Kyushu University Academic Staff Educational and Research Activities Database
Researcher information (To researchers) Need Help? How to update
Aya Hagishima Last modified date:2024.03.16



Graduate School
Undergraduate School
Other Organization
Other
Administration Post
Vice President


E-Mail *Since the e-mail address is not displayed in Internet Explorer, please use another web browser:Google Chrome, safari.
Homepage
https://kyushu-u.elsevierpure.com/en/persons/aya-hagishima
 Reseacher Profiling Tool Kyushu University Pure
https://researchmap.jp/Aya_Hagishima?lang=en
Researchmap .
https://scholar.google.co.jp/citations?user=BpY71S4AAAAJ&hl=ja
Google Scholar .
https://www.researchgate.net/profile/Aya-Hagishima-2
Researchgate .
https://igses.kyushu-u.ac.jp/tanimoto/en/
Website on lab .
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
ORCID(Open Researcher and Contributor ID)
0000-0002-8342-6570
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.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
2.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
3.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,
    2014.04~2024.03.
  • 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
    2014.04~2020.03.
  • Statistical analysis of time patterns of household energy demand
    keyword : demand forecast, energy saving, occupants behaviour
    2015.03~2020.03.
  • 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
    2009.04~2020.03.
Current and Past Project
  • Study seeking for cool fashion in tropical regions with Islamic culture
    The purpose of this study is to establish Cool-fashion, which enables the reduction of excessive use of air conditioning in offices, with the aim of promoting energy-saving and low-carbon lifestyles in the tropics of Asia. In tropical countries such as Malaysia and Indonesia, where Muslims constitute a large fraction of the population, and clothing worn by female outside tends to have high clo value, resulting in low cooling set point in offices. With this background, this project will conduct experiments on subjects and a sweating thermal manikin to clarify the effect of various cool fibers developed in Japan for summer as undergarments and hijabs to alleviate the heat sensation.
  • Field research seeking for affordable measures to improve living quality and to reduce the heat risk of residents in urban Kampong, Indonesia
    (Oct, 2019 - present)
    Indonesia, which is the target of this study, continues to grow steadily, while the poor population reaches 25.95 million. Especially in urban areas, informal settlement called Kampong spreads. For low-income households in these areas, air conditioners are expensive and cannot be purchased, and the only shelter is the building to relieve the harsh heat risk. WIth this background, this study conducts a series of large-scale field surveys on the indoor thermal environment of many low-cost houses in Kampung and the health condition of the residents in order to seek for affordable measures to mitigate heat risk based on the interdisciplinary approach.
  • Study seeking for affordable measures to improveme thermal environment and to reduce pollutant emissions of urban gers located in Ulaanbaatar

    Ulaanbaatar, the capital of Mongolia, where the outside temperature drops below -40 ° C in winter, is currently suffering from the worst air pollution in the world. One of primary reasons of this problem is the pollutant emission from the coal stoves used in the ger districts, which are unplanned residential districts with limited urban infrastracutures. With this background, this project aims to improve the indoor thermal environment of urban gers and reduce air pollutant emissions. The activities of this project include a field survey and afeild measurement of living environment of gers. In addition, we have worked to developed affordable methodologies to improve the current gers' design to provide better energy efficiency, which are enable to encourage the replacement of coal stoves with electric heating devices. The evaluation of the impact of this improvement on the environment, energy / power consumption and indoor air quality will be also conducted.
Academic Activities
Reports
1. Chiyoko Hirose, Aya Hagishima, Naoki Ikegaya, Azli Abd Razak, Large-eddy simulation for turbulent nature of flow and pressure fields over urban building arrays, Proceedings of the 2nd Asia Conference of International Building Performance Simulation Association, pp.778-785, 2014.11.
2. Naoki Ikegaya, Aya Hagishima, Jun Tanimoto, Investigation on flow distribution based on the quadrant analysis over urban-like roughness, Proceedings of the 6th international symposium on computational wind engineering CWE2014, 2014.06.
3. Yasuaki Ikeda, Naoki Ikegaya, Aya Hagishima, Jun Tanimoto, Azli Abd Razak, Characteristics of spatio-temporal fluctuation of urban pedestrian wind derived from Large-Eddy Simulation, Proceedings of the 6th international symposium on computational wind engineering CWE2014, 2014.06.
Papers
1. Solli Murtyas, Yuki Minami, Kusumaningdyah Nurul Handayani, Aya Hagishima, Assessment of Mould Risk in Low-Cost Residential Buildings in Urban Slum Districts of Surakarta City, Indonesia, Buildings, 10.3390/buildings13051333, 2023.05.
2. Betty Lala, Amogh Biju, Vanshita, Anmol Rastogi, Kunal Dahiya, Srikant Manas Kala, Aya Hagishima, The Challenge of Multiple Thermal Comfort Prediction Models: Is TSV Enough?, Buildings, 10.3390/buildings13040890, 13, 4, 890-890, 2023.03.
3. Tetsushi Ono, Aya Hagishima, Jun Tanimoto, Non-Intrusive Detection of Occupants’ On/Off Behaviours of Residential Air Conditioning, Sustainability (Switzerland), 10.3390/su142214863, 14, 22, 2022.11.
4. Ayas Shaqour, Aya Hagishima, Systematic Review on Deep Reinforcement Learning-Based Energy Management for Different Building Types, Energies, 10.3390/en15228663, 15, 22, 2022.11.
5. C. HIROSE, N. IKEGAYA, A. HAGISHIMA, J. TANIMOTO, Computational Fluid Dynamics for Cross-Ventilated Airflow in an Urban Building, Japan Architectural Review, 10.1002/2475-8876.12312, 00, 1-9, 2022.11, In this study, the velocity field in a naturally ventilated building within an urban-like array was explored using large-eddy simulations. Reduced-scale building models were used to examine the impacts of the geometric conditions in the surrounding buildings and cross-ventilating windows on the flow statistics and instantaneous velocity fields in the sheltered building. The instantaneous velocity components averaged in the opening area were calculated for each condition of the building arrays and openings. The results indicate that the surrounding urban geometry significantly affects the turbulent opening velocities. Additionally, the three-dimensional instantaneous velocity distributions within the target building clearly demonstrate considerable differences under the different building and opening conditions. Such differences also affect the mean, maximum, and minimum wind speeds within the indoor regions. Moreover, the distributions of the two-point correlation coefficient (defined by the velocities normal to the windows at the center of the windward opening and inside the building) were compared for each condition. The strong correlations near the two openings indicate that the instantaneous velocity generated by the surrounding buildings is an important factor in determining the statistical and instantaneous features of indoor ventilating airflows..
6. Betty Lala, Aya Hagishima, A Review of Thermal Comfort in Primary Schools and Future Challenges in Machine Learning Based Prediction for Children, Buildings, 10.3390/buildings12112007, 2022.11.
7. Uelun Ujin Purev, Aya Hagishima, DEVELOPMENT OF AN AFFORDABLE METHOD FOR IMPROVING THERMAL INSULATION PERFORMANCE OF MONGOLIAN TRADITIONAL MOBILE HOUSING, AIJ Journal of Technology and Design, 10.3130/aijt.28.1290, 28, 70, 1290-1295, 2022.10.
8. Ryosuke Fukami, Aya Hagishima, Jun Tanimoto, Naoki Ikegaya, Stochastic nature of occupants' behavior toward air-conditioning operation in residential buildings, Japan Architectural Review, 10.1002/2475-8876.12293, 5, 4, 649-660, 2022.10.
9. Betty Lala, Solli Murtyas, Aya Hagishima, Indoor Thermal Comfort and Adaptive Thermal Behaviors of Students in Primary Schools Located in the Humid Subtropical Climate of India, Sustainability, 10.3390/su14127072, 14, 12, 7072-7072, 2022.06.
10. Uelun Ujin Purev, Aya Hagishima, Munkhbayar Buyan, Indoor thermal environment of Mongolian traditional mobile housing used as urban habitat in winter, Journal of Building Engineering, 10.1016/j.jobe.2021.103927, 48, 2022.05, [URL].
11. Jiajun Lyu, Tetsushi Ono, Ataru Sato, Aya Hagishima, Jun Tanimoto, Seasonal variation of residential cooling use behaviour derived from energy demand data and stochastic building energy simulation, Journal of Building Engineering, 10.1016/j.jobe.2022.104067, 49, 2022.05.
12. Nishat Tasnim Toosty, Aya Hagishima, Wasimul Bari, Sheikh Ahmad Zaki, Behavioural changes in air-conditioner use owing to the COVID-19 movement control order in Malaysia, Sustainable Production and Consumption, 10.1016/j.spc.2022.01.001, 30, 608-622, 2022.03.
13. Solli Murtyas, Nishat T. Toosty, Aya Hagishima, N. H. Kusumaningdyah, Relation between occupants’ health problems, demographic and indoor environment subjective evaluations: A cross-sectional questionnaire survey study in Java Island, Indonesia, PLOS ONE, 10.1371/journal.pone.0254460, 16, 7, e0254460-e0254460, 2021.07.
14. Ng Wai Tuck, Sheikh Ahmad Zaki, Aya Hagishima, Hom Bahadur Rijal, Fitri Yakub, Affordable retrofitting methods to achieve thermal comfort for a terrace house in Malaysia with a hot–humid climate, Energy and Buildings, 10.1016/j.enbuild.2020.110072, 223, 2020.09.
15. K. M.Ariful Kabir, Aya Hagishima, Jun Tanimoto, Hypothetical assessment of efficiency, willingness-to-accept and willingness-to-pay for dengue vaccine and treatment
a contingent valuation survey in Bangladesh, Human Vaccines and Immunotherapeutics, 10.1080/21645515.2020.1796424, 2020.08.
16. Ajaya Ketan Nayak, Aya Hagishima, Modification of building energy simulation tool TRNSYS for modelling nonlinear heat and moisture transfer phenomena by TRNSYS/MATLAB integration, 12th Nordic Symposium on Building Physics, NSB 2020 E3S Web of Conferences, 10.1051/e3sconf/202017225009, 172, 2020.06.
17. Uelun Ujin Purev, Aya Hagishima, A field survey of traditional nomadic dwelling gers used as urban habitats in Ulaanbaatar, Mongolia, Evergreen, 7, 2, 155-171, 2020.06.
18. Ajaya ketan Nayak, Aya Hagishima, Jun Tanimoto, A simplified numerical model for evaporative cooling by water spray over roof surfaces, Applied Thermal Engineering, 10.1016/j.applthermaleng.2019.114514, 165, 2020.01.
19. Ng Wai Tuck, Sheikh Ahmad Zaki, Aya Hagishima, Hom Bahadur Rijal, Mohd Azuan Zakaria, Fitri Yakub, Effectiveness of free running passive cooling strategies for indoor thermal environments: Example from a two-storey corner terrace house in Malaysia, Building and Environment, 10.1016/j.buildenv.2019.106214, 160, 2019.08.
20. C. Hirose, N. Ikegaya, A. Hagishima, J. Tanimoto, Outdoor measurement of wall pressure on cubical scale model affected by atmospheric turbulent flow, Building and Environment, 10.1016/j.buildenv.2019.106170, 160, 2019.08.
21. Tetsushi Ono, Aya Hagishima, Jun Tanimoto, Sheikh Ahmad Zaki, Naja Aqilah Hisham, Statistical analysis of air conditioning peak loads of multiple dwellings, E3S Web of Conferences, 10.1051/e3sconf/201911104057, 111, 2019.08.
22. Statistical Analysis of Time-Series Data of Electricity Consumption of Air Conditioners Observed in Multiple Dwellings, [URL].
23. 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].
24. 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.
25. 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].
26. , [URL].
27. 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].
28. 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].
29. 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.
30. , [URL].
31. 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.
32. 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.
33. , [URL].
34. 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].
35. 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.
36. 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.
37. 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.
38. 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.
Works, Software and Database
1. .
2. .
Presentations
1. Aya Hagishima, Seigi Mizuno, Wang Dong, Promotion of International Collaborative Education Based on Double Degree Program: Lessons Learned from CAMPUS ASIA Program, Qs Apple 2019, 2019.11.
2. Hiroshi Eshima, Takuya Yasumasu, Naoki Ikegaya, Aya Hagishima, Jun Tanimoto, Development of estimation method for convective heat transfer coefficient distribution using near-infrared spectroscopy, The 11th International Meeting on Advances in ThermoFluids (IMAT2019), 2019.11.
3. Yusuke Adachi, Hanami Satonaka, Naoki Ikegaya, Aya Hagishima, Jun Tanimoto, Unsteady numerical simulation of indoor air of a building within an urban-like boundary layer, The 11th International Meeting on Advances in ThermoFluids (IMAT2019), 2019.11.
4. Solli Murtyas, Aya Hagishima, Kusumaningdyah N.H, Observed Diverse Indoor Thermal Environment of Low Cost Dwellings Located in a Kampung District, The 11th International Meeting on Advances in ThermoFluids (IMAT2019), 2019.11.
5. Jiajun Lyu, Aya Hagishima, Jun Tanimoto, Tetsushi Ono, Ataru Sato, Analysis of seasonal variation and household variation of air-conditioning usage in a residential region in Osaka, The 11th International Meeting on Advances in ThermoFluids (IMAT2019), 2019.11.
6. Aya Hagishima, Sheikh Ahmad Zaki Bin Shaikh Salim, Challenges seeking for affordable cooling strategies of built environment in tropical regions, The 16th International Conference on QiR (Quality in Research) 2019, 2019.07.
7. Tetsushi Ono, Aya Hagishima Jun Tanimoto, Statistical analysis of air conditioning peak loads of multiple dwellings, CLIMA 2019, REHVA 13th HVRC World Congress, 2019.05.
8. 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.
9. 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.
10. 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.
11. 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.
12. 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.
13. 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.
14. 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.
15. 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.
16. 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.
17. 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.
18. 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.
19. 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.
20. 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.
21. 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.
22. 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.
23. 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.
24. 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.
25. 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.
26. 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.
27. 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.
28. 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.
29. 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.
30. 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.
31. 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.
32. 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.
Other Educational Activities
  • 2022.10.