by the wind turbulence around the house, in case of two openings positioned symmetrically on opposite walls parallel to wind direction. Therefore, replicating actual phenomena with using CFD is very important to provide evaluation method for ventilation design. Recently, unsteady fluid flow phenomena are analyzed using Large-Eddy Simulation (LES). In this study, opening conditions and wind direction are calculation variables, five cross ventilated simple house models are calculated using LES. Distributions of instantaneous wind speed ratio and pressure, mean wind speed ratio about cross-ventilated houses are reported. In opening conditions that time-averaged inflow is not observed, instantaneous inflow caused by pressure difference on the walls is generated by turns at each opening. Unsteady cross ventilation is replicated with using LES under opening conditions that obtain no-ventilation in steady-state flow field.

    DOI: 10.3130/aije.80.925

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  • Visualization and measurements for fluctuating cross ventilation airflow in simple house model using large-size boundary layer wind tunnel Reviewed

    Yuki Arinami, Shin-Ichi Akabayashi, Yasuo Takano, Yoshihide Tominaga, Jun Sakaguchi

    Journal of Environmental Engineering (Japan)   80 ( 708 )   127 - 137   2015

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    Language:English   Publishing type:Research paper (scientific journal)   Publisher:Architectural Institute of Japan  

    Cross ventilation in interior spaces is a commonly adopted means of providing natural ventilation in Japan during moderate seasons, including summer. Cross ventilation is occurred by interaction that caused by the airflow in interior and exterior rooms and the pressure distribution of the building walls. The airflow distribution varied depending on the outside wind direction and velocity. Moreover, the outside wind turbulence affects cross ventilation, for example, in the case of two wall openings symmetrical to the wind direction. Cross ventilation is a unsteady-state phenomenon, and in order to understand it better, the wind flow and velocity have to be quantified. This study describes the airflow distribution in a simple cross-ventilated house model by using PIV and a large-size boundary wind tunnel. In this paper, the location of the openings and the wind direction are the experimental variables. The wind speed ratio and turbulent kinetic energy distribution by wind velocity vector of 2 dimensions and 2 components in and around the model are reported. In Case B (two openings placed on opposite walls parallel to wind direction), Case C (two openings placed on windward wall) and Case D (two openings placed on leeward wall), where there is no pressure difference of the building walls as a function of time, it is clarified that airflow moves into and out of the model through the openings in turn due to the outside wind turbulence.

    DOI: 10.3130/aije.80.127

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  • Study on state of cop and regional characteristics of Apf for room air conditioners Reviewed

    Shin-Ichi Akabayashi, Jun Sakaguchi, Takuya Oshima, Hiroyuki Ichikawa, Yuki Arinami

    AIJ Journal of Technology and Design   20 ( 44 )   187 - 190   2014.2

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    Language:Japanese   Publishing type:Research paper (scientific journal)  

    A conventional selection criterion of room air conditioners based on rated performance is considered suboptimal from the standpoint of energy efficiency. In order to help consumers evaluate energy performance, annual performance factor (APF) was introduced in the 2005 revision of JIS C 9612. However, APF assumes thermal environment of Tokyo, which makes regional deviation of APF remain unknown. In the present study, rated coefficients of performance (COPs) and market prices of year 2012 models of air conditioners are collected. From the collection, APFs are calculated at nine representative cities in Japan to quantify regional characteristics of APF.

