Ver registro no DEDALUS
Exportar registro bibliográfico



Formulation of a tropical town energy budget (t-TEB) scheme (2010)

  • Authors:
  • USP affiliated authors: PEREIRA FILHO, AUGUSTO JOSE - IAG
  • USP Schools: IAG
  • DOI: 10.1007/s00704-009-0206-x
  • Language: Inglês
  • Imprenta:
    • Publisher place: Wien
    • Date published: 2010
  • Source:
  • Acesso online ao documento

    DOI or search this record in
    Informações sobre o DOI: 10.1007/s00704-009-0206-x (Fonte: oaDOI API)
    • Este periódico é de assinatura
    • Este artigo NÃO é de acesso aberto
    • Cor do Acesso Aberto: closed
    Informações sobre o Citescore
  • Título: Theorectical and Applied Climatology

    ISSN: 0177-798X

    Citescore - 2017: 2.07

    SJR - 2017: 0.867

    SNIP - 2017: 0.999

  • How to cite
    A citação é gerada automaticamente e pode não estar totalmente de acordo com as normas

    • ABNT

      KARAM, Hugo Abi; PEREIRA FILHO, Augusto José; MASSON, Valery; NOILHAN, Joël; MARQUES FILHO, Edson Pereira. Formulation of a tropical town energy budget (t-TEB) scheme. Theoretical and Applied Climatology, Wien, v. 101, n. 1/2, p. 109-120, 2010. DOI: 10.1007/s00704-009-0206-x.
    • APA

      Karam, H. A., Pereira Filho, A. J., Masson, V., Noilhan, J., & Marques Filho, E. P. (2010). Formulation of a tropical town energy budget (t-TEB) scheme. Theoretical and Applied Climatology, 101( 1/2), 109-120. doi:10.1007/s00704-009-0206-x
    • NLM

      Karam HA, Pereira Filho AJ, Masson V, Noilhan J, Marques Filho EP. Formulation of a tropical town energy budget (t-TEB) scheme. Theoretical and Applied Climatology. 2010 ; 101( 1/2): 109-120.
    • Vancouver

      Karam HA, Pereira Filho AJ, Masson V, Noilhan J, Marques Filho EP. Formulation of a tropical town energy budget (t-TEB) scheme. Theoretical and Applied Climatology. 2010 ; 101( 1/2): 109-120.

