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Implementation of Observed Sky-View Factor in a Mesoscale Model for Sensitivity Studies of the Urban Meteorology

Author

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  • Marcos Vinicius Bueno de Morais

    (Post-Graduate Program in Environmental Engineering, Federal Technology University—Paraná, Av. Pioneiros, 3131, Londrina 86036-370, Paraná, Brazil
    Instituto de Astronomia, Geofísica e Ciências Atmosféricas, Universidade de São Paulo, Rua do Matão, 1226, Cidade Universitária, São Paulo 05508-090, Brazil
    These authors contributed equally to this work.)

  • Edmilson Dias de Freitas

    (Instituto de Astronomia, Geofísica e Ciências Atmosféricas, Universidade de São Paulo, Rua do Matão, 1226, Cidade Universitária, São Paulo 05508-090, Brazil
    These authors contributed equally to this work.)

  • Edson R. Marciotto

    (Department of Physics, Federal University of Santa Catarina, Bairro da Trindade-Florianópolis, Santa Catarina 88040-900, Brazil
    These authors contributed equally to this work.)

  • Viviana Vanesa Urbina Guerrero

    (Atmospheric Extreme Events Laboratory, Federal Technology University—Paraná, Av. Pioneiros, 3131, Londrina 86036-370, Paraná, Brazil
    These authors contributed equally to this work.)

  • Leila Droprinchinski Martins

    (Department of Chemistry, Federal Technology University—Paraná, Av. Pioneiros, 3131, Londrina 86036-370, Paraná, Brazil
    Lund University, 22100 Lund, Sweden
    These authors contributed equally to this work.)

  • Jorge Alberto Martins

    (Lund University, 22100 Lund, Sweden
    Department of Physics, Federal Technology University—Paraná, Av. Pioneiros, 3131, Londrina 86036-370, Paraná, Brazil
    These authors contributed equally to this work.)

Abstract

The sky view factor (SVF) is an important radiometric parameter for assessing the canopy energy budget of urban areas. There are several methods to determine the SVF observationally. The most common is taking a photo with a digital camera equipped with a fish-eye lens and then converting ratio of sky area to canopy area into SVF. However, most urban canopy models use this variable as derived from idealized canopy geometry. To evaluate the effect of inputting observed SVFs in numerical models, we evaluated a mesoscale model’s performance in reproducing surface wind and surface temperature when subjected to different ways of SVF prescription. The studied area was the Metropolitan Area of São Paulo (MASP) in Brazil. Observed SVFs were obtained for 37 sites scattered all over the MASP. Three simulations, A, B, and C, with different SVF and aspect-ratio prescriptions, were performed to analyze the effect of SVF on the urban canopy parameterization: Simulation A (standard) used the original formulation of the Town Energy Budget (TEB) model, computing the SVFs from the aspect-ratios; Simulation B used the observed SVFs, but keeps aspect-ratios as original; and Simulation C used the aspect-ratios computed from observed SVFs. The results show that in general inputting observed SVFs improves the model capability of reproducing temperature at surface level. The comparison of model outputs with data of regular meteorological stations shows that the inclusion of observed values of SVFs enhances model performance, reducing the RMSE index by up to 3 ∘ C. In this case, the model is able to better reproduce the expected effects in the wind field, and consequently the temperature advection, of the urban boundary layer to a large urban area. The result of Simulation C shows that the surface wind and temperature intensity for all urban types is higher than those of Simulation A, because of the lower values of the aspect ratio. The urban type with high density of tall buildings increase up to 1 m s - 1 in the wind speed, and approximately 1 ∘ C in temperature, showing the importance of a better representation of the urban structure and the SVF database improvement.

Suggested Citation

  • Marcos Vinicius Bueno de Morais & Edmilson Dias de Freitas & Edson R. Marciotto & Viviana Vanesa Urbina Guerrero & Leila Droprinchinski Martins & Jorge Alberto Martins, 2018. "Implementation of Observed Sky-View Factor in a Mesoscale Model for Sensitivity Studies of the Urban Meteorology," Sustainability, MDPI, vol. 10(7), pages 1-15, June.
    • Handle: RePEc:gam:jsusta:v:10:y:2018:i:7:p:2183-:d:154612
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    Citations

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    Cited by:

    1. Marzie Naserikia & Elyas Asadi Shamsabadi & Mojtaba Rafieian & Walter Leal Filho, 2019. "The Urban Heat Island in an Urban Context: A Case Study of Mashhad, Iran," IJERPH, MDPI, vol. 16(3), pages 1-21, January.
    2. Marcos Vinicius Bueno de Morais & Viviana Vanesa Urbina Guerrero & Edmilson Dias de Freitas & Edson R. Marciotto & Hugo Valdés & Christian Correa & Roberto Agredano & Ismael Vera-Puerto, 2019. "Sensitivity of Radiative and Thermal Properties of Building Material in the Urban Atmosphere," Sustainability, MDPI, vol. 11(23), pages 1-15, December.
    3. Olga Palusci & Carlo Cecere, 2022. "Urban Ventilation in the Compact City: A Critical Review and a Multidisciplinary Methodology for Improving Sustainability and Resilience in Urban Areas," Sustainability, MDPI, vol. 14(7), pages 1-44, March.
    4. Cao Yu & Yong Sheng Khoo & Jing Chai & Shuwei Han & Jianxi Yao, 2019. "Optimal Orientation and Tilt Angle for Maximizing in-Plane Solar Irradiation for PV Applications in Japan," Sustainability, MDPI, vol. 11(7), pages 1-8, April.

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