    DOI: 10.3130/aijt.20.187

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  • Air flow measurements in a scale model of a room and method selection of seeding with tracer particles: Study on PIV measurement and analysis for room air flow distribution Part 1 Reviewed

    Shin-Ichi Akabayashi, Takuya Oshima, Yuki Arinami, Hajime Okubo, Xiaoyun Yang, Jun Sakaguchi

    Journal of Environmental Engineering (Japan)   78 ( 690 )   631 - 638   2013.8

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    Language:Japanese   Publishing type:Research paper (scientific journal)  

    This paper describes particle image velocimetry (PIV) air flow measurements in a room model of scale 1:0
    the model has inlets and outlets across its width. The PIV measurements use three types of tracer particles: water mist, oil mist, and metal powder. The air flow distribution and turbulence intensity are measured by PIV with metal powder tracers in four combinations of inlet and outlet positions. The results are as follows
    (1) Among the three tracer particles, metal powder yields the best air flow measurements in the 1:10·scale room model. (2) To obtain uniform luminance, an appropriate tracer particle concentration and increased laser output are required. (3) When the inlet and outlet are located midway across the scale model, the air flow velocity in the room in nearly symmetrical. In this case, air enters straight through the inlet, is sucked into the outlet, and is largely discharged. The air not discharged from the outlet collides with the side-wall of the outlet to forms a symmetrical vortex area.

    DOI: 10.3130/aije.78.631

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  • Peak electricity demand reduction by installation of fuel cell cogeneration system in residences: Part 1 Results of simulations for the district of Tohoku Electric Power Company Reviewed

    Shin-Ichi Akabayashi, Jun Sakaguchi, Takuya Oshima, Hiroyuki Ichikawa, Yuki Arinami

    Journal of Environmental Engineering (Japan)   78 ( 690 )   639 - 644   2013.8

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    Language:Japanese   Publishing type:Research paper (scientific journal)  

    One of the effects of the 2011 Tohoku earthquake and the subsequent power disruptions was an increased demand for electricity. As a result, there have been societal efforts to reduce electricity usage and to provide electrical power more equitably. Private power generation by a fuel cell cogeneration system (FCCGS) recently proposed for home use is expected to advance the efficient utilization of primary energy sources and contribute to energy conservation. In this paper, we present the results of a case study on peak electricity demand by modeling the district served by the Tohoku Electric Power Company. The study analyzes the effects on peak power demand if residences in the district were equipped with FCCGSs. For this study, we assume that the FCCGSs are installed in groups of 100,000 units. The groups are composed of FCCGS units with different rated outputs whose hours of operation throughout the day are distributed among the groups. Power supply, primary energy consumption, and CO2 emission amounts both before and after the installation of FCCGSs are recorded in order to quantify the cut in peak demand for electricity. The results of the study demonstrate that peak demand can be cut if FCCGSs are installed in 5% or less (in winter) and about 25% (in summer) of all the private residences in the district served by Tohoku Electric Power Company.

    DOI: 10.3130/aije.78.639

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  • 可搬型ガスタービン発電機からの高温排熱の拡散性状に関する研究 Reviewed

    有波裕貴, 赤林伸一, 石川真也, 坂口淳

    日本ガスタービン学会誌   41 ( 3 )   44 - 51   2013.5

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  • Study on the energy consumption and CO2 emissions of the all electrification house and gas and electricity combination house Reviewed

    Shin-Ichi Akabayashi, Jun Sakaguchi, Hiroyuki Ichikawa, Yuki Arinami

    Journal of Environmental Engineering (Japan)   78 ( 685 )   285 - 290   2013.3

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    Language:Japanese   Publishing type:Research paper (scientific journal)  

    This paper describes an energy consumption and CO2 emission of detached house. Energy consumption in this study is total amount of energy consumption of house including the hot water supply cooking range, electrical equipment, ventilation and air conditioning load. This study targets for 3 type houses which are all-electrification, gas-electricity combination and Fuel cell co-generation system (FCCGS) house. Results as a followings:. (1) CO2 emissions of air conditioning load are more affected by Heating COP in air-conditioner than the difference of range. (2) Regional differences of hot water supply load are affected by CO2 emissions basic unit by electric power company. (3) CO2 emissions in the whole residence are more affected by Heating COP in air-conditioner than hot water supply COP of heat pump water heater.

