Kyushu University Academic Staff Educational and Research Activities Database
Researcher information (To researchers) Need Help? How to update
Aya Hagishima Last modified date:2018.10.09



Graduate School
Undergraduate School


E-Mail
Homepage
http://ktlabo.cm.kyushu-u.ac.jp/index.htm
Website on Urban and Architectural Environment Laboratory, Department of Energy and Environmental Engineering, Interdisciplinary Graduate School of Engineering Sciences (IGSES), Kyushu University .
Phone
092-583-7646
Fax
092-583-7646
Academic Degree
Doctor of Engineering
Field of Specialization
Urban climatology, Building environmental engineering, Wind engineering, Urban environment
Outline Activities
As educational activities, Dr. Hagishima has the chair of lectures of fluid dynamics and heat transfer engineering for undergraduate students at the department of energy science and engineering, school of engineering, and lectures of micro-climatology for graduate students at the department of energy and environmental engineering, interdisciplinary graduate school of engineering and sciences. In addition, she educates students as their supervisor through research projects for undergraduate thesis, master thesis, and doctor thesis. Furthermore, she has actively accepted international students.

Her research activities can be categorized in the following academic fields; urban climatology, wind engineering and building environmental engineering. The recent research interests are summarized as follows.

1.Transport phenomena of momentum, heat and scalar of urban boundary layer over building arrays
- Prediction of urban heat island based on urban canopy model
- Wind and thermal environment of urban street canyon
- Natural ventilation of buildings located in a urban district
- Turbulent characteristics of the airflow within and over a urban canopy layer
2.Sustainable designs of buildings and urban districts tailored to local climate and cultural background
- Evaluation of passive design technique based on building energy simulation
- Estimation of natural ventilation efficiency of houses by using CFD technique
- Thermal mitigation effects of urban vegetation
3.Development of a prediction tool of total utility demand in residence considering diverse inhabitants' behavior
- Modeling of the usage of air-conditioners in residence
- Monte Carlo calculation of building energy simulation for estimating energy demand of urban districts
- Stochastic characteristics of the thermal requirement for space heating and cooling in residence
4.Questionnaire surveys on people’s environmental consciousness and eco-friendly behavior
- Cross cultural comparisons
- Conjoint analysis on the preference of environmental design of buildings

The fruits of the work have been published as research articles in the relevant international journal as well as presented in international conferences.
In addition, she has served on various advisory panels for environmental conservation, environmental assessment and urban planning of local governments as an academic expert.
Research
Research Interests
  • Study on the time patterns of energy use and air-conditioning operation in residential buildings in a tropical emerging country
    keyword : Occupants behaviour, building energy simulation, thermal comfort,
    2014.04~2016.06.
  • Study on the unsteady ventilation of urban buildings affected by urban canopy turbulence
    keyword : Wind tunnel experiment, particle image velocimetry, Computational fluid dynamics, large eddy simulationm RANS
    2014.04~2017.06.
  • Statistical analysis of time patterns of household energy demand
    keyword : demand forecast, energy saving, occupants behaviour
    2015.03~2017.03.
  • Aerodynamic interaction between wake past a slender obstacle and rough wall boundary layear
    keyword : Wind tunnel experiment, Particle Image Velocimetry, Laser Doppler velocimetry
    2014.04~2017.03.
  • Geometry dependency of Urban airflow and scalar transfer process within and above urban building canopy
    keyword : Wind tunnel experiment, Large eddy simulation, drag coefficient, roughness length, transfer coefficient, Urban boundary layer
    2005.05~2016.03.
  • Development of Total Utility Demand Prediction System TUD-PS Considering
    Variation in the Behavior Schedules of Residents and Analysis on Stochastic Characteristics of Cooling/Heating Load
    keyword : Simulation, thermal load, behavior schedule
    2009.04~2017.03.
  • Field experiment for estimation of thermal mitigation effect of urban vegetation in COSMO
    keyword : Roadside trees, Cool spot, Thermal mitigation, Outdoor field experiment, Urban street canyon
    2010.05~2012.03.
