Summary
Field-measurements were conducted in an urban street canyon with an east–west orientation, and a height-to-width ratio H/W = 1 during cloudless summer weather in 2003 in Freiburg, Germany. This experimental work adds to the knowledge available on the microclimate of an urban canyon and its impact on human comfort. Air temperature T a , air humidity VP, wind speed v and direction dd were measured continuously. All short-wave and long-wave radiation fluxes from the 3D surroundings were also measured. The degree of comfort was defined in terms of physiologically equivalent temperature (PET). Furthermore, the data gathered within the canyon were compared to data collected by a permanent urban climate station with the aim of furthering the understanding of microclimatic changes due to street geometry.
Changes in the meteorological variables T a , v and dd in the canyon in comparison to an unobstructed roof level location were found to be in good agreement with previous studies, i.e., a small increase of T a in the canyon adjacent to irradiated surfaces, and a good correlation of v and dd between canyon and roof levels. The daily dynamics of canyon facet irradiances and their impacts on the heat gained by a pedestrian were strongly dependent on street geometry and orientation. Thermal stress was mostly attributable to solar exposure. Under cloudless summer weather, a standing body was found to absorb, on average, 74% of heat in the form of long-wave irradiance and 26% as short-wave irradiance. Shading the pedestrian as well as the surrounding surfaces is, hence, the first strategy in mitigating heat stress in summer under hot conditions.
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References
Ali-Toudert F (2005) Dependence of outdoor thermal comfort on street design in hot and dry climate. Rep Meteor Inst Univ Freiburg No. 15, http://www.freidok.uni-freiburg.de/volltexte/2078
F Ali-Toudert H Mayer (2006) ArticleTitleNumerical study on the effects of aspect ratio and solar orientation on outdoor thermal comfort in hot and dry climate Building and Environment 41 94–108 Occurrence Handle10.1016/j.buildenv.2005.01.013
F Ali-Toudert M Djenane R Bensalem H Mayer (2005) ArticleTitleOutdoor thermal comfort in the old desert city of Beni-Isguen, Algeria Climate Research 28 243–256
J Arnfield (1990) ArticleTitleStreet design and urban canyon solar access Energy and Buildings 14 117–131 Occurrence Handle10.1016/0378-7788(90)90031-D
J Arnfield (2003) ArticleTitleTwo decades of urban climate research: a review of turbulence, exchanges of energy and water, and the urban heat island Int J Climatol 23 1–26 Occurrence Handle10.1002/joc.859
J Arnfield G Mills (1994) ArticleTitleAn analysis of the circulation characteristics and energy budget of a dry, asymmetric, east–west urban canyon. II. Energy budget Int J Climatol 14 239–261
T Asaeda VT Ca (1993) ArticleTitleThe subsurface transport of heat and moisture and its effects on the environment: a numerical model Bound-Layer Meteor 65 159–179 Occurrence Handle10.1007/BF00708822
T Asaeda VT Ca A Wake (1996) ArticleTitleHeat storage of pavement and its effect on the lower atmosphere Atmos Environ 30 413–427 Occurrence Handle10.1016/1352-2310(94)00140-5
Asawa T, Hoyano A, Nakaohkubo K (2004) Thermal design tool for outdoor space based on numerical simulation system using 3D-CAD. Proc. 21th Conf. on PLEA, Eindhoven. Netherlands: 1013–1018
ASHRAE (2001) Chapter 13 – Measurements and instruments. In: Handbook of Fundamentals. American Society for heating Refrigerating and Air Conditioning. Atlanta: 13.26–13.27
S Bohnenstengel KH Schlünzen D Graw (2004) ArticleTitleInfluence of thermal effects on street canyon circulations Meteorologische Zeitschrift 13 381–386 Occurrence Handle10.1127/0941-2948/2004/0013-0381