    DOI: 10.3130/aije.78.285

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  • Study on the evaluation of cross ventilation performance of detached house by effective air change rate and effective opening area of windows ratio Reviewed

    Yuki Arinami, Shin-Ichi Akabayashi, Takuya Oshima, Jun Sakaguchi

    Journal of Environmental Engineering (Japan)   78 ( 685 )   277 - 284   2013.3

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    Language:Japanese   Publishing type:Research paper (scientific journal)  

    The effect of improving indoor environment by the cross ventilation, the rate to discharge thermal energy by the ventilation is larger than the reduction effects of SET* by indoor air flow. In this study, the relationship between the difference of indoor temperature and outdoor temperature by the effect of ventilation will be less than 1°C and the opening area of windows ratio are calculated for a simple and the standerd AIJ detached house model. The relationship between the air change rate, opening area of windows conditions and cross ventilation performance of the detached house is clarified. The results are as follows
    (1) When air change rate is 20 times/h, the inside air temperature becomes nearly equal to the outside air temperature due to the discharge thermal energy by the ventilation. (2) The opening area of windows ratio tends to be high in the inland, and it tends to be low in the city along the sea in Japan. (3) Results of standard AIJ detached house model, the opening area of windows ratio with which ventilation rate is 20 times/h becomes a low value of feasibility. The opening area of windows ratio with which ventilation rate is 10 times/h becomes a values that may be realized.

    DOI: 10.3130/aije.78.277

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MISC

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Awards

  • 空気調和衛生工学会 功績賞

    2023.5   空気調和衛生工学会   産業換気分野における換気問題とICT活用の検討

    換気効率・性能小委員会

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  • AIJ Young Researcher Award 2021

    2021.9   Architectural Institute of Japan  

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  • Research Encouragement Award

    2020.5   Japan Association for Wind Engineering  

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  • 日本建築学会北陸支部大会 若手優秀プレゼンテーション賞

    2016.7   日本建築学会北陸支部  

    有波裕貴

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    Award type:Award from Japanese society, conference, symposium, etc.  Country:Japan

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  • 日本建築学会大会(関東)学術講演会建築環境工学部門 若手優秀発表

    2015.11   日本建築学会  

    有波裕貴

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    Award type:Award from Japanese society, conference, symposium, etc.  Country:Japan

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  • 日本建築学会大会(近畿)学術講演会建築環境工学部門 若手優秀発表

    2014.11   日本建築学会  

    有波裕貴

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    Award type:Award from Japanese society, conference, symposium, etc.  Country:Japan

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Research Projects

  • マルチ×(スケール:レーザー:カメラ)・スマートPIVの開発

    Grant number:21H04582

    2021.4 - 2024.3

    System name:科学研究費助成事業

    Research category:基盤研究(A)

    Awarding organization:日本学術振興会

    赤林 伸一, 有波 裕貴

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    Grant amount:\21320000 ( Direct Cost: \16400000 、 Indirect Cost:\4920000 )

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  • マルチレーザー粒子画像流速測定手法を用いた実大空間の定量的可視化測定法の開発

    2016.4 - 2018.3

    System name:科学研究費助成事業

    Research category:若手研究(B)

    Awarding organization:日本学術振興会

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    Grant type:Competitive

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  • 住宅のZero Energy House(ZEH)化に関する研究

    2015.4 - 2016.3

    System name:科学研究費助成事業

    Research category:特別研究員奨励費

    Awarding organization:日本学術振興会

    有波裕貴

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    Authorship:Principal investigator  Grant type:Competitive

    本研究では住宅のZEH化を目的として以下の3つの項目について研究を行う。
    ①非定常数値解析と風洞実験により、外部風の時間的変動による住宅の通風性状を明らかにし、時間的変動を伴う換気量を定量的に評価する手法を開発する。
    ②JIS規格と同精度でエアコンの出力を測定可能な簡易カロリーメータにより、外気温度とエアコンの出力と成績係数(COP
    )の関係(COPマトリックス)を実測し、データベース化を行う。更に、熱負荷計算プログラムとCOPマトリックスをリンクさせ、年間の電力消費量が最少となるエアコンを選定するツールを開発する。
    ③東日本大震災前後の電源構成、電力供給量を対象として、一般電気事業者の各電力管内に家庭用FCCGSを多数設置した場合のシミュレーションを行う。家庭用FCCGS導入による年間の一次エネルギー及びCO2削減量を算出し、家庭用FCCGSの分散型電源としてのより詳細な導入効果の評価を行う。