  • Analysis of Urban heat island using multi-layer urban canopy model
    keyword : urban heat island, urban canopy model, anthropogenic heat of urban area, radiation process within urban canopy
    1997.04~2007.12.
  • Questionnaire survey on Preferences for improved environmental factors of residential buildings
    keyword : Conjoint analysis, questionnaire survey
    2002.04~2012.03.
Academic Activities
Papers
1. Sheikh Ahmad Zaki, Aya Hagishima, Ryosuke Fukami, Nur Fadhilah, Development of a model for generating air-conditioner operation schedules in Malaysia, Building and Environment, 10.1016/j.buildenv.2017.06.023, 122, 354-362, 2017.09, [URL].
2. , [URL].
3. Naoki Ikegaya, Y. Ikeda, Aya Hagishima, A. A. Razak, Jun Tanimoto, A prediction model for wind speed ratios at pedestrian level with simplified urban canopies, Theorectical and Applied Climatology, 10.1007/s00704-015-1655-z, 127, 41701.0, 655-665, 2017.02, [URL].
4. Naoki Ikegaya, Yasuaki Ikeda, Aya Hagishima, Jun Tanimoto, A prediction model for wind speed ratios at pedestrian level with simplified urban canopies
Theoretical and Applied Climatology, Theoretical and Applied Climatology, 10.1007/s00704-015-1655-z, 2015.10.
5. Yasuaki Ikeda, Aya Hagishima, Naoki Ikegaya, Jun Tanimoto, Azli Abd Razak, Estimation of wind speed in urban pedestrian spaces on the basis of large-eddy simulation, Journal of Environmental Engineering (Transactions of AIJ), 80, 709, 259-267, 2015.03.
6. Azil Abd Razak, Aya Hagishima, Naoki Ikegaya, Jun Tanimoto, Analysis of airflow over building arrays for assessment of urban wind environment, Building and Environment, 10.1016/j.buildenv.2012.08.007, 59, 56-65, 2013.01.
7. Tanimoto, Jun; Hagishima, Aya; Iwai, Takeshi; Ikegaya, Naoki, Total utility demand prediction for multi-dwelling sites by a bottom-up approach considering variations of inhabitants' behaviour schedules, Journal of Building Performance Simulation, 10.1080/19401493.2012.680498, 6, 1, 53-64, 2013.01.
8. Minsun Park, Aya Hagishima, Jun Tanimoto, Ken-ichi Narita, Effect of urban vegetation on outdoor thermal environment: Field measurement at a scale model site, Building and Environment, 10.1016/j.buildenv.2012.02.015, 56, 38-46, 2012.10.
9. Minsun Park, Aya Hagishima, Jun Tanimoto, Ken ichi Narita, Effect of urban vegetation on outdoor thermal environment
Field measurement at a scale model site, Building and Environment, 10.1016/j.buildenv.2012.02.015, 56, 38-46, 2012.10, [URL].
10. Naoki Ikegaya, Aya Hagishima, Jun Tanimoto, Yudai Tanaka, Ken-ichi Narita, Sheikh Ahmad Zaki, Geometric Dependence of the Scalar Transfer Efficiency over Rough Surfaces, Boundary Layer Meteorology, 10.1007/s10546-012-9698-5, 143, 2, 357-377, 2012.05, [URL].
11. Sheikh Ahmad Zaki, Aya Hagishima, Jun Tanimoto, Experimental study of wind-induced ventilation in urban building of cube arrays with various layouts, Journal of Wind Engineering & Industrial Aerodynamics, 10.1016/j.jweia.2012.02.008, 103, 31-40, 2012.04, [URL].
12. Sheikh Ahmad Z, Hagishima A, Tanimoto J, Ikegaya N,, Aerodynamic Parameters of Urban Building Arrays with Random Geometries, Boundary-Layer Meteorology, 138, 99-120, 2010.10.