Bruse M (2005) ENVI-met website. http://www.envi-met.com
Ca VT, Aseada T, Ashie Y (1998) Utilization of porous pavement for the improvement of summer urban climate. Proc. 2nd Japanese-German meeting. Klimaanalyse für die Stadtplanung. Rep Research Centre for Urban Safety and Security. Kobe University, Sp. Rep. No. 1: 196–177
JF Coronel S Alvarez (2001) ArticleTitleExperimental work and analysis of confined urban spaces Solar Energy 70 263–273 Occurrence Handle10.1016/S0038-092X(00)00096-7
Eliasson I (1993) Urban climate related to street geometry. PhD thesis. University of Gothenburg. Dept Phy Geogr GUNI rapport 33
Ernst S (1995) Tagesperiodische Windsysteme und Belüftungsverhältnisse in Freiburg i. Br.-Planungsrelevante Aspekte eines Bergwindsystems. Freiburger Geographische Hefte 49 (in German)
A Fink T Brücher A Krüger GC Leckebusch JG Pinto U Ulbrich (2004) ArticleTitleThe 2003 European summer heatwaves and drought – synoptic diagnosis and impacts Weather 59 209–216 Occurrence Handle10.1256/wea.73.04
Grundström K, Johansson E, Mraisi M, Ouahrani D (2003) Climat et urbanisme – la relation entre confort thermique et la forme du cadre bâti. Report 8. Housing Development and Management. Lund University. Sweden
P Höppe (1992) ArticleTitleEin neues Verfahren zur Bestimmung der mittleren Strahlungstemperatur im Freien Wetter und Leben 44 147–151
P Höppe (1993) ArticleTitleHeat balance modelling Experientia 49 741–746 Occurrence Handle10.1007/BF01923542
P Höppe (1999) ArticleTitleThe physiological equivalent temperature – a universal index for the biometeorological assessment of the thermal environment Int J Biometeorol 43 71–75 Occurrence Handle10.1007/s004840050118
Hussain M, Lee BE (1980) An investigation of wind forces on the 3D roughness elements in a simulated atmospheric boundary layer flow. Part II – Flow over large arrays of identical roughness elements and the effect frontal and side aspect ratio variations. Department of Building Science. Univ. of Sheffield, UK
Jendritzky G, Menz G, Schirmer H, Schmidt-Kessen W (1990) Methodik zur räumlichen Bewertung der thermischen Komponente im Bioklima des Menschen. Fortgeschriebenes Klima-Michel-Modell. Beiträge der Akademie für Raumforschung und Landesplanung. Hannover, Vol. 114
J-J Kim J-J Baik (1999) ArticleTitleA numerical study of thermal effects on flow and pollutant dispersion in urban street canyons J Appl Meteorol 38 1249–1261 Occurrence Handle10.1175/1520-0450(1999)038<1249:ANSOTE>2.0.CO;2
H Mayer (1993) ArticleTitleUrban bioclimatology Experientia 49 957–963 Occurrence Handle10.1007/BF02125642
H Mayer P Höppe (1987) ArticleTitleThermal comfort of man in different urban environments Theor Appl Climatol 38 43–49 Occurrence Handle10.1007/BF00866252
MIF (2005) Website of the Meteorological Institute Freiburg, urban climate station, http://www.mif.uni-freiburg.de/station
K Nagara Y Shimoda M Mizuno (1996) ArticleTitleEvaluation of the thermal environment in an outdoor pedestrian space Atmos Environ 30 497–505 Occurrence Handle10.1016/1352-2310(94)00354-8
Y Nakamura T Oke (1988) ArticleTitleWind, temperature and stability conditions in an east–west oriented urban canyon Atmos Environ 22 2691–2700 Occurrence Handle10.1016/0004-6981(88)90437-4
Nikolopoulou M, Lykoudis S (2005) Thermal comfort in outdoor urban spaces: analysis across different European countries. Building and Environment (in press)
Nübler W (1979) Konfiguration und Genese der Wärmeinsel der Stadt Freiburg. Freiburger Geographische Hefte. Heft 16 (in German)
M Nunez TR Oke (1977) ArticleTitleThe energy balance of an urban canyon J Appl Meteor 16 11–19 Occurrence Handle10.1175/1520-0450(1977)016<0011:TEBOAU>2.0.CO;2
T Oke (1981) ArticleTitleCanyon geometry and the nocturnal urban heat island: comparison of scale model and field observation J Climatol 1 237–254