    Referências citadas na obra
    Akan AO (1993) Urban stormwater hydrology: a guide to engineering calculations. CRC, Boca Raton, p 265
    Arnfield AJ (1982) An approach to the estimation of the surface radiative properties and radiation budgets of cities. Phys Geogr 3:97–122
    Arnfield AJ, Mills GM (1994) An 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
    Belcher SE, Jerram N, Hunt JCR (2003) Adjustment of a turbulent boundary layer to a canopy of roughness elements. J Fluid Mech 488:369–398
    Beljaars ACM (1994) The parametrization of surface fluxes in large-scale models under convection. Q J Roy Meteor Soc 121:225–270
    Best MJ (2005) Representing urban areas within operational numerical weather prediction models. Bound-Lay Meteorol 114:91–109
    Beven KJ (2002) Rainfall–runoff modelling—the primer. Wiley, Chichester, p 360 ISBN 978-0-470-86671-9
    De Bruin HAR, Kohsiek W, Van Den Hurk JJM (1993) A verification of some methods to determine the fluxes of momentum, sensible heat, and water vapor using standard deviation and structure parameter of scalar meteorological quantities. Bound-Lay Meteorol 63:231–257
    Deardorff JW (1978) Efficient prediction of ground surface temperature and moisture, with inclusion of a layer of vegetation. J Geophys Res-Atmos 83(C4):1889–1903
    Fairall CW, Bradley EF, Rogers DP, Edson JB, Young GS (1996) Air-sea flux parameterization in TOGA COARE. J Geophys Res-Atmos 101(C2):3747–3764
    Feigenwinter C, Vogt R, Palow E (1999) Vertical structure of selected turbulence characteristics above an urban canopy. Theor Appl Climatol 62:51–63
    Fuggle RF, Oke TR (1976) Long-wave radiative flux divergence and nocturnal cooling of the urban atmosphere. I: Above Roof-Level. Bound-Lay Meteorol 10:113–120
    Garratt JR (1980) Surface Influence upon vertical profiles in the atmospheric near-surface layer. Q J Roy Meteor Soc 106:803–819
    Garratt JR (1994) The atmospheric boundary layer. Cambridge Atmospheric and Space Science Series, Cambridge, p 316
    Grachev AA, Fairall CW, Zilitinkevich SS (1997) Surface-layer scaling for the convection-induced stress regime. Bound-Lay Meteorol 83:423–439
    Grachev AA, Fairall CW, Bradley EF (2000) Convective profile constants revisited. Bound-Lay Meteorol 83:423–439
    Grimmond CSB, Oke TR (1991) An evapotranspiration-interception model for urban areas. Water Resour Res 27(7):1739–1755
    Grimmond CSB, Oke TR (2002) Turbulent heat fluxes in urban areas: observations and a local-scale urban meteorological parameterization scheme (LUMPS). J Appl Meteorol 41(7):792–810
    Grimmond CSB, Cleugh HA, Oke TR (1991) An objective urban heat storage model and its comparison with other schemes. Atmos Environ B-Urb 25(3):311–326 Objective Hysteresis Model (OHM)
    Hall MJ (1984) Urban hydrology. Elsevier, Essex, p 310
    Kader BA, Yaglom AM (1990) Mean fields and fluctuation moments in unstably stratified turbulent boundary layers. J Fluid Mech 212:637–662
    Kaimal JC, Finningan JJ (1994) Atmospheric boundary layer flows—their structure and measurements. Oxford University Press, New York, p 289
    Karam HA, Pereira Filho AJ (2006) Revisão dos métodos de Penman e Penman Monteith aplicado aos cânions urbanos. Rev Brasil Meteorol 21(1):86–106 In Portuguese
    Kastner-Klein P, Rotach MW (2004) Mean flow and turbulence characteristics in an urban roughness sublayer. Bound-Lay Meteorol 111:55–84
    Kusaka H, Kondo H, Kikegawa Y, Kimura F (2001) A simple single-layer urban canopy model for atmospheric models: comparison with multi-layer and slab models. Bound-Lay Meteorol 101:329–358
    Lemonsu A, Masson V (2002) Simulation of a summer urban breeze over Paris. Bound-Lay Meteorol 104:463–490
    Lemonsu A, Grimmond CSB, Masson V (2004) Modelling the surface energy budget of an old Mediterranean city core: Marseille. J Appl Meteorol 43:312–327
    Liou KN (2002) An introduction to atmospheric radiation. International Geophysics Series, 2nd edn, Elsevier, Amsterdam, p. 583