13. Oliveira JT, Hagishima A, Tanimoto J, Estimation of passive cooling efficiency for environmental design in Brazil, Energy and Buildings, 10.1016/j.enbuild.2009.02.006, 41, 8, 809-813, 2009.08.
14. Hagishima A, Tanimoto J, Nagayama K, Meno S, Aerodynamic parameters of regular arrays of rectangular blocks with various geometries, Boundary-Layer Meteorology, 132, 2, 315-337, 2009.08.
15. Sugawara H, Hagishima A, Narita KI, Ogawa H, Yamano M, Temperature and Wind Distribution in an E-W-Oriented Urban Street Canyon, SOLA, 4, 53-56, 2008.06.
16. Jun Tanimoto, Aya Hagishima, Hiroki Sagara, A methodology for peak energy requirement considering actual variation of occupants' behavior schedules, Building and Environment, 10.1016/j.buildenv.2006.06.034, 43, 4, 610-619, 2008.04, [URL].
17. Hagishima A,Narita KI,Tanimoto J, Field Experiment on transpiration from isolated urban plants, Hydrological Processes, 10.1002/hyp.6681, 27, 1217-1222, 2007.02.
18. Hagishima A, Tanimoto J, Narita KI, Intercomparisons of experimental research on convective heat transfer coefficient of urban surfaces,, Boundary-Layer Meteorology, 10.1007/s10546-005-2078-7, 117, 3, 551-576, 2006.01, 都市ヒートアイランド現象を高精度に予測する際には、複雑形状を有する都市表面、即ち様々な配列、形状の建物群の壁面や屋根面と都市大気の間の対流熱輸送量を適切に評価することが不可欠である。しかしながら、壁面の熱伝達率に関しては、建物形状、参照風速や参照気温の定義位置、大気安定度など様々な条件に対応した普遍的なモデルは存在しないのが現状である。これに対し、本論文は熱交換器やコンピューターの基盤などを想定した機械工学分野の模型実験、建物空調熱負荷計算を目的とした建物外壁面を対象とした屋外観測など、異なる学問分野における既往研究を包括的にレビューし、複雑粗面乱流の熱伝達率に関するモデリングについての考察を行ったものである。.
19. Aya Hagishima, Jun Tanimoto, Ken Ich Narita, Intercomparisons of experimental convective heat transfer coefficients and mass transfer coefficients of urban surfaces, Boundary-Layer Meteorology, 10.1007/s10546-005-2078-7, 117, 3, 551-576, 2005.12, [URL].
20. Aya Hagishima, Jun Tanimoto, Investigations of urban surface conditions for urban canopy model, Building and Environment, 10.1016/j.buildenv.2004.08.010, 40, 12, 1638-1650, 2005.12, [URL].
21. Kanda M, Kawai T, Kanega M, Moriwaki R, Narita K, Hagishima A, A simple energy balance model for regular building arrays, Boundary-Layer Meteorology, 10.1007/s10546-004-7956-x, 116, 3, 423-443, 2005.04, 近年社会的関心の高まっている都市ヒートアイランド現象をメソスケールの気象モデルにおいて予測する際、複雑形状の建物群が運動量、熱、水蒸気輸送に及ぼす影響を少ない計算負荷で適切にモデル化する事は不可欠である。本論文はそうした要請に応えるべくメソスケールモデルの地表面スキームとして新たな単層都市キャノピーモデルを提案したものである。ここ10年来、多くの研究者が独自の都市キャノピーモデルを開発してきたが、これらに対し本論文で提案したモデルは、1) 3次元建物形状に対し壁面,地面間放射授受の高速計算スキームを導入、2) 壁面-大気間の熱輸送効率を面要素別にバルク係数でexplicitに記述、3) 屋外準実大都市スケールモデルCOSMOにおける観測データを用いた精度検証、以上3点において特に優れた特徴を有している。.