T Oke (1988) ArticleTitleStreet design and urban canopy layer climate Energy and Buildings 11 103–113 Occurrence Handle10.1016/0378-7788(88)90026-6
FT de Paul CM Shieh (1986) ArticleTitleMeasurements of wind velocity in a street canyon Atmos Environ 20 455–459 Occurrence Handle10.1016/0004-6981(86)90085-5
D Pearlmutter A Bitan P Berliner (1999) ArticleTitleMicroclimatic analysis of “compact” urban canyons in an arid zone Atmos Environ 33 4143–4150 Occurrence Handle10.1016/S1352-2310(99)00156-9
Pickup J, de Dear R (1999) An outdoor thermal comfort index (OUT-SET*) -Part 1 – The model and its assumptions. Proc. 15th Int. Congr. Biometeorol. & Int. Conf. Urban Climatol, Sydney, Australia: 279–283
M Santamouris N Papanikolaou I Koronakis I Livada D Asimakopoulos (1999) ArticleTitleThermal and air flow characteristics in a deep pedestrian canyon under hot weather conditions Atmos Environ 33 4503–4521 Occurrence Handle10.1016/S1352-2310(99)00187-9
L Shashua-Bar ME Hoffman (2000) ArticleTitleVegetation as a climatic component in the design of an urban street Energy and Buildings 31 221–235 Occurrence Handle10.1016/S0378-7788(99)00018-3
J-F Sini S Anquetin P-G Mestayer (1996) ArticleTitlePollutant dispersion and thermal effects in urban street canyon Atmos Environ 30 2659–2677 Occurrence Handle10.1016/1352-2310(95)00321-5
J Spagnolo R de Dear (2003a) ArticleTitleA field study of thermal comfort in outdoor and semi-outdoor environments in subtropical Sydney Australia Building and Envir 38 721–738 Occurrence Handle10.1016/S0360-1323(02)00209-3
J Spagnolo R de Dear (2003b) ArticleTitleA human thermal climatology of subtropical Sydney Int J Climatol 23 1383–1395 Occurrence Handle10.1002/joc.939
H Staiger K Bucher G Jendritzky (1997) ArticleTitlePerceived temperature. The thermophysiologically right assessment of heat and cold stress staying outdoors in the unit degree celsius Ann Meteorol 18 100–107
T Stathopoulos H Wu J Zacharias (2004) ArticleTitleOutdoor thermal comfort in an urban climate Building and Environment 39 297–305 Occurrence Handle10.1016/j.buildenv.2003.09.001
MK Svensson S Thorsson S Lindqvist (2003) ArticleTitleA geographical information system model for creating bioclimatic maps – examples from a high, mid-latitude city Int J Biometeorol 47 102–112
H Swaid M Bar-El ME Hoffman (1993) ArticleTitleA bioclimatic design methodology for urban outdoor spaces Theor Appl Climatol 48 49–61 Occurrence Handle10.1007/BF00864913
PE Todhunter (1990) ArticleTitleMicroclimatic variations attributable to urban canyon asymmetry and orientation Phys Geogr 11 131–141
K Uehara S Murakami S Oikawa S Wakamatsu (2000) ArticleTitleWind tunnel experiments on how thermal stratification affects flow in and above urban street canyons Atmos Environ 34 1553–1562 Occurrence Handle10.1016/S1352-2310(99)00410-0
ID Watson GT Johnsson (1988) ArticleTitleEstimating person view-factors from fish eye lens photographs Int J Biometeorol 32 123–128 Occurrence Handle10.1007/BF01044905
JB Wedding DJ Lombardi JE Cermak (1977) ArticleTitleA wind tunnel study of gaseous pollutants in city street canyons J Air Pollut Contr Ass 27 557–566
A Yoshida K Tominaga S Watani (1990/91) ArticleTitleField measurements on energy balance of an urban canyon in the summer season Energy and Buildings 15/16 417–423 Occurrence Handle10.1016/0378-7788(90)90016-C
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Ali-Toudert, F., Mayer, H. Thermal comfort in an east–west oriented street canyon in Freiburg (Germany) under hot summer conditions. Theor. Appl. Climatol. 87, 223–237 (2007). https://doi.org/10.1007/s00704-005-0194-4
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DOI: https://doi.org/10.1007/s00704-005-0194-4