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  • 放射型空調システムによる室内環境調整計画の簡易設計方法に関する開発研究

    2014.4 - 2015.3

    System name:公益財団法人 内田エネルギー科学振興財団 試験研究費助成

    Awarding organization:民間財団等

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    Grant type:Competitive

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  • LES(Large-Eddy Simulation)による住宅の自然換気・通風性状に関する研究

    2013.4

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    Grant type:Competitive

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  • 家庭用燃料電池による一次エネルギー削減効果に関する研究

    2013.4

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    Grant type:Competitive

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  • 完全人工光型植物工場を対象とした省エネ型栽培設備の開発研究

    2013.4

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    Grant type:Competitive

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  • 住宅の通風性能の簡易評価手法に関する研究

    2011.4

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    Grant type:Competitive

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  • 室内気流を対象としたPIV計測に関する研究

    2011.4

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    Grant type:Competitive

    本論文では排気口と給気口が設置された1/10サイズの縮尺室内模型を対象としてPIV計測を行う上で極めて重要なトレーサの選定,シーディング手法及び可視化手法の検討を行い,良好な可視化画像の取得方法を構築した。更に,給排気口の位置を変化させてPIV計測を行い,各給排気口条件における平均風速分布の測定及び同時刻におけるシームレスな乱れの強さの分布の算出を行った。

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Teaching Experience (researchmap)

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Teaching Experience

  • 建築環境解析学演習

    2024
    Institution name:新潟大学

  • 建築環境制御学II

    2023
    Institution name:新潟大学

  • エンジニアのためのデータサイエンス入門(建築分野)

    2023
    Institution name:新潟大学

  • 建築環境制御論II

    2021
    Institution name:新潟大学

  • 建築環境計画特論

    2021
    Institution name:新潟大学

  • 建築環境制御学I

    2021
    Institution name:新潟大学

  • 建築環境工学II

    2021
    Institution name:新潟大学

  • 建築設計製図Ⅵ

    2020
    Institution name:新潟大学

  • 建築環境工学I

    2020
    Institution name:新潟大学

  • 建築環境制御学演習I

    2020
    Institution name:新潟大学

  • 建築設計製図V

    2020
    Institution name:新潟大学

  • 建築環境工学演習I

    2020
    Institution name:新潟大学

  • 建築環境工学演習II

    2020
    Institution name:新潟大学

  • 建築環境制御学演習II

    2020
    Institution name:新潟大学

  • 建築設計製図Ⅶ

    2020
    -
    2023
    Institution name:新潟大学

  • 建築環境計画演習

    2020
    -
    2023
    Institution name:新潟大学

  • 建築学概論

    2018
    Institution name:新潟大学

  • 卒業研修又は基礎設計

    2018
    Institution name:新潟大学

  • 卒業研究又は設計

    2018
    Institution name:新潟大学

  • 建築設計製図III

    2018
    Institution name:新潟大学

  • 建築設計製図IV

    2018
    Institution name:新潟大学

  • 建築設計製図I

    2018
    Institution name:新潟大学

  • 建築設計製図II

    2018
    Institution name:新潟大学

  • 総合技術科学演習

    2018
    Institution name:新潟大学

  • 建築環境工学演習

    2018
    Institution name:新潟大学

  • 建築環境制御学演習

    2018
    Institution name:新潟大学

  • 工学リテラシー入門(建築分野)

    2017
    Institution name:新潟大学

  • リメディアル演習

    2017
    -
    2021
    Institution name:新潟大学

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