22. Aya Hagishima & Jun Tanimoto, Investigations of Urban Surface Conditions for Urban Canopy Model, Building and Environment, 10.1016/j.buildenv.2004.08.010, 40, 12, 1638-1650, 2005.01.
23. Chimklai P. Hagishima A, Tanimoto J, A computer system to support Albedo Calculation in urban areas, Building and Environment, 10.1016/j.buildenv.2004.02.006, 39, 10, 1213-1221, 2004.10.
24. Tanimoto J, Hagishima A, Chimklai P, An approach for coupled simulation of building thermal effects and urban climatology, Energy and Buildings, 10.1016/j.enbuild.2004.01.019, 36, 8, 781-793, 2004.08.
Works, Software and Database
1. .
2. .
Presentations
1. Aya Hagishima, Urban climate phenomena and urban designs
How can we estimate urban effects on climate?, The Architectural Institute of Korea, Busan Ulsan Gyeongnam Chapter, 2015.11.
2. M. F. Mohamad, A. Hagishima, J. Tanimoto, N. Ikegaya, A. R. Omar, On the effect of various design factors on wind-induced natural ventilation of residential buildings in Malaysia, The 2nd Asia conference of International Building Performance Simulation Association, 2014.11.
3. Y. Ikeda, A. Hagishima, N. Ikegaya, J. Tanimoto, Large-Eddy Simulation on the gust probability in urban pedestrian spaces, The 2nd Asia conference of International Building Performance Simulation Association, 2014.11.
4. J. Chung, A. Hagishima, N. Ikegaya, J. Tanimoto, A Wind Tunnel Study on Effect of Scalar Transport between Urban-like Block Array and Air, The 2nd Asia conference of International Building Performance Simulation Association, 2014.11.
5. C. Hirose, A. Hagishima, N. Ikegaya, J. Tanimoto, Large-Eddy Simulation for Turbulent Nature of Flow and Pressure Fields over Urban Building Arrays, The 2nd Asia conference of International Building Performance Simulation Association, 2014.11.
6. N. Ikegaya, Y. Ikeda, A. Hagishima, J. Tanimoto, Geometric Effects on Wind Environment in Simplified Urban Canopies, The 6th International Symposium on Computational Wind Engineering, 2014.06.
7. Aya Hagishima, Jun Tanimoto, Stochastic characteristics of thermal load in a single dwelling in a residential building based on building energy simulation coupled with a sub-model, 13th Int. IBPSA Conf. Building Simulation 2013, 2013.08.
8. Mohamad Mohd Faizal, Aya Hagishima, Jun Tanimoto, Naoki Ikegaya, Omar Abdul Rahman, Wind-induced natural ventilation in typical single story terraced houses in Malaysia, 13th Int. IBPSA Conf. Building Simulation 2013, 2013.08.
9. Aya Hagishima, Naoki Ikegaya, Jun Tanimoto, Manato Yamaguchi, Drag Coefficients of staggered arrays with various block, Proc. 8th Int. Conf. on Urban Climate (ICUC-8), 2012.08.
10. Naoki Ikegaya, Aya Hagishima, Jun Tanimoto, Wind-tunnel experiments on scalar boundary layer over cubical block arrays, Proc. 8th Int. Conf. on Urban Climate (ICUC-8), 2012.08.
11. Sheikh Ahmad Zaki, Aya Hagishima, and Jun Tanimoto, Estimation of wind-induced ventilation in urban building of regular arrays with various layouts, 5th International Building Physics Conference, 2012.05.
12. Azli Abd Razak, Aya Hagishima, and Jun Tanimoto, Large-Eddy Simulation on airflow over a building Array for assessment of well ventilated city, 5th International Building Physics Conference, 2012.05.
13. Aya Hagishima, Naoki Ikegaya, Yudai Tanaka, Jun Tanimoto, Ken-ichi Narita, Experimental study of geometry dependence of scalar transfer efficiency of rough surfaces, Fifth International Symposium on Computational Wind Engineering (CWE2010), 2010.05.
