Evaluation of thermal performance of green roofs via field measurements and hygrothermal simulations

Green roofs reduce runoff from impervious surfaces in urban development. This paper reviews the technical literature on green roof hydrology. Laboratory experiments and field measurements have shown that green roofs can reduce stormwater runoff volume by 30 to 86%, reduce peak flow rate by 22 to 93% and delay the peak flow by 0 to 30 min and thereby decrease pollution, flooding and erosion during precipitation events. However, the effectiveness can vary substantially due to design characteristics making performance predictions difficult. Evaluation of the most recently published study findings indicates that the major factors affecting green roof hydrology are precipitation volume, precipitation dynamics, antecedent conditions, growth medium, plant species, and roof slope. This paper also evaluates the computer models commonly used to simulate hydrologic processes for green roofs, including stormwater management model, soil water atmosphere and plant, SWMS-2D, HYDRUS, and other models that are shown to be effective for predicting precipitation response and economic benefits. The review findings indicate that green roofs are effective for reduction of runoff volume and peak flow, and delay of peak flow, however, no tool or model is available to predict expected performance for any given anticipated system based on design parameters that directly affect green roof hydrology.

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Thermal performance assessment of extensive green roofs investigating realistic vegetation-substrate configurations

Building Simulation ◽

10.1007/s12273-018-0488-y ◽

2018 ◽

Vol 12 (3) ◽

pp. 379-393 ◽

Cited By ~ 7

Author(s):

Stefano Cascone ◽

Antonio Gagliano ◽

Tiziana Poli ◽

Gaetano Sciuto

Keyword(s):

Performance Assessment ◽

Thermal Performance ◽

Green Roofs ◽

Extensive Green Roofs

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The Effects of Courtyards on the Thermal Performance of a Vernacular House in a Hot-Summer and Cold-Winter Climate

Energies ◽

10.3390/en12061042 ◽

2019 ◽

Vol 12 (6) ◽

pp. 1042 ◽

Cited By ~ 1

Author(s):

Shimeng Hao ◽

Changming Yu ◽

Yuejia Xu ◽

Yehao Song

Keyword(s):

Solar Radiation ◽

Thermal Performance ◽

Natural Ventilation ◽

Field Measurements ◽

Ground Level ◽

Active Role ◽

Thermal Mass ◽

Cold Winter ◽

Winter Climate ◽

Climate Zones

Achieving comfort in hot summer and cold winter (HSCW) climate zones can be challenging, since the climate is characterized by high temperatures in the summer and relatively colder temperatures in the winter. Courtyards, along with other semi-open spaces such as verandas and overhangs, play an important role in mitigating outdoor climate fluctuations. In this research, the effects of courtyards on the thermal performance of vernacular houses in HSCW climate zones were studied via field measurements and computational fluid dynamics (CFD) models. The selected courtyard house was a representative vernacular timber dwelling situated in the southeast of Chongqing, China. The indoor and outdoor air temperