106. Shirzadi, M., Tominaga, Y., 2023. Computational fluid dynamics analysis of pollutant dispersion around a high-rise building: Impact of surrounding buildings, Building and Environment, vol. 245, 110895
https://doi.org/10.1016/j.buildenv.2023.110895
105. Tominaga, Y., Wang, L., Zhai, Z., Stathopoulos, T., 2023. Accuracy of CFD simulations in urban aerodynamics and microclimate: Progress and challenges, Building and Environment, vol. 243, 110723
https://doi.org/10.1016/j.buildenv.2023.110723
104. Tominaga, Y., 2023. CFD prediction for wind power generation by a small vertical axis wind turbine: A case study for a university campus, Energies, vol. 16, 4912
https://doi.org/10.3390/en16134912
103. Tominaga, Y., Shirzadi, M., 2023. Influence of detailed air flow distribution on corrosion damage due to airborne sea salt adhesion in a large sports stadium: A CFD analysis, Journal of Building Engineering, vol. 64, 105690
https://doi.org/10.1016/j.jobe.2022.105690
102. Potsis, T., Tominaga, Y., Stathopoulos, T., 2023. Computational wind engineering: 30 years of research progress in building structures and environment, Journal of Wind Engineering and Industrial Aerodynamics, vol. 234, 105346
https://doi.org/10.1016/j.jweia.2023.105346
101. Nakai, S., Motoyoshi, H., Yamashita, K., Sunako, S., Yamaguchi, S., Ito, Y., Yokoyama, K., Tominaga, Y., Kamiishi, I., Kakudo, Y., 2023. An automatic solid- and liquid-phase hydrometer classification system based on optical disdrometer observations, TENKI, vol.70, no. 1, 5-11 [in Japanese]
https://doi.org/10.24761/tenki.70.1_5
100. Kikitsu, H., Kikumoto, H., Takadate, Y.,Okuda, Y., Okaze, T., Tominaga, Y., 2022. Review of wind resistant design for tiled roofs and publication of new CFD guidebook for urban wind environment: Japan Country Report 2021,
CONSTRUCTION, vol. 2, no. 2, 114-125
https://doi.org/10.15282/construction.v2i2.7421
99. Shirzadi, M., Tominaga, Y., 2022. CFD evaluation of mean and turbulent wind characteristics around a high-rise building affected by its surroundings, Building and Environment, vol. 225, 109637
https://doi.org/10.1016/j.buildenv.2022.109637
98. Tominaga, Y., Shirzadi, M., 2022. RANS CFD modeling of the flow around a thin windbreak fence with various porosities: Validation using wind tunnel measurements, Journal of Wind Engineering and Industrial Aerodynamics, vol. 230, 105176
https://doi.org/10.1016/j.jweia.2022.105176
97. Wakui, M., Igarashi, K., Motoyoshi, H.,Tominaga, Y., Iyama, J., 2022. Estimation method of roof snow load using acceleration measurement: Validation for an obsevational building model, Journal of Structural and Construction Engineering, AIJ.,
vol. 87, no. 796, 524-533 [in Japanese]
https://doi.org/10.3130/aijs.87.524
96. Okaze,T., Tomokiyo, E., Kikumoto, H., Tominaga, Y., Xuan, Y., Mizutani, K., Nakashima, T., Nishijima, K.,
2022, Post-disaster survey for residential environment after typhoon Faxai (2019),
Journal of Technology and Design, AIJ, vol. 28, no. 69, 1083-1088 [in Japanese]
https://doi.org/10.3130/aijt.28.10839
95. Kumar, N., Bardhan, R., Kubota, T., Tominaga, Y., Shirzadi, M., 2022. Parametric study on vertical void configurations for improving ventilation performance in the mid-rise apartment building, Building and Environment, vol. 215, 108969
https://doi.org/10.1016/j.buildenv.2022.108969
94. Tominaga, Y., Okuyama, T., 2022. Investigating threshold wind velocity for movement of sparsely distributed gravels in a wind tunnel: Effect of surface coarseness, Aeolian Research, vol. 54, 100775
https://doi.org/10.1016/j.aeolia.2022.100775
93. Ma, H., Zhou, X., Tominaga, Y., Gu, M., 2022. CFD simulation of flow fields and pollutant dispersion around a cubic building considering the effect of plume buoyancies, Building and Environment, vol. 208, 108640
https://doi.org/10.1016/j.buildenv.2021.108640
92. Motamedi, H., Shirzadi, M., Tominaga, Y., Mirzaei, P. A., 2022. CFD modeling of airborne pathogen transmission of COVID-19 in confined spaces under different ventilation strategies, Sustainable Cities and Society, vol. 76, 103397
https://doi.org/10.1016/j.scs.2021.103397
91. Tominaga, Y., Shirzadi, M., 2021. Wind tunnel measurement dataset of 3D turbulent flow around a group of generic buildings with and without a high-rise building, Data in Brief, vol. 39, 107504
https://doi.org/10.1016/j.dib.2021.107504
90. Tominaga, Y., Shirzadi, M., 2021.Wind tunnel measurement of three-dimensional turbulent flow structures around a building group: Impact of high-rise buildings on pedestrian wind environment, Building and Environment, vol. 206, 108389
https://doi.org/10.1016/j.buildenv.2021.108389
89. Shirzadi, M., Tominaga, Y., 2021. Multi-fidelity shape optimization methodology for pedestrian-level wind environment, Building and Environment, vol. 204, 108076
https://doi.org/10.1016/j.buildenv.2021.108076
88. Okaze, T., Kikumoto, H., Ono, H., Imano, M., Ikegaya, N., Hasama, T., Nakao, K., Kishida, T., Tabata, Y., Nakajima, K., Yoshie, R., Tominaga, Y., 2021. Large-eddy simulation of flow around an isolated building: A step-by-step analysis of influencing factors on turbulent statistics, Building and Environment, vol. 202, 108021
https://doi.org/10.1016/j.buildenv.2021.108021
87. Kumar, N., Kubota T., Tominaga, Y., Shirzadi, M., Bardhan, R., 2021. CFD simulations of wind-induced ventilation in apartment buildings with vertical voids: Effects of pilotis and wind fin on the ventilation performance, Building and Environment, vol. 194, 107666
https://doi.org/10.1016/j.buildenv.2021.107666
86. Tominaga, Y., Motoyoshi, H., 2021. Method to estimate ground snow weight based on meteorological observation data and heat balance model:
Sensitivity analysis and validation of a model based on measurement data for Nagaoka, Journal of Structural and Construction Engineering, AIJ.,
vol. 86, no. 782, 544-552 [in Japanese]
https://doi.org/10.3130/aijs.86.544
85. Shirzadi, M., Mirzaei, P. A., Tominaga, Y., 2021. LES
Analysis of turbulent fluctuation in cross-ventilation flow in highly-dense
urban areas, Journal of Wind Engineering and Industrial Aerodynamics, vol. 209, 104494
https://doi.org/10.1016/j.jweia.2020.104494
84. Tominaga, Y., Igarashi, K., Wakui, M., Motoyoshi, H., Takada, S., 2021. Development of a semi-full-scale building model to obtain validation data for evaluation model of roof snow load, Journal of Technology and Design, AIJ.
, vol. 27, no. 65, 114-118 [in Japanese]
https://doi.org/10.3130/aijt.27.114
83. Tominaga, Y., Shirzadi, M., Inoue, S., Wakui, T., Machida, T., 2020. Computational fluid dynamics simulations of snow accumulation on infrared detection sensors using discrete phase model,
Cold Regions Science and Technology, vol. 180, 103167
https://doi.org/10.1016/j.coldregions.2020.103167
82. Shirzadi, M., Mirzaei, P. A., Tominaga, Y., 2020. RANS model calibration using stochastic optimization for accuracy improvement of urban airflow CFD modeling, Journal of Building Engineering, vol. 32, 101756
https://doi.org/10.1016/j.jobe.2020.101756
81. Shirzadi, M., Mirzaei, P. A., Tominaga, Y., 2020. CFD analysis of cross-ventilation flow in a group of generic buildings: Comparison between steady RANS, LES and wind tunnel experiments,
Building Simulation, vol. 13, 1353-1372
https://doi.org/10.1007/s12273-020-0657-7
80. Tominaga, Y., Stathopoulos, T., 2020. CFD simulations can be adequate for the evaluation of snow effects on structures, Building Simulation, vol. 13, 729-737
https://doi.org/10.1007/s12273-020-0643-0
79. Okaze,T., Kikumoto, H., Ono, H., Imano, M., Ikegaya, N., Hasama, T., Nakao, K., Kishida, T., Tabata, Y., Nakajima, K., Yoshie, R., Tominaga, Y.,
2020, Benchmark test of flow field around a 1:1:2 shaped building model using LES: Influences of various calculation conditions on simulation result,
Journal of Technology and Design, AIJ, vol. 26, no. 62, 179-184 [in Japanese]
https://doi.org/10.3130/aijt.26.179
78. Shirzadi, M., Tominaga, Y., Mirzaei, P. A., 2020.
Experimental study on cross-ventilation of a generic building in highly-dense urban areas: Impact of planar area density and wind direction,
Journal of Wind Engineering and Industrial Aerodynamics, vol. 196, 104030
https://doi.org/10.1016/j.jweia.2019.104030
77. Shirzadi, M., Tominaga, Y., Mirzaei, P. A., 2020.
Experimental and steady-RANS CFD modelling of cross-ventilation in moderately-dense urban areas,
Sustainable Cities and Society, vol. 52, 101849
https://doi.org/10.1016/j.scs.2019.101849
76. Murayama, Y., Igarashi, K., Tominaga, Y., 2019,
Investigation of reproduction of snow distribution on a two-level flat-roof building:
Prediction of unbalanced snow distribution due to wind on roofs using CFD,
Journal of Structural and Construction Engineering, AIJ, vol. 84, no. 762, 1055-1064 [in Japanese]
https://doi.org/10.3130/aijs.84.1055
75. Ikegaya, N., Okaze, T., Kikumoto, H., Imano, M., Ono, H., Tominaga, Y., 2019, Effect of the numerical viscosity on reproduction of mean and turbulent flow fields in the case of a 1:1:2 single block model,
Journal of Wind Engineering and Industrial Aerodynamics, vol. 191, 279-296
https://doi.org/10.1016/j.jweia.2019.06.013
74. Shirzadi, M., Tominaga, Y., Mirzaei, P. A., 2019. Wind tunnel experiments on cross-ventilation flow of a generic sheltered building in urban areas, Building and Environment, vol. 158, 60-72
https://doi.org/10.1016/j.buildenv.2019.04.057
73. Arinami, Y., Akabayashi, S., Tominaga, Y., Sakaguchi, J., 2019.
Performance evaluation of single-sided natural ventilation for generic
building using large-eddy simulations: Effect of guide vanes and
adjacent obstacles, Building and Environmentt, vol. 154, 68-80.
https://doi.org/10.1016/j.buildenv.2019.01.021
72. Tominaga, Y., Okaze, T., Mochida, A., 2018.
Wind tunnel experiment and
CFD analysis of sand erosion/deposition due to wind around an
obstacle, Journal of Wind Engineering and Industrial Aerodynamics, vol. 182, 262-271.
https://doi.org/10.1016/j.jweia.2018.09.008
71. Tominaga, Y., Stathopoulos, T., 2018.
CFD simulations of near-field pollutant dispersion with different plume
buoyancies,
Building and Environment, vol. 131, 128-139. https://doi.org/10.1016/j.buildenv.2018.01.008
Tominaga, Y.,
Stathopoulos, T., 2018.
Corrigendum
to “CFD simulations
of near-field pollutant dispersion with different plume buoyancies”
[Build Environ 131 (2018) 128-139], Building and Environment, vol.
136, 323, https://doi.org/10.1016/j.buildenv.2018.04.021
70. Shirzadi, M., Mirzaei, P. A.,
Naghashzadegan, M., Tominaga, Y., 2018.
Modelling enhancement of cross-ventilation in sheltered buildings using
stochastic optimization,
International Journal of Heat and Mass Transfer, vol. 118, 758-772. https://doi.org/10.1016/j.ijheatmasstransfer.2017.10.107
69. Tominaga, Y., 2017.
Computational fluid dynamics simulation of snowdrift around buildings:
Past achievements and future perspectives,
Cold Regions Science and Technology, vol. 150, 2-14. https://doi.org/10.1016/j.coldregions.2017.05.004
68. Tominaga, Y., Stathopoulos, T., 2017.
Steady and unsteady RANS simulations of pollutant dispersion around
isolated cubical buildings: Effect of large-scale fluctuations on the
concentration field,
Journal of Wind Engineering and Industrial Aerodynamics, vol. 165,
23-33. http://doi.org/10.1016/j.jweia.2017.02.001
67. van Hooff, T., Blocken, B., Tominaga, Y., 2017.
On the accuracy of CFD simulations of cross-ventilation flows for a
generic isolated building: Comparison of RANS, LES and experiments,
Building and Environment, vol. 114, 148-165.
http://dx.doi.org/10.1016/j.buildenv.2016.12.019
66. Tominaga, Y., Stathopoulos, T., 2016. Ten
questions concerning modeling of near-field pollutant dispersion in the
built environment, Building and Environment, vol. 105, 390-402. http://dx.doi.org/10.1016/j.buildenv.2016.06.027
65. Tominaga, Y., Blocken, B., 2016. Wind tunnel
analysis of flow and dispersion in cross-ventilated isolated buildings:
Impact of opening positions, Journal of Wind Engineering and Industrial
Aerodynamics, vol. 155, 74-88. http://dx.doi.org/10.1016/j.jweia.2016.05.007
64. Meroney, R., Ohba, R., Leitl, B., Kondo, H.,
Grawe, D. and Tominaga, Y., 2016. Review : Review of CFD Guidelines for
Dispersion Modeling, Fluids, vol. 1, 14. http://dx.doi.org/10.3390/fluids1020014
63. Arinami, Y., Akabayashi, S., Tominaga, Y.,
Sakaguchi, J., Takano, Y., Honda, M., 2016.
Proposal of an evaluation method for natural cross-ventilation
performance considering flow fluctuaion: Study on Naturally
Cross-Ventilated House using Large-Eddy Simulation(LES) Part 2,
Journal of Environmental Engineering, AIJ, vol.81, no.725,
589-597. [in
Japanese] http://doi.org/10.3130/aije.81.589
62. Tominaga, Y., Okaze, T., Mochida, A., 2016.
Validation of prediction method of roof snow depth for an isolated
gable-roof building: Prediction of unbalanced snow distribution due to
wind on roofs based on CFD, Journal of Structural and Construction
Engineering, AIJ, vol. 81, no.
725, 1051-1059. [in
Japanese] http://doi.org/10.3130/aijs.81.1051
61. Tominaga, Y., Okaze, T., Kikumoto, H.,
Shirasawa, T., Yoshie, R., Mochida, A., 2016.
Influence of various computational conditions in RANS model on the
prediction accuracy of concentration distributions:
Benchmark tests for providing guidelines of CFD prediction on
pollutant/thermal dispersion in urban areas, Journal of Technology
and Design, AIJ, vol. 22, no. 51, 609-614. [in Japanese] http://doi.org/10.3130/aijt.22.609
60. Okaze, T., Takano, Y., Mochida, A., Tominaga,
Y., 2015. Development of a new k–ε model to reproduce the aerodynamic
effects of snow particles on a flow field, Journal of Wind Engineering
and Industrial Aerodynamics, vol.144, 118-124. http://dx.doi.org/10.1016/j.jweia.2015.04.016
59. Takano, Y., Akabayashi, S.,
Tominaga, Y., Sakaguchi, J., Honda, M., Arinami, Y., 2015. 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) Part1,
Journal of Environmental Engineering, AIJ, vol. 80, no.
716, 925-934. [in
Japanese] http://doi.org/10.3130/aije.80.925
58. Tominaga, Y., Blocken, B., 2015. Wind tunnel
experiments on cross-ventilation flow of a generic building with
contaminant dispersion in unsheltered and sheltered conditions,
Building and Environment, vol. 92, 452-461. http://dx.doi.org/10.1016/j.buildenv.2015.05.026
57. Tominaga, Y., 2015. Flow around a high-rise
building using steady and unsteady RANS CFD: Effect of large-scale
fluctuations on the velocity statistics, Journal of Wind Engineering
and Industrial Aerodynamics, vol. 142, 93-103. http://dx.doi.org/10.1016/j.jweia.2015.03.013
56. Tominaga, Y., Sato, Y., Sadohara, S., 2015. CFD
simulations of the effect of evaporative cooling from water bodies in a
micro-scale urban environment: Validation and application studies,
Sustainable Cities and Society, vol. 19, 259-270. http://dx.doi.org/10.1016/j.scs.2015.03.011
55. Arinami, Y., Akabayashi, S., Takano, Y.,
Tominaga, Y., Sakaguchi, J., 2015. Visualization and
Measurements for Fluctuating Cross Ventilation Air Flow in Simple
House Model Using Large Size Boundary Layer Wind Tunnel: Study on PIV
Measurement and Analysis for Room Air Flow Distribution Part2,
Journal of Environmental Engineering, AIJ, vol. 80, no. 708,
127-137. [in
Japanese] http://doi.org/10.3130/aije.80.127
54. Tominaga, Y., Akabayashi, S.,
Kitahara,
T., Arinami, Y.,
2015. Air
flow around isolated gable-roof buildings with different roof pitches:
Wind tunnel experiments and CFD simulations, Building and Environment,
vol. 84, 204-213. http://dx.doi.org/10.1016/j.buildenv.2014.11.012
53. Yoshie, R., Tominaga, Y., Ito, S.,
Okada, H., Kataoka, H., Kikitsu, H., Sasaki, K., Nishimura, H., Noda,
H., Hayashida, K., Miyashita, K., Yamanaka, T.,
Yoshikawa, M., 2014. Recommendation of Gust Factor for Assessment of
Pedestrian Wind Environment Based on Probability of Exceedance of Daily
Maximum Gust Wind Speed, Journal of Wind Enginnering, JAWE,
vol. 39,
no. 2,
29-41. [in
Japanese] https://doi.org/10.5359/jwe.39.29
52. Tominaga, Y., Stathopoulos,
T., 2013. CFD simulation of near-field
pollutant dispersion in the urban environment: A review of current
modeling techniques, Atmospheric Environment, vol. 79, 716-730. http://dx.doi.org/10.1016/j.atmosenv.2013.07.028
51. Tominaga, Y., Iizuka, S., Imano, M.,
Kataoka, H.,
Mochida,
A.,
Nozu, T., Ono, Y., Shirasawa, T., Tsuchiya, N., Yoshie, R., 2013. Cross
Comparisons of CFD Results of Wind and Dispersion Fields for MUST
Experiment: Evaluation Exercises by AIJ, Journal of Asian Architecture
and Building Engineering, vol. 12, no. 1, 117-124. http://dx.doi.org/10.3130/jaabe.12.117
50. Tominaga, Y., Okaze, T., Mochida,
A., Sasaki, Y., Nemoto,
M., Sato,
T., 2013. PIV measurements of saltating snow particle velocity in a
boundary layer developed in a wind tunnel, Journal of Visualization,
vol. 16, issue 2, 95-98. http://dx.doi.org/10.1007%2Fs12650-012-0156-8
49. Okaze, T., Tominaga, Y., Mochida,
A., 2013.
Development of New Snowdrift Mpdel Based on Two
Transport Equations of Drifting Snow Density: Numerical
prediction of
snowdrift around buildings using CFD (Part 2),
Journal of Environmental Engineering, AIJ,
vol.78, no. 684, 149-156. [in
Japanese] http://doi.org/10.3130/aije.78.149
48. Wakashima, S., Miyashita, Y.,
Yamada, N., Takahashi, T., Tominaga, Y., Kakuda, K., Eguchi, S.,
Otsuka, Y., 2012.
Fundamental performance evaluations of prototype light-weight Mg-alloy
micro Straight Wing-VAWT
, Journal of Japan Wind Energy Association, vol. 36, no. 2(Ser. no.
102),
32-39. [in Japanese] http://doi.org/10.11333/jwea.36.2_A_32
47. Tominaga, Y., 2012. Visualization of city
breathability based on
CFD technique: case study for urban blocks in Niigata City, Journal of
Visualization, vol. 15, issue 3, 269-276. http://dx.doi.org/10.1007/s12650-012-0128-z
46. Okaze, T., Mochida, A., Tominaga, Y., Nemoto,
M., Sato, T., Sasaki,
Y., Ichinohe, K., 2012. Wind tunnel investigation of drifting snow
development in a boundary layer, Journal of Wind Engineering and
Industrial Aerodynamics, vol. 104–106, May–, 532–539. http://dx.doi.org/10.1016/j.jweia.2012.04.002
45. Tominaga, Y., Stathopoulos, T., 2012. CFD
Modeling of Pollution
Dispersion in Building Array:Evaluation of turbulent scalar flux
modeling in RANS model using LES results, Journal of Wind Engineering
& Industrial Aerodynamics, vol. 104–106, May–, 484–491. http://dx.doi.org/10.1016/j.jweia.2012.02.004
44. Tominaga, Y., Mochida, A., Okaze, T., Sato, T.,
Nemoto, M.,
Motoyoshi, H., Nakai, S., Tsutsumi, T., Otsuki, M., Uamatsu, T.,
Yoshino, H., 2011. Development of a system for predicting snow
distribution in built-up environments: Combining a mesoscale
meteorological model and a CFD model, Journal of Wind Engineering
& Industrial Aerodynamics, vol. 99, no. 4, 460-468. http://dx.doi.org/10.1016/j.jweia.2010.12.004
43. Tominaga, Y., Stathopoulos, T., 2011. CFD
modeling of pollution
dispersion in a street canyon: Comparison between LES and RANS, Journal
of Wind Engineering & Industrial Aerodynamics, vol. 99, no. 4,
340-348. http://dx.doi.org/10.1016/j.jweia.2010.12.005
42. Mochida, A., Iizuka, S., Tominaga, Y., Lun, I.
Y.-F., 2011.
Up-scaling CWE models to include mesoscale meteorological influences,
Journal of Wind Engineering & Industrial Aerodynamics, vol. 99,
no. 4, 187-198. http://dx.doi.org/10.1016/j.jweia.2011.01.012
41. Tominaga, Y., Okaze, T., Mochida, A., 2011. CFD
modeling of
snowdrift around a building: An overview of models and evaluation of a
new approach, Building and Environment, vol. 46, 899-910. http://dx.doi.org/10.1016/j.buildenv.2010.10.020
40. Ito, Y., Okaze, T., Mochida, A., Tominaga, Y.,
Yoshino, H., Sasaki,
Y., 2010.
Development of Prediction Method for Snow Depth Distribution in Urban
Area based on Coupling of Snowdrift and Snowmelt Models,
Journal of Snow Engineering, vol.
26, no. 4 (Ser. no. 101), 245-254. [in
Japanese] http://ci.nii.ac.jp/naid/10027715933/
39. Tominaga, Y., Mochida, A., Okaze, T., Sato, T.,
Nemoto, M.,
Motoyoshi, H., Nakai, S., Tsutsumi, T., Yoshino, H.,
2010.
Development of System for Predicting Snow Distribution in Built-up
Environment by Coupling Mesoscale Meteorological Model and CFD, Journal
of Snow Engineering, vol. 26, no. 4
(Ser. No. 101), 235-244. [in Japanese] http://ci.nii.ac.jp/naid/10027715902/
38. Tominaga, Y., Stathopoulos, T., 2010. Numerical
simulation of
dispersion around an isolated cubic building: Model evaluation of RANS
and LES, Building and Environment, vol. 45, 2231-2239. [2010 Best Paper
Award from journal Building and Environment] http://dx.doi.org/10.1016/j.buildenv.2010.04.004
37. Aoki, Y., Tominaga, Y., 2010. Development of
Buried Type
Snow-Melting Tank for Removing Snow Piled by Plow Machine in
front of Residential House, Journal of Technology
and Design, AIJ, vol. 16, no. 32,
321-324. [in
Japanese] http://doi.org/10.3130/aijt.16.321
36. Aoki, Y., Tominaga, Y., Murata, T., 2010. CFD
and Heat Balance
Analyses on Relationship between Residential
Building Arrangement and Snow Distribution, Journal of
Environmental Engineering, AIJ, vol. 75, no. 647,
113-119. [in Japanese] http://doi.org/10.3130/aije.75.113
35. Tominaga, Y., Kurosawa, K., 2009. Comparison
between RANS and LES
Computations on Plume Dispersion around an Isolated Cubic Building:
Study on Prediction Accuracy of CFD Applied to Dispersion around
Buildings (part 2), Journal of Environmental Engineering, AIJ, vol. 74,
no. 646, 1307-1313. [in
Japanese] http://doi.org/10.3130/aije.74.1307
34. Tominaga, Y., Okaze, T., Mochida,
A., Shida, T., Yoshino, H., 2009.
Basic Investigation of Modeling for Erosion and Accumulation on Snow
Surface: Numerical Prediction of Snowdrift around Building using CFD,
Journal of Environmental Engineering, AIJ, vol. 74, no. 643,
1083-1089. [in
Japanese] http://doi.org/10.3130/aije.74.1083
33. Tominaga, Y., Stathopoulos, T., 2009. Numerical
simulation of
dispersion around an isolated cubic building: Comparison of various
types of k-ε models, Atmospheric Environment, vol. 43, no. 20,
3200-3210. http://dx.doi.org/10.1016/j.atmosenv.2009.03.038
32. Tominaga, Y., 2008. Influence
of Turbulence Models and Turbulent Schmidt
Number for an Isolated Building: Study on Prediction
Accuracy of CFD Applied to Dispersion around Buildings Part 1, Journal
of Environmental Engineering, AIJ
, vol. 73, no. 630,
991-997. [in
Japanese] http://doi.org/10.3130/aije.73.991
31. Tominaga, Y., Mochida, A., Yoshie, R., Kataoka,
H., Nozu, T.,
Yoshikawa, M., Shirasawa, T., 2008. AIJ guidelines for practical
applications of CFD to pedestrian wind environment around buildings,
Journal of Wind Engineering and Industrial Aerodynamics, vol. 96,
no. 10-11, 1749-1761. http://dx.doi.org/10.1016/j.jweia.2008.02.058
30. Kubota, T., Miura, M., Tominaga, Y., Mochida,
A., 2008. Wind tunnel
tests on the relationship between building density and pedestrian-level
wind velocity : Development of guidelines for realizing acceptable wind
environment in residential neighborhoods, Building and Environment,
vol. 43,
no. 10, 1699-1708. http://dx.doi.org/10.1016/j.buildenv.2007.10.015
29. Tominaga, Y., Mochida, A., Murakami, S.,
Sawaki, S., 2008.
Comparison of various revised k-ε models and LES applied to flow around
a high-rise building model with 1:1:2 shape placed within the surface
boundary layer, Journal of Wind Engineering and Industrial
Aerodynamics, vol. 96, no. 4, 389-411. http://dx.doi.org/10.1016/j.jweia.2008.01.004
28. Tominaga, Y., Stathopoulos, T., 2007. Turbulent
Schmidt numbers for
CFD analysis with various types of flowfield, Atmospheric Environment,
vol. 41, no. 37, 8091-8099. http://dx.doi.org/10.1016/j.atmosenv.2007.06.054
27. Yoshie, R., Mochida, A., Tominaga, Y., Kataoka,
H., Harimoto, K.,
Nozu, T., Shirasawa, T., 2007. Cooperative project for CFD prediction
of pedestrian wind environment in the Architectural Institute of Japan,
Journal of Wind Engineering and Industrial Aerodynamics, vol. 95,
no. 9-11, 1551-1578. http://dx.doi.org/10.1016/j.jweia.2007.02.023
26. Iino, A., Tsukamoto, K., Tominaga, Y., 2006.
Influence of Trains and High-Rise Buildings
on Distribution of Wind Velocity and Air Temperature
on Railway Platforms, Journal of Environmental Engineering, AIJ, no.
608, 89-95. [in
Japanese] http://doi.org/10.3130/aije.71.89_3
25. Tominaga, Y., Mochida, A., Murakami, S.,
Sawaki, S., 2004.
Effect of
Periodic Fluctuation Behind Building
on Reattachment Length : Large Eddy Simulation of Flowfield
around a High-Rise Building (Part 1), Journal of Environmental
Engineering, AIJ,
no. 581, 45-51. [in
Japanese] http://doi.org/10.3130/aije.69.45_3
24. Tominaga, Y., Mochida, A., Harimoto, K.,
Kataoka, H., Yoshie, R.,
2004.
Development of CFD Method for Predicting Wind
Environment around a High-Rise Building : Part 3 : The cross comparison
of results for wind environment around building complex in actual urban
area using different CFD codes(Environmental
Engineering), Journal
of Technology and Design, AIJ,
no. 19, 181-184. [in
Japanese] http://doi.org/10.3130/aijt.10.181
23. Tominaga, Y., Mochida, A.,
Shirasawa, T., Yoshie, R.,
Kataoka, H.,
Harimoto, K., Nozu, T., 2004. Cross Comparisons of CFD Results of Wind
Environment at Pedestrian Level around a high-rise Building and within
a Building Complex,Journal of Asian Architecture and Building
Engineering, vol. 3, no. 1, 63-70. http://doi.org/10.3130/jaabe.3.63
22. Nakajima, H., Tominaga, Y., Akabayashi, S.,
Sakaguchi, J., 2004.
The Validation for the Prediction Accuracy of CFD Technique
for the Flowfield around Buildings : Analysis for the
flowfield around two rectangular buildings model with obique wind
angles, Journal of Environmental Engineering, AIJ, no.
578,
17-24. [in Japanese] http://doi.org/10.3130/aije.69.17_2
21. Shirasawa, T., Tominaga, Y., Yoshie, R.,
Mochida, A., Yoshino, H.,
Kataoka, H., Nozu, T., 2003.
Development of CFD Method for Predicting Wind Environment around a
High-Rise Building : Part2 : The cross comparison of CFD results using
various k-ε models for the flowfield around a building model with 4:4:1
shape(Environmental Engineering), Journal of Technology and Design,
AIJ,
no. 18, 169-174. [in
Japanese]
http://doi.org/10.3130/aijt.9.169_2
20. Akabayashi, S., Sasaki, Y., Sakaguchi, J.,
Tominaga, Y., 2003.
Study on of the Evaluation Method of a Cross Ventilated Building
Performance, Journal of Environmental Engineering, AIJ, no.
568, 49-56. [in Japanese] http://doi.org/10.3130/aije.68.49_2
19. Akabayashi, S., Sakaguchi, J., Hujii, K.,
Tominaga, Y., Nakajima,
H., 2002. Study on the Assessment Methods and Criteria
Relating
to the Wind Environment on Niigata City,
Journal of Architecture and Planning, AIJ
, no. 561, 41-46. [in Japanese] http://doi.org/10.3130/aija.67.41_3
18. Mochida, A., Tominaga, Y., Murakami, S.,
Yoshie, R., Ishida T.,
Ooka, R., 2002. Comparison of various k-εmodel and DSM applied to flow
around a high-rise building - report on AIJ cooperative project for CFD
prediction of wind environment -,Wind & Structures, vol. 5, no.
2-4, 227-244.
17. Tominaga, Y., Mochida, A., Murakami, S.,
Sawaki, S., 2002.
Comparison of Performance of Various Revised k-ε Models Applied to CFD
Analysis of Flowfield around a High-Rise Building,
Journal of Architecture and Planning, AIJ, no. 556,
47-54.
[in Japanese] http://doi.org/10.3130/aija.67.47_2
16. Kubota, T., Miura, M., Tominaga, Y., Mochida,
A., 2002.
Standards of Gross Buildings Coverage Ratio in Major
Cities for the Planning of Residential Area
in Consideration of Wind Flow : Effects of arrangement and structural
patterns of buildings on the nature of regional wind flow Part2,
Journal of Architecture and Planning, AIJ, no. 556,
107-114. [in
Japanese] http://doi.org/10.3130/aija.67.107_4
15. Mochida, A., Tominaga, Y., Yoshino, H, Sasaki,
K., Ohba, M., 2002.
Numerical Study on Thermal Effects of Cold and High-albedo Surfaces
Coverd with Snow in Outdoor Environments, Journal of Asian Architecture
and Building Enginerring, vol. 1, no. 1, 175-182. http://doi.org/10.3130/jaabe.1.175
14. Yoshida, S., Murakami, S., Narita, K.,
Takahashi, T., Ooka, R.,
Mochida, A., Tominaga, Y., 2002. Field Measurement of Outdoor Thermal
Environment with in Courtyard Canyon Space around Apartment Complex in
Summer,
Journal of Architecture and Planning, AIJ, no. 552,
69-76. [in Japanese] http://doi.org/10.3130/aija.67.69_2
13. Tominaga, Y., Mochida, A., Yoshino, H., 2002.
Numerical Analysis of
Wind Environment and Snowdrift around Building Complex based on CFD and
CG Techniques, Journal of Snow Engineering,
vol. 18, no. 1, 3-11. [in Japanese] http://doi.org/10.4106/jsse.18.3
12. Working Group for CFD Prediction of Wind
Environment Around
Building, Air Environment Sub-committee, Environment Engineering
Committee AIJ, 2001.
Development of CFD Method for Predicting Wind Environment
around a High-Rise Building : Part 1 : The cross comparison of CFD
results using various k-ε modelsr, Journal of
Technology and Design, AIJ, no. 12, 119-124. [in
Japanese] http://doi.org/10.3130/aijt.7.119_1
11. Yoshida, S., Ooka, R., Mochida, A., Tominaga,
Y., Murakami, S.,
2000.
Study on Effect of Greening on Outdoor Thermal Environment
using Three Dimensional Plant Canopy Model,
Journal of Architecture and Planning, AIJ, no.536,
87-94. [in Japanese] http://doi.org/10.3130/aija.65.87_4
10. Tominaga, Y., Mochida, A., Aoki, Y., Takahashi,
M., Honma, Y.,
Shimizu, K., 2000.
Development of a Method for Prevention
of Blown Sand by
Spraying the Industrial Waste Clod, Journal
of Technology and Design , AIJ, no. 10,149-152. [in
Japanese] http://doi.org/10.3130/aijt.6.149
9. Kubota, T., Miura, M., Tominaga, Y., Mochida,
A., 2000.
WIND TUNNEL TESTS ON THE NATURE OF REGIONAL WIND FLOW IN THE 270m
SQUARE RESIDENTIAL AREA, USING THE REAL MODEL : Effects of arrangement
and structural patterns of buildings on the nature of
regionalarrangement and structural patterns of buildings on the nature
of regional,
Journal of Architecture and Planning, AIJ, no. 529,
109-116. [in
Japanese] http://doi.org/10.3130/aija.65.109_1
8. Yoshida, S., Murakami, S., Mochida, A., Ooka,
R., Tominaga, Y.,
Kim, S., 2000.
INFLUENCE OF GREEN AREA RATIO ON OUTDOOR THERMAL ENVIRONMENTWITH
COUPLED SIMULATION OF CONVECTION, RADIATION AND MOISTURE TRANSPORT,
Journal of Architecture and
Planning, AIJ, no.529, 77-84 [in Japanese] http://doi.org/10.3130/aija.65.77_2
7. Tominaga, Y., Mochida, A., 1999. CFD prediction
of flowfield and
snowdrift around a building complex in a snowy region,Journal of Wind
Engineering and Industrial Aerodynamics, vol. 81, no. 1-3, 273-282. http://dx.doi.org/10.1016/S0167-6105(99)00023-9
6. Iizuka, S., Murakami, S., Mochida, A.,
Tomianga, Y., Kobayashi,
H., Squires,K.D., 1998. PERFORMANCE OF LAGRANGIAN DYNAMIC
SMAGORINSKY MODEL : Large eddy simulation of turbulent flow past 2D
square cylinder using dynamic SGSmodel (Part 3), Journal of
Architecture and Planning, AIJ,
no. 511, 39-43. [in Japanese] http://doi.org/10.3130/aija.63.39_5
5. Tominaga, Y., Murakami, S., Mochida, A., 1997.
CFD prediction of
gaseous diffusion around a cubic model using a dynamic mixed SGS model
based on composite grid technique, Journal of Wind Engineering and
Industrial Aerodynamics, vol. 67&68, 827-841. http://dx.doi.org/10.1016/S0167-6105(97)00122-0
4. Tominaga, Y., Murakami, S., Mochida, A., 1997.
LES PREDICTION OF
GAS DIFFUSION NEAR BUILDING USING DYNAMIC MIXED SGS MODEL BASED ON
COMPOSITE GRID TECHNIQUE,Journal of Architecture and
Planning, AIJ, no. 496,
53-58. [in Japanese] http://doi.org/10.3130/aija.62.53_3
3. Tominaga, Y., Mochida, A., Murakami, S.,
Iizuka, S., 1997.
PERFORMANCE OF DYNAMIC MIXED SGS MODEL : Large eddy simulation
ofturbulent flow past 2D square cylinder using dynamic SGS model (Part
2), Journal of Architecture and Planning, AIJ,
no.492, 57-62. [in Japanese] http://doi.org/10.3130/aija.62.57_2
2. Mochida, A., Murakami, S., Tominaga, Y.,
Kobayashi, H., 1996.
COMPARISON BETWEEN STANDARD AND DYNAMIC TYPE OF SMAGORINSKY SGS MODEL :
Large eddy simulation of turbulent vortex shedding flow past 2D square
cylinder using Dynamic SGS model (Part 1),Journal of Architecture and
Planning, AIJ,
no. 479, 41-47. [in Japanese] http://doi.org/10.3130/aija.61.41_1
1. Kato, S., Murakami, S., Mochida, A.,
Akabayashi, S., Tominaga, Y.,
1992. Velocity-pressure field of cross ventilation with open windows
analyzed by wind tunnel and numerical simulation, Journal of Wind
Engineering and Industrial Aerodynamics, vol. 44, no. 1-3,
2575-2586. http://dx.doi.org/10.1016/0167-6105(92)90049-G
International Conference Proceedings (Reviewed)
96. Tominaga, Y., CFD simulations of turbulent flow and dispersion in urban and nonurban environments: A perspective review (Keynote lecture), the 16th International Conference on Wind Engineering (ICWE2023), Florence, Italy, August 27-31, 2023.
95. Tominaga, Y., Wind tunnel experiment and CFD simulation of sand surface deformation around a cubic obstacle, the 16th International Conference on Wind Engineering (ICWE2023), Florence, Italy, August 27-31, 2023.
94. Shirzadi, M., Motamedi, H., Tominaga, Y., Mirzaei, P. A.,
High-resolution prediction of tempo-spatial distribution of infection risk of COVID-19 pathogens for different ventilation strategies in confined spaces,
11th International Conference on Indoor Air Quality, Ventilation & Energy Conservation in Buildings (IAQVEC 2023), C000326, Tokyo, Japan, May 20-23, 2023.
93. Tominaga, Y.,
Impact of heated walls on wind flow around buildings: Wind tunnel experiments and CFD simulations,
11th International Conference on Indoor Air Quality, Ventilation & Energy Conservation in Buildings (IAQVEC 2023), C000309, Tokyo, Japan, May 20-23, 2023.
92. Shirzadi, M., Mirzaei, P. A., Tominaga, Y.,
Wind tunnel and LES analyses of turbulent fluctuation in a generic cross-ventilated building: Effect of planar density and wind angle,
11th International Conference on Indoor Air Quality, Ventilation & Energy Conservation in Buildings (IAQVEC 2023), C000279, Tokyo, Japan, May 20-23, 2023.
91. Tominaga, Y., Shirzadi, M.,
CFD analysis of airborne sea salt adhesion related to corrosion damage in a large sports stadium,
5th International Conference on Building Energy and Environment (COBEE 2022), Montreal, Canada, July 25-29, 2022.
90. Kumar, N., Bardhan, R., Kubota, T., Tominaga, Y., Shirzadi, M.,
Parametric study on vertical void configurations for improving natural ventilation in double-loaded apartments,
5th International Conference on Building Energy and Environment (COBEE 2022), Montreal, Canada, July 25-29, 2022.
89. Kumar, N., Kubota, T., Bardhan, R., Tominaga, Y.,
CFD analysis of airflow in voids for better cross ventilation in midrise buildings
in hot and humid climates,
16th IBPSA Internatinal Conference and Exhibition (Building Simulation 2019),
Rome, Italy, September 2-4, 2019.
88. Okaze, T., Kikumoto, H., Ono, H., Ikegaya, N., Nakao, K., Kishida, T., Imano, M., Hasama, T., Tabata, Y., Nakajima, K., Tominaga, Y.,
Framework of AIJ guidelines of pedestrian wind environment for practical applications of large-eddy simulation,
The 15th International Conference on Wind Engineering (ICWE15), A142902,
Beijing, China, September 1-6, 2019.
87. Kikumoto, H., Okaze, T., Ikegaya, N., Tominaga, Y.,
Investigating statistics of peak wind speed around an isolated building model via large-eddy simulation,
The 15th International Conference on Wind Engineering (ICWE15), A142416,
Beijing, China, September 1-6, 2019.
86. Tominaga, Y.,
Wind tunnel measurements of velocity, pressure, and concentration distributions around building blocks: A validation database,
The 15th International Conference on Wind Engineering (ICWE15), A141768,
Beijing, China, September 1-6, 2019.
85. Kumar, N., Wang, Z., Kubota, T., Tominaga, Y., Bardhan, R.,
Wind tunnel experiments on ventilation effect of void spaces for low-cost apartments in the tropics,
The 15th International Conference on Wind Engineering (ICWE15), A102580,
Beijing, China, September 1-6, 2019.
84. van Hooff, T., Blocken, B., Tominaga, Y.,
Analysis and discussion of the performance of RANS and LES for cross
-ventilation flow in a generic enclosure, INDOOR AIR 2018,
Philadelphia, PA, USA , July 22-27, 2018.
83. Tominaga, Y.,
CFD simulations of flow around windbreak fences with various
porosities: A validation study,
The 7th International Symposium on Computational Wind Engineering 2018
(CWE 2018), Soul, Republic of Korea, June 18-22, 2018.
82. Nakao, K., Okaze, T., Kikumoto, H., Tominaga,
Y.,
Prediction performance of large-eddy simulations for the mean pressure
coefficient on an isolated building surface,
The 7th International Symposium on Computational Wind Engineering 2018
(CWE 2018), Soul, Republic of Korea, June 18-22, 2018.
81. Ikegaya, N., Okaze, T., Kikumoto, H., Imano,
M., Ono, H., Tominaga, Y.,
Effect of advection scheme for large-eddy simulation on turbulent flow
fields around an isolated block model,
The 7th International Symposium on Computational Wind Engineering 2018
(CWE 2018), Soul, Republic of Korea, June 18-22, 2018.
80. Ono, H., Kishida, T., Okaze, T., Kikumoto, H.,
Imano, M., Tominaga, Y.,
Grid dependency with various grid systems on large-eddy simulations of
flow around an isolated building model,
The 7th International Symposium on Computational Wind Engineering 2018
(CWE 2018), Soul, Republic of Korea, June 18-22, 2018.
79. Kikumoto, H., Okaze, T., Tominaga, Y.,
Statistical uncertainty in results of large-eddy simulation of flow
around an isolated building model,
The 7th International Symposium on Computational Wind Engineering 2018
(CWE 2018), Soul, Republic of Korea, June 18-22, 2018.
78. Okaze, T., Kikumoto, H., Tominaga, Y.,
Toward AIJ Guidelines of Pedestrian Wind Environment around Buildings
for Practical Applications of Large-Eddy Simulation:
Introduction of Benchmark Cases and Sensitivity of Inflow Turbulence,
The 7th International Symposium on Computational Wind Engineering 2018
(CWE 2018), Soul, Republic of Korea, June 18-22, 2018.
77. Murayama, Y., Igarashi, K., Tominaga, Y.,
Numerical simulation of unbalanced snow load caused by snowdrift on a
two-level flat-roof building, International Workshop on Wind-Related
Disasters and Mitigation (WRDM),
Sendai, Japan, March 11-14, 2018.
76. Tominaga, Y., Okaze, T., Mochida, A., Wind
tunnel experiment and CFD analysis of sand erosion/deposition
due to wind around an obstacle, International Workshop on Wind-Related
Disasters and Mitigation (WRDM),
Sendai, Japan, March 11-14, 2018.
75. Okaze, T., Kikumoto, H., Ono, H., Imano, M.,
Ikegaya, N., Hasama, T., Nakao, K. Kishida, T., Tabata, Y., Yoshie, R.,
Tominaga, Y.,
Large-Eddy Simulation of Flow around Buildings: Validation and
Sensitivity Analysis, 9th Asia-Pacific Conference on Wind Engineering
(APCWE9),
Auckland, New Zealand, December 3-7, 2017.
74. Murayama, Y., Igarashi, K., Tominaga, Y., CFD
Simulation of Unbalanced Snow Accumulation due to Wind on a Two-level
Flat-roof Model, 9th Asia-Pacific Conference on Wind Engineering
(APCWE9), Auckland, New Zealand, December 3-7, 2017.
73. Tominaga, Y., CFD simulation of near-field
pollutant dispersion in the built environment: Current status and
applications, 9th Asia-Pacific
Conference on Wind Engineering (APCWE9), Auckland, New Zealand,
December 3-7, 2017 (keynote lecture).
72. Okaze, T., Kikumoto, H., Ono, H., Imano, M.,
Hasama, T., Kishida, T., Nakao, K., Ikegaya, N., Tabata, Y., Tominaga,
Y., Large-eddy simulations of flow around a high-rise building:
Validation and sensitivity analysis on turbulent statistics, The 7th
European and African Conference on Wind Engineering (EACWE 2017),
210, Liege, Belgium, July 4-7, 2017.
71. Tominaga, Y., Stathopoulos, T., CFD simulations
of near-field pollutant dispersion with different plume buoyancies, The
7th European and African Conference on Wind
Engineering (EACWE 2017), 184, Liege, Belgium, July 4-7, 2017.
70. van Hooff, T., Blocken, B., Tominaga, Y.,
Validation of RANS CFD models for contaminant transport in a
cross-ventilated isolated building, Healthy Buildings 2017 Europe,
Lublin, Poland, July 2-5, 2017.
69. van Hooff, T., Blocken, B., Tominaga, Y.,
Numerical simulation of cross-ventilation flow: RANS model validation,
The 14th International Conference of Indoor Air Quality and Climate,
142, Ghent, Belgium, July
3-8, 2016.
68. Tominaga, Y., Okaze, T., Mochida, A., CFD
simulation of drift snow loads for an isolated gable-roof building, 8th
International Conference on Snow Engineering, 208-214, Nantes, France,
June
14-17, 2016.
67. Okaze, T., Kato, S., Tominaga, Y., Mochida, A.,
CFD prediction of snowdrift in a building array, 8th International
Conference on Snow Engineering, 26-29, Nantes, France, June
14-17, 2016.
66. Tominaga, Y., Numerical simulation of snowdrift
around buildings: past achievements and future perspectives (Keynote
lecture), 8th International Conference on Snow Engineering, 10-19,
Nantes, France,
June
14-17, 2016.
65. van Hooff, T., Blocken, B., Tominaga, Y., RANS
and LES simulations with validation for cross-ventilation flow in a
generic enclosure, 8th International Colloquium on Bluff Body
Aerodynamics and
Applications (BBAA VIII), 122, Boston,Massachusetts, USA, June 7-11,
2016.
64. Tominaga, Y., Stathopoulos, T., CFD simulations
of near-field dispersion around isolated cubical buildings: Evaluation
of URANS, 8th International Colloquium on Bluff Body Aerodynamics and
Applications (BBAA VIII), 117, Boston,Massachusetts, USA, June 7-11,
2016.
63. Tominaga, Y., Blocken, B., Wind Tunnel
Experiments on
Cross-Ventilation Flow of Isolated Building with Contaminant
Dispersion, The 9th International Symposium on Heating, Ventilation,
and Air Conditioning (ISHVAC) and The 3rd International Conference on
Building Energy and Environment (COBEE), W02-972, Tianjin,China,
July 12-15, 2015.
62. Tominaga, Y., CFD simulation of flowfield
around a high-rise
building: model evaluation of URANS, The 6th International Symposium on
Computational Wind Engineering (CWE2014), 456, Hamburg, Germany, June
8-12, 2014.
61. Yoshie, R., Okaze, T., Jiang, G., Tominaga, Y.,
Shirasawa, T.,
Imano, M., Mochida, A., AIJ cooperative project for practical
application of CFD to pollutant/thermal dispersion in urban areas (Part
3) Pollutant/thermal dispersion in simple street canyon models, The 6th
International Symposium on Computational Wind Engineering (CWE2014),
422, Hamburg, Germany, June 8-12, 2014.
60. Yoshie, R., Okaze, T., Tominaga, Y., Shirasawa,
T., Mochida, A.,
AIJ cooperative project for practical application of CFD to
pollutant/thermal dispersion in urban areas (Part 1) Introduction of
benchmark tests, The 6th International Symposium on Computational Wind
Engineering (CWE2014), 420, Hamburg, Germany, June 8-12, 2014.
59. Okaze, T., Takano, Y., Mochida, A., Tominaga,
Y., Development of a
new k-ε model for reproducing aerodynamic effects of snow particles on
flowfield, The 6th International Symposium on Computational Wind
Engineering (CWE2014), 364, Hamburg, Germany, June 8-12, 2014.
58. Tominaga, Y., Yoshie, R., Okaze, T., Shirasawa,
T., Mochida, A.,
AIJ cooperative project for practical application of CFD to
pollutant/thermal dispersion in urban areas (Part 4): flow and
dispersion fields around building complex in actual urban area, The 6th
International Symposium on Computational Wind Engineering (CWE2014),
162, Hamburg, Germany, June 8-12, 2014.
57. Shirasawa, T., Yoshie, R., Tominaga, Y., Okaze,
T., Jiang, G.,
Imano, M.,
Kishida, T., Mochida, A.,AIJ cooperative project for practical
application of CFD to pollutant/thermal dispersion in urban areas (Part
2) Pollutant/thermal
dispersion behind single building case, The 6th International Symposium
on Computational Wind Engineering (CWE2014), 158, Hamburg, Germany,
June 8-12, 2014.
56. Otsuki, M., Mochida, A., Tominaga, Y.,
Tsutsumi, T., Saito, Y.,
Isenko, E., Tomabechi, T., Assessment System of Hazard Caused by Roof
Snow on Detached Houses Based on CFD Prediction, 1st International
Conference on Computational Engineering and Science for Safety and
Environmental Problems (COMPSAFE 2014), 6B-5, Sendai, Japan, April
13-16, 2014.
55. Okaze, T., Tominaga, Y., Mochida, A.,
Prediction of Snow
Distribution in Built-Up Environments: Combining Mesoscale
Meteorological Model and a CFD Model, 1st International Conference on
Computational Engineering and Science for Safety and Environmental
Problems (COMPSAFE 2014), 6B-3, Sendai, Japan, April 13-16, 2014.
54. Nakai, S., Fujita, M., Motoyoshi, H., Ishizaka,
M., Kumakura, T.,
Lee, G., Konishi, H., Hirasawa, N., Honda, M., Yamaguchi, S.,
Katsushima, T., Yokoyama, K., Murakami, S., Tominaga, Y.,
Wind-protected observations of winter precipitation particles for radar
QPE in Niigata region, Davos Atmosphere and Cryosphere Assembly
DACA-13, Davos, Switzerland, July 8-12, 2013.
53. Tominaga, Y., Lin, G.-C., CFD simulations of
pollutant gas
dispersion with different buoyancies around an isolated building,
Seventh International Colloquium on Bluff Body Aerodynamics &
Applications (BBAA7), Shanghai, China, September 2-6, 2012.
52. Mochida, A., Okaze, T., Ito, Y., Sasaki, Y.,
Tominaga, Y., 362:
Prediction of snow depth around buildings based on snowdrift and
snowmelt models, 8th International Conference on Urban Climates
(ICUC8), UCD, Dublin, Ireland, August 6-10, 2012.
51. Nakai, S., Nakagawa, K., Motoyoshi, H.,
Nishikawa, M., Hanado, H.,
Shimizu, S., Kumakura, T., Honda, M., Konishi, H., Ishizaka, M.,
Fujiyoshi, Y., Minda, H., Nakamura, K., Yokoyama, K., Murakami, S.,
Tominaga, Y., SCONE2012 - Multi-facility solid and melting
precipitation observations for GPM, 16th International Conference on
Clouds and Precipitation (ICCP), Leipzig, Germany, July 30-August 3,
2012.
50. Tominaga, Y., Okaze, T., Mochida, A., Nemoto,
M., Sato, T., Sasaki,
Y., PIV measurements of snow particle velocity in a boundary layer
developed in a wind tunnel, The 7th International conference on Snow
Engineering, Fukui, Japan, June 6-8, 2012.
49. Ito, Y., Mochida, A., Okaze, T., Sasaki, Y.,
Tominaga, Y.,
Development of a prediction method for snow-depth distribution in urban
areas based on the coupling of snowdrift and snowmelt models, The 7th
International conference on Snow Engineering, Fukui, Japan, June 6-8,
2012.
48. Okaze, T., Mochida, A., Tominaga, Y., Takano,
Y., Numerical
modeling of snow particles on turbulent flowfield based on canopy
model, The 7th International conference on Snow Engineering, Fukui,
Japan, June 6-8, 2012.
47. Tominaga, Y., Okaze, T., Mochida, A., Nemoto,
M., Sato, T.,
Tsutsumi, T., Sasaki, Y., Seasonal change of snow distribution around a
building: comparison between numerical simulation and filed
measurements, The 7th International conference on Snow Engineering,
Fukui, Japan, June 6-8, 2012.
46. Okaze, T., Mochida, A., Tominaga, Y., Nemoto,
M., Sato, T., Sasaki,
Y., Ichinohe, K., Wind tunnel investigation of drifting snow
development in a boundary layer, 13th International Conference on Wind
Engineering, Amsterdam, the Netherlands, July 10-15, 2011. PDF
45. Tominaga, Y., Iizuka, S., Imano, M., Kataoka,
H., Mochida, A.,
Nozu, T., Ono, Y., Shirasawa, T., Tsuchiya, N., Yoshie, R., Cross
comparisons of CFD results of wind and dispersion fields for MUST
Experiment: Evaluation exercises by AIJ, 13th International Conference
on Wind Engineering, Amsterdam, the Netherlands, July 10-15, 2011. PDF
44. Tominaga, Y., Stathopoulos, T., CFD Modeling of
Pollution
Dispersion in Street Canyons: Evaluation of turbulent scalar flux
modeling in RANS model using LES results, 13th International Conference
on Wind Engineering, Amsterdam, the Netherlands, July 10-15, 2011. PDF
43. Tominaga, Y., Visualization of City
Breathability based on a CFD
Technique: A Case Study for Urban Blocks in Niigata City, 11th Asian
Symposium on Visualization, ASV11, Niigata, Japan, June 5-9, 2011 PDF
42. Tominaga, Y., Mochida, A., Okaze, T., Sato, T.,
Nemoto, M.,
Motoyoshi, H., Nakai, S., Tsutsumi, T., Yoshino, H., Development of
prediction system for snow cover in built-up environment, 7th
International Symposium of Asia Institute of Urban Environment, SENDAI,
JAPAN
“Sustainable Urban Design in Asia City”, SUDAC2010, Sendai, Japan, Nov
20, 2010 PDF
41. Okaze, T., Mochida, A., Tominaga, Y., Ito, Y.,
Yoshino, H., CFD
prediction of snowdrift around a cube using two transport equations for
drifting snow density, The Fifth International Symposium on
Computational Wind Engineering (CWE2010), Chapel Hill, North Carolina,
USA, May 23-27, 2010 PDF
40. Tominaga, Y., CFD modeling of pollution
dispersion and comparison
with measurements in a street canyon, The Fifth International Symposium
on Computational Wind Engineering (CWE2010), Chapel Hill, North
Carolina, USA, May 23-27, 2010 PDF
39. Tominaga, Y., Mochida, A., Okaze, T., Sato, T.,
Nemoto, M.,
Motoyoshi, H., Nakai, S., Uematsu, T., Otsuki, M., Development of
system for predicting snow distribution in built-up environment, The
Fifth International Symposium on Computational Wind Engineering
(CWE2010), Chapel Hill, North Carolina, USA, May 23-27, 2010 PDF
38. Mochida, A., Iizuka, S., Tominaga, Y., Lun, I.
Y.-F., Up-scaling
CWE models to include mesoscale meteorological influences, The Fifth
International Symposium on Computational Wind Engineering (CWE2010),
Chapel Hill, North Carolina, USA, May 23-27, 2010 PDF
37. Tominaga, Y., Okaze, T., Mochida, A., Nemoto,
M., Ito, Y.,
Prediction of Snowdrift Around a Cube Using CFD Model Incorporating
Effect of Snow Particles on Turbulent Flow, The Seventh Asia-Pacific
Conference on Wind Engineering, Taipei, Taiwan, November 8-12, 2009
36. Okaze, T., Tominaga, Y., Mochida, A., Ito,, Y.,
Nemoto, M.,
Yoshino, H., Sato, T., Numerical Modeling of Drifting Snow around
Buildings, 6th International Symposium on Turbulence, Heat and Mass
Transfer, Rome, Italy, September 14-18, 2009
35. Yoshie, R., Mochida, A., Tominaga, Y.,
Shirasawa, T., Tanaka, H.,
AIJ Cooperative project for practical applications of CFD to air
ventilation, pollutant and thermal diffusion in urban areas, The
Seventh International Conference on Urban Climate (ICUC-7), Yokohama,
Japan, June 29-July 3, 2009.
34. Tominaga, Y., Okaze, T., Mochida, A., Yoshino,
H., Ito, Y.,
Applicability of CFD prediction to three-dimensional snowdrift around a
cubic building model, The Seventh International Conference on Urban
Climate (ICUC-7), Yokohama, Japan, June 29-July 3, 2009.
33. Aoki, Y., Tominaga, Y., Murata, T., Numerical
study on relationship
between residential building arrangement and snow distribution, The
Seventh International Conference on Urban Climate (ICUC-7), Yokohama,
Japan, June 29-July 3, 2009.
32. Tominaga, Y., Stathopoulos, T., Numerical
Simulation of Plume
Dispersion around an Isolated Cubic Building : Comparison between RANS
and LES computations, International Colloquium on Bluff Bodies
Aerodynamics & Applications (BBAA VI), Milano, Italy, July,
20-24 2008
31. Kubota, T., Miura, M., Ahmad, S., Tominaga, Y.,
Mochida, A.,
Planning Methods of Residential Neighborhoods for Achieving Acceptable
Wind Environment under Local Climatic Conditions: A Comparison of
Japanese and Malaysian Cases, The 4th International Conference on
Advances in Wind and Structures (AWAS'08), May 29-31, 2008, Jeju
Island, Korea.
30. Tominaga, Y., Okaze, T., Mochida, A., Shida,
T.,
Yoshino,
H., CFD
Prediction of Snowdrift Around a Cubic Building Model, Snow Engineering
VI, June 1-5, 2008, Whistler, Canada
29. Okaze, T., Mochida, A., Tominaga, Y., Nemoto,
M., Ito, Y., Shida,
T., Sato, T., Yoshino, H., Modeling of Drifting Snow Development in a
Boundary Layer and its Effects on Wind Field, Snow Engineering VI, June
1-5, 2008, Whistler, Canada
28. Tominaga, Y., Stathopolos, T., CFD Analysis of
Flow and
Concentration Fields around a Building with a Roof Stack, The 6th
International Conference on Indoor Air Quality, Ventilation &
Energy Conservation in Buildings, Oct 28-31, 2007, Sendai, Japan
27. Tominaga, Y., Stathopolos, T., Numerical
Simulation of Dispersion
around an Isolated Cubic Building - Influence of turbulence models and
turbulent Schmidt number, 12th International Conference on Wind
Engineering (ICWE12) July 1-6, 2007, Cairns, Australia
26. Mochida, A., Tominaga, Y., Yoshino, H., Okaze,
T., Shida, T., CFD
Prediction of Wind Environment and Snowdrift around A Building, The 4th
International Workshop on Energy and Environment of Residential
Buildings (IWEERB2007), Harbin, China, Jan.2007.
25. Yoshida, S., Ooka, R., Mochida, A., Murakami,
S., Tominaga, Y.,
Development of Three Dimensional Plant Canopy Model for Numerical
Simulation of Outdoor Thermal Environment. 6th International Conference
on Urban Climate (ICUC6), Göteborg, Sweden June 12th-16th 2006
24. Shirasawa, T., Mochida, A., Tominaga, Y.,
Yoshino, H., Evaluation
of turbulent time scale of linear revised k-ε models based on LES data.
The Fourth International Symposium on Computational Wind Engineering
(CWE2006), Yokohama, 2006
23. Yoshie, R., Mochida, A., Tominaga, Y., Kataoka,
H., Yoshikawa, M.,
CFD Prediction of Wind Environment around a High-rise Building Located
in an Urban Area. The Fourth International Symposium on Computational
Wind Engineering (CWE2006), Yokohama, 2006
22. Mochida, A., Tominaga, Y., Yoshie, R., AIJ
Guideline for Practical
Applications of CFD to Wind Environment around Buildings. The Fourth
International Symposium on Computational Wind Engineering (CWE2006),
Yokohama, 2006
21. Hataya, N., Mochida, A., Iwata, T., Tabata, Y.,
Yoshino, H.,
Tominaga, Y., Development of the simulation method for thermal
environment and pollutant diffusion in street canyons with subgrid
scale obstacles. The Fourth International Symposium on Computational
Wind Engineering (CWE2006), Yokohama, 2006
20. Tominaga, Y., Murata, T., Aoki, Y., A
comprehensive assessment of
pedestrian wind environment including thermal effects based on
year-long analysis using CFD and meteorological data. The Fourth
International Symposium on Computational Wind Engineering (CWE2006),
Yokohama, 2006
19. Tominaga, Y., Mochida, A., Yoshino, H., Shida,
T., Okaze, T., CFD
Prediction of Snowdrift around a Cubic Building Model. The Fourth
International Symposium on Computational Wind Engineering (CWE2006),
Yokohama, 2006
18. Yoshie, R., Mochida, A., Tominaga, Y., Kataoka,
H., Harimoto, K.,
Nozu, T., Shirasawa, T., Cooperative project for CFD prediction of
pedestrian wind environment in the Architectural Institute of japan.
The Fourth European & African Conference on Wind Engineering,
J. Naprstek & C. Fischer (eds) ; ITEM AS CR, Prague, 11-15
july, 2005
17. Tsukamoto, K., Iino, A., Tominaga, Y.,
Yanagisawa, N., Numerical
analysis of distribution of wind velocity and air temperature on open
type platforms, International Conference on Instrumentation, Control
and Information Technology, WA2-14-3, pp.3137-3142, Okayama, Japan, Aug
2005
16. Tsukamoto, K., Iino, A., Tominaga, Y., CFD
Analysis of Distribution
of Air Distribution of Air temperature on Platforms of a Large Railway
Station in Summer Season, International Symposium on Remote Sensing
(ISRS2005), Jeju, Korea, 2005
15. Yoshie, R., Mochida, A., Tominaga, Y., Kataoka,
H., Yoshikawa, M.,
Cross Comparisons of CFD Prediction for Wind Environment at Pedestrian
Level around Buildings. Part 1 Comparison of Results for Flow-field
around a High-rise Building Located in Surrounding City Blocks. The
Sixth Asia-Pacific Conference on Wind Engineering (APCWE-VI) Seoul,
Korea, September 12-14, 2005
14. Tominaga, Y., Yoshie, R., Mochida, A., Kataoka,
H., Harimoto, K.,
Nozu, T., Cross Comparisons of CFD Prediction for Wind Environment at
Pedestrian Level around Buildings. Comparison of Results for Fiowfield
around Building Complex in Actual Urban Area. The Sixth Asia-Pacific
Conference on Wind Engineering (APCWE-VI) Seoul, Korea, September
12-14, 2005
13. Mochida, A., Shirasawa, T., Yoshino, H.,
Murakami, S.,
Tominaga,
Y., CFD Analysis of Flow around a Cube using Revised k-e Model Based on
Mixed Time Scale Concept, 11th International Conference on Wind
Engineering ,Texas, USA, June 2003
12. Tominaga, Y., Mochida, A., Murakami, S., Large
Eddy Simulation of
Flowfield around a High-rise Building,11th International Conference on
Wind Engineering ,Texas, USA, June 2003
11. Yoshida, S., Muakami, S., Ooka, R., Mochida,
A., Tominaga, Y., CFD
Prediction of Thermal Comfort in Microscale Wind Climate, Computational
Wind Engineering 2000, 27-30, Birmingham, U.K., 2000.9
10. Mochida, A., Tominaga, Y., Murakami, S., Ooka,
R., Ishihara, T.,
Yoshie, R., Comparison of Various k-εModels and DSM Applied to Flow
around a High-rise Building report on AIJ cooperative project for CFD
prediction of wind environment, Computational Wind Engineering 2000,
167-170, Birmingham, U.K., 2000.9
9. Mochida, A., Tominaga, Y., Yoshino, H., Ohba,
M., Sasaki, K.,
Hasegawa, M., Numerical Analysis of Thermal Environment in Snowy Region
Effects of cold and high-albedo surfaces covered with snow, The Third
International Conference on Cold Climate Herting, Ventilating and
Air-Conditioning, Sapporo, Japan, 53-58, 2000.11
8. Tominaga, Y., Mochida, A., Yoshino, H.,
Hasegawa, M., CFD Analysis
of Wind Environment and Snowdrift around Building Complex, The Third
International Conference on Cold Climate Herting, Ventilating and
Air-Conditioning, Sapporo, Japan, 69-74, 2000.11
7. Tominaga, Y., Mochida, A., CFD Prediction of
Flowfield and
Snowdrift
around a Building Complex in a Snowy Region, International Workshop on
"CFD for Wind Climate in Cities", Hayama, Japan, 221-228, 1998.8
6. Tominaga, Y., Mochida, A., Akabayashi, S.,
Murakami, S., Yoshida,
S., Numerical Study on Regional Climate of Rice-Producing Area ; Fourth
Asia-Pasific Symposium on Wind Engineering, 1997.7
5. Murakami, S., Iizuka, S., Mochida, A.,
Tominaga, Y., 1997. LES
Analysis of Turbulent Flow Past a Square Cylinder Using Various SGS
Models, J-P. Chollet et al. (eds.), Direct and Large-Eddy Simulation U
: Proceedings of the Ercoftac Workshop Held in Grenoble, France, 16-19
September 1996, 385-395, Kluwer Academic Publishers.
4. Mochida, A., Tominaga, Y., Murakami, S., 1997.
LES
Prediction of
Gas
Diffusion Near Building using Dynamic Mixed SGS Model based on a
Composite Grid System,J-P. Chollet et al. (eds.), Direct and Large-Eddy
Simulation II : Proceedings of the Ercoftac Workshop Held in Grenoble,
France, 16-19 September 1996, 279-290, Kluwer Academic Publishers.
3. Kato, S., Murakami, S., Mochida,
A., Tominaga, Y.,
Recent Progress
in LES and Its Application to Turbulent Vortex Shedding Flows past 2D
Bluff Body, Third Asian-Pacific Conference on Computational Mechanics,
1943-1948, Seoul, Korea, 1996.9
2. Murakami, S., Mochida, A., Tominaga, Y., Recent
Progress in LES and
Its applications to Vortex shedding Flow Past 2D Square Cylinders, 9th
International Conference on Wind Engineering, 203-204, New Delhi,
India, 1995
1. Murakami, S., Mochida, A., Tominaga, Y., 1994.
Numeircal Simulation
of Turbulent Diffusion in Cities, Wind Climate in Cities : Proceedings
of the NATO Advanced Study Institute, Waldbronn, Germany, July 5-16,
1994, Kluwer Academic Publishers, 681-701.
Domestic Conference Proceedings (Reviewed)
20. Otsuki, M., Isenko, E., Saito, Y.,
Tomianga, Y.,
Tsutsumi, T., Mochida, A., Tomabechi, T., 2014. Prediction of Roof Snow
Distribution on Detached Houses Based on CFD,
Proceedings of the 23rd National Symposium on Wind Engineering,
529-534. [in
Japanese] https://www.jstage.jst.go.jp/article/kazekosymp/23/0/23_529/_article/-char/ja/
19. Okaze, T., Takano, Y., Mochida,
A., Tomianga, Y., 2012.
Development of Submodel Expressing Effect of Snow Particles on
Flowfield for CFD Prediction of Drifting Snow,
Proceedings of the 22nd National Symposium on Wind Engineering,
67-72. [in
Japanese] http://doi.org/10.14887/kazekosymp.22.0.67.0
18. Okaze, T., Mochida, A., Tominaga,
Y., Ito, Y., Yoshino, H.,
2010.
Analysis of Snowdrift Formation Mechanism by Solving Two Transport
Equations of Drifting Snow Densities, Proceedings of the 21st
National Symposium on Wind
Engineering, 101-106. [in Japanese] http://doi.org/10.14887/kazekosymp.21.0.101.0
17. Okaze, T., Mochida, A., Tominaga, Y., Yoshino,
H., Ito, Y.,2008.
New Snowdrift Model Incorporating The Effects of Drifting Snow
Particles on Turbulent Flow, Proceedings of the 20th National
Symposium on Wind Engineering, 73-78. [in Japanese] http://doi.org/10.14887/kazekosymp.20.0.13.0
16. Ito, Y., Okaze, T., Mochida, A., Tomianga, Y.,
Nemoto, M, Yoshino,
H., Sato, T., 2008. Wind Tunnel Measurements of Spatial
Distribution of Mass Flux of Drifting Snow in Developing Snow
Boundary Layer, Proceedings of the 20th National Symposium on
Wind Engineering, 67-72. [in Japanese] http://doi.org/10.14887/kazekosymp.20.0.12.0
15. Takizawa, Y., Mami, K., Tominaga, Y., 2007.
Development and
Validation of Prevention Technique for Blown Sand by Natural
Vegetations, Coastal Engineering Journal (CEJ),
JSCE, vol. 54, 541-545. [in Japanese] http://doi.org/10.2208/proce1989.54.541
14. Tomianga, Y., Shida, T., Mochida, A., Yoshino,
H., Okaze, T., 2006.
Wind tunnel experiment and CFD Analysis for the wind erosion/deposition
around an obstacle standing on the sand, Proceedings of the
19th National Symposium on Wind Engineering, vol. 19, 109-114. [in
Japanese] http://doi.org/10.14887/kazekosymp.19.0.109.0
13. Tomianga, Y., Chino, S., Murata, T., 2006.
Prediction of distribution of salty aerosol concentration from sea
using numerical climate model,Proceedings of the Japan Concrete
Institute,vol. 28,no. 1,1043-1048. [in Japanese]
12. Shirasawa, T.,Mochida, A.,Tominaga, Y.,Yoshino,
H.,Ishida, Y.,2004.
Examination of the revised k-
εmodels based on mixed time scale concept using LES data
,Proceedings of the 18th National Symposium on Wind Engineering,
127-132. [in Japanese] http://doi.org/10.14887/kazekosymp.18.0.000037.0
11. Shirasawa, T.,Mochida, A., Yoshino, H.,
Murakami, S., Tominaga, Y.,
2002.
CFD Analysis of flowfield around building using revised k-ε models
based on mixed time-scale, Proceedings of the 17th National
Symposium on Wind Engineering, 201-206. [in Japanese] http://doi.org/10.14887/kazekosymp.Symp17.0.35.0
10. Sasaki, K., Mochida, A., Yoshino, H., Watanabe,
H., Tominaga, Y.,
2002.
Influence of Summer Cold Northeast Wind on Outdoor Thermal Environment
in Coastal Cities Along the Pacific in Tohoku
Region, Proceedings of the 17th National Symposium on Wind
Engineering,
53-58. [in Japanese]
http://doi.org/10.14887/kazekosymp.Symp17.0.10.0
9. Tominaga, Y., Chino, S., Chino, S., 2001. Wind
Tunnel Test and
Numerical Analysis on Velocity Distribution around Concrete Fence,
Proceedings of the Japan Concrete Institute, vol. 23, no. 1, 85-90. [in
Japanese]
8. Tomianga, Y., Mochida, A., Murakami, S., Ooka,
R., Sawaki, S.,
2000.
CFD Analysis of flowfield around a high-rise building using various
revised k-ε models,Proceedings of the 16th National Symposium on Wind
Engineering, 155-160. [in Japanese]
7. Tominaga, Y., Chino, S., Chino, S., 2000. Study
on Velocity
Distribution around Sound-interrupt Fence Made with Concrete,
Proceedings of the Japan Concrete Institute,
vol. 22, 1285-1290. [in Japanese]
6. Tominaga, Y., Mochida, A.,
Murakami, S., Iizuka, S., 1996.
Large Eddy Simulation of Turbulent Flow past 2D Square Cylinder using
Lagrangian Dynamic SGS Models, Proceedings of the 14th
National Symposium on Wind Engineering, 233-238. [in Japanese]
5. Akabayashi, S., Mochida, A., Murakami, S.,
Tominaga, Y., Yoshida,
S., Kim, S., 1996.
Numerical Analysis of Local Climate in Niigata
Area, Proceedings of the 14th National Symposium on Wind
Engineering,
49-54. [in Japanese]
4. Tominaga, Y., Murakami, S., Mochida, A.,
Kobayashi, H., 1994. Large
Eddy Simulation of Turbulent Flow past 2D Square Cylinder using Dynamic
SGS Model, Proceedings of the 13th National Symposium on Wind
Engineering, 527-530. [in Japanese]
3. Mochida, A., Murakami, S., Omori, T., Tominaga,
Y., 1994.
Prediction of Wind Environment in Urban Area including Thermal Effect
by Solar Radiation : Distribution of SET* in Summer Season predicted
by Numerical Simulations of Convective and Radiative Heat
Transports, Proceedings of the 13th National Symposium on Wind
Engineering, 91-94. [in Japanese]
2. Tominaga, Y., Murakami, S., Mochida, A.,
Shibuya, A., Noguchi, Y.,
1992.
Wind Tunnel Tests on Turbulent Diffusion and Concentration Fluctuation
of Buoyant Gas near Building, Proceedings of the 12nd National
Symposium on Wind Engineering, 119-124. [in Japanese]
1. Murakami, S., Kato, S., Akabayashi, S.,
Mizutani, K., Kim,
Young-Duk, Tominaga, Y., 1990.
Wind Tunnel Test and Air-exchange Prediction Model on Cross Ventilation
with Open Windows, Proceedings of the 10th National Symposium
on Wind Engineering, 155-160. [in Japanese]
Copyright
(c)2015 www.ytomi.net all rights reserved.