14. Naoki Ikegaya, Aya Hagishima, Jun Tanimoto, Large-eddy simulation of scalar transport phenomena between an urban surface and atmosphere, Fifth International Symposium on Computational Wind Engineering (CWE2010), 2010.05.
15. Sheikh Ahmad Zaki, Aya Hagishima, Jun Tanimoto, Naoki Ikegaya, Wind tunnel measurement of aerodynamic parameters of urban building arrays with random geometries, Fifth International Symposium on Computational Wind Engineering (CWE2010), 2010.05.
16. Manato Yamaguchi, Jun Tanimoto, Aya Hagishima, Yoshiki Kikuchi, Sheikh Ahmad Zaki, Akashi Mochida, A wind tunnel study on drag coefficient for complex arrays of various types of roughness elements, The International Association for Urban Climate (IAUC), 2009.06.
17. Aya Hagishima, Ken-ichi Narita, Jun Tanimoto, and Tomohito Kimura, Multi point measurement on the turbulent characteristics within urban-like canopy using numerous fine wire thermocouples
THERMOCOUPLES, The International Association for Urban Climate (IAUC), 2009.06.
18. Sheikh Ahmad Zaki, Yoskiki Kikuchi, Manato Yamaguchi, Aya Hagishima, Jun Tanimoto, Aerodynamic parameters of urban building arrays with random geometry, The International Association for Urban Climate (IAUC), 2009.06.
19. Yuudai Tanaka, Aya Hagishima, Jun Tanimoto, Ken-ichi Narita, Naoki Ikegaya, Investigation on transfer coefficient for various geometric types of urban-like roughness based on the salinity method, The International Association for Urban Climate (IAUC), 2009.06.
20. Ikeagaya, N., Hagishima, A., Tanimoto, J,, A wind tunnel experiment on scalar transfer coefficients of complex urban array, 5th Japanese-German Meeting on Urban Climatology, Freiburg, Germany, 2008.10.
21. Hagishima, A., Tanimoto, J,, Drag force coefficient and roughness parameters for urban-like roughness with non-uniform heights, 5th Japanese-German Meeting on Urban Climatology, Freiburg, Germany, 2008.10.
22. Aya Hagishima, Jun Tanimoto, Wind tunnel experiment on drag force coefficient of urban-like roughness with height variation, 4th International Conference on Advances in Wind and Structures, 2008.06.
23. Hagishima,A.;Narita.K.;Sugawara.H.;Tanimoto.J, Field measurement on convective heat transfer coefficient of full-scale 2D canopy, International Conference on Urban Climate, 2006.05.
24. Aya Hagishima, Ken-ichi Narita and Jun Tanimoto,, Field experiment on the oasis effect of urban areas using potted plants ,2004.8, 5TH Urban Environment of AMS,, 2004.08.
25. Hagishima. A.; Tanimoto. J.; Katayama. T.,, An Intrigued Analysis to Quantify the Causes for Urban Heat Island by the Revised ARCHITECTURE - URBAN -SOIL - SIMULTANEOUS SIMULATION MODEL, AUSSSM Part.1 Theoretical Background and Model Frame Showing with a Resutt of Standard Solution, AMS Forth symposium on the urbanenvironment, 2002.05.
Membership in Academic Society
  • International Association for Urban Climate
Awards
  • AIJ Prize 2015 "A series of studies on the effects of urban vegetation and buildings on urban climate", The Architectural Institute of Japan (AIJ)
  • Encouragement Prize of AIJ 2003
Educational
Educational Activities
As educational activities, Dr. Hagishima has the chair of lectures of fluid dynamics and heat transfer engineering for undergraduate students at the Department of Energy Science and Engineering, School of Engineering, and lectures of micro-climatology for graduate students at the Department of energy and Environmental Engineering, Interdisciplinary Graduate School of Engineering Sciences (IGSES). In addition, she educates students as their supervisor through research projects for undergraduate thesis, master thesis, and doctor thesis. Furthermore, she has actively accepted international students.