    Liu S, Lu L, Mao D, Jia L (2007) Evaluating parameterizations of aerodynamic resistance to heat transfer using field measurements. Hydrol Earth Syst Sci 11:769–783
    Mahrt L (2000) Surface heterogeneity and vertical structure of the boundary-layer. Bound-Lay Meteorol 96:33–62
    Marchuk GI (1974) Numerical methods in weather prediction [Chislennye letody v prognoze pogody, trans. Trirogoff and VR Lamb]. Academic, New York, p. 277
    Marques Filho EP, Sá LD, Karam HA, Alvara RM, Souza A (2008) Atmospheric surface layer characteristics of turbulence above the Pantanal wetland regarding the similarity theory. Agr Forest Meteorol 148(6–7):883–892
    Marques Filho EP, Karam HA, Miranda AG, Franca JRA (2009), Rio de Janeiro’s urban climate. Urban Climate News—Quarterly Newsletter of the International Association of Urban Climate (IAUC), issue no. 32, June, 5–9.
    Martilli A, Clappier A, Rotach MW (2002) An urban surface exchange parameterization for mesoscale models. Bound-Lay Meteorol 104:261–304
    Mascart P, Noilhan J, Giordani H (1995) A modified parameterization of flux-profile relationship in the surface layer using different roughness length values for heat and momentum. Bound-Lay Meteorol 72:331–344
    Masson V (2000) A physically-based scheme for the urban energy budget in atmospheric models. Bound-Lay Meteorol 94:357–397
    Masson V (2006) Urban surface modeling and the mesoscale impact of cities. Theor Appl Climatol 84:35–45
    Matsuura K (1995) Effects of climate change on building energy consumption in cities. Theor Appl Climatol 51:105–117
    McCuen RH (1973) The role sensitivity analysis in hydrologic modelling. J Hydrol 18:37–53
    Mesinger F, Arakawa A (1979) Numeric methods used in atmospheric models. GARP Publications Series no. 17, vol. 1, Aug. 1979 (reprinted Nov. 1982). AMS/WMO, p 64
    Mestayer PG, Durand P, Augustin P, Bastin S, Bonnefond J-M, Bénech B, Campistron B, Coppalle A, Delbarre H, Dousset B, Drobinski P, Druilhet A, Fréjafon E, Grimmond CSB, Groleau D, Irvine M, Kergomard C, Kermadi S, Lagouarde J-P, Lemonsu A, Lohou F, Long N, Masson V, Moppert C, Noilhan J, Offerle B, Oke TR, Pigeon G, Puygrenier V, Roberts S, Rosant J-M, Saïd F, Salmond J, Talbaut M, Voogt J (2005) The urban boundary-layer field campaign in Marseille (UBL/CLU-ESCOMPTE): set-up and first results. Bound-Lay Meteorol 114:315–365
    Mills G (1997) An urban canopy-layer climate model. Theor Appl Climatol 57:229–244
    Monin AS, Yaglom AM (1971) Statistical fluid mechanics. Volume I: mechanics of turbulence. Dover, New York, p 769 ISBN 0-486-45883-0 (v. 1 pbk)
    Monin AS, Yaglom AM (1975) Statistical fluid mechanics. Volume II: mechanics of turbulence. Dover, New York, p 874 ISBN 0-486-45891-0 (v. 2 pbk)
    Monteith JL, Unsworth MH (2008) Principles of environmental physics, 3rd edn. Elsevier, New York. ISBN 978-0-12-505103-3
    Morena F (2004) Modelisation Hydrologique Distribuee en Milieu Urbanise—representation des processus de production et development du modele URBS. PhD thesis, Laboratoire Central des Ponts et Chaussees. Institut Nacional Polytechnique de Grenoble, France, p 257
    Moriwaki R, Kanda M (2006) Flux-gradient profiles for momentum and heat over an urban surface. Theor Appl Climatol 84:127–135
    Nakamura Y, Oke TR (1988) Wind, temperature and stability conditions in an east-west oriented urban canyon. Atmos Environ B-Urb 22:2691–2700
    Nieuwstadt FTM (1984) Turbulence structure of the stable nocturnal boundary layer. J Atmos Sci 41:2202–2216
    Noilhan J (1981) A model for the net total radiation flux at the surface of a building. Build Environ 16:269–266
    Noilhan J, Lacarrère P, Dolman AJ, Blyth EM (1997) Defining area-average parameters in meteorological models for land surfaces with mesoscale heterogeneity. J Hydrol 190:302–316
    Nunez M, Oke TR (1976) Long-wave radiative flux divergence and nocturnal cooling of the urban atmosphere. II: Within an Urban Canyon. Bound-Lay Meteorol 10:121–135
    Oke TR (1987) Boundary layer climates, 2nd edn. Methuen, London, p 435
    Oke TR (2006) Towards better scientific communication in urban climate. Theor Appl Climatol 84:1–3
    Panofsky HA, Dutton JA (1984) Atmospheric turbulence, models and methods for engineering applications. Wiley, New York 397
    Pereira Filho AJ, Massambani O, Hallak R, Beneti CA (2008) On the use of a mobile XPOL weather radar for flood warning. In: International Symposium on Weather Radar and Hydrology, Grenoble, France. LTHE, Grenoble
    Press WH, Flannery BP, Teukolsky SA, Vetterling WT (1989) Numerical recipes. The art of scientific computing (Fortran version). Cambridge University Press, Cambridge. ISBN 0 521 31330 9
    Press WH, Flannery BP, Teukolsky SA, Vetterling WT (1992) Numerical Recipes (Fortran version). Cambridge University Press, p 702. ISBN 0-521-43064-X
    Raupach MR (1992) Drag and drag partition on rough surfaces. Bound-Lay Meteorol 60:375–395
    Raupach MR, Finnigan JJ (1997) The influence of topography on meteorological variables and surface-atmosphere interactions. J Hydrol 190:182–213
    Raupach MR, Finnigan JJ, Brunet Y (1996) Coherent eddies and turbulence in vegetation canopies: the mixing-layer analogy. Bound-Lay Meteorol 78:351–382
    Roach PJ (1972) Computational fluid dynamics. Hermosa, Albuquerque, p 446. ISBN 0-913478-05-9
    Rotach MW (1995) Profiles of turbulence statistics in and above an urban street canyon. Atmos Environ 29(13):1473–1486
    Roth M (2000) Review of atmospheric turbulence over cities. Q J Roy Meteor Soc 126:941–990
    Roth M (2007) Review of urban climate research in (sub)tropical regions. Int J Climatol 27(14):1859–1873
    Roth M, Oke T (1993) Turbulent transfer relationships over an urban surface. I: spectral characteristics. Q J Roy Meteor Soc 119:1071–1104
    Roulet YA, Martilli A, Rotach MW, Clappier A (2005) Validation of an urban surface exchange parameterization for mesoscale models—1D case in a street canyon. J Appl Meteorol 44:1484–1498
    Sailor DJ, Lu L (2004) A top-down methodology for developing diurnal and seasonal anthropogenic heating profiles for urban areas. Atmos Environ B-Urb 38:2737–2748
    Shyy W, Udaykumar HS, Rao MM, Smith RW (1996) Computational fluid dynamics with moving boundaries. Dover, New York, p 285. ISBN 0-486-65675-6
    Sorbjan Z (1986) On similarity in the atmospheric boundary layer. Bound-Lay Meteorol 34:377–397
    Tennekes H (1973) A model for the dynamics of the inversion above a convective boundary layer. J Atmos Sci 30:558–581
    Thom AS (1975) Momentum, mass and heat exchange of plant communities. In: Monteith JL (ed) Vegetation and the atmosphere. Academic, London, pp 57–110
    Thom AS, Stewart JB, Oliver HR, Gash JHC (1975) Comparison of aerodynamic and energy budget estimates of fluxes over a pine forest. Q J R Meteor Soc 427:93–105
    Unsworth MH (1975) Long-wave radiation at the ground. II. Geometry of interceptation by slopes, solids, and obstructed planes. Q J Roy Meteor Soc 101:25–34
    Unsworth MH, Monteith JL (1975) Long-wave radiation at the ground. I. Angular distribution of incoming radiation. Q J Roy Meteor Soc 101:13–24
    Vincendon BV, Ducrocq GM, Saulnier L, Boulloud K, Chancibault F, Habets, J Noilhan (2009) Advances of coupling the ISBA land surface model with a TOPMODEL hydrological model dedicated to Mediterranean flash floods. J Hydrometeorol (in press)
    Viney NR (1991) An empirical expression for aerodynamic resistance in the unstable boundary layer. Bound-Lay Meteorol 56:381–393
    von Randow C, Sa’ LDA, Gannabathula SSDP, Manzi AO, Arlino PRA, Kruijt B (2002) Scale variability of atmospheric surface layer fluxes of energy and carbon over a tropical rain forest in southwest Amazonia. I. Diurnal conditions. J Geophys Res-Atmos 107(D20, LBA):29-1–29-12
    von Randow C, Kruijt B, Holtslag AAM (2006) Low-frequency modulation of the atmospheric surface layer over Amazonian rain forest and its implication for similarity relationship. Agr Forest Meteorol 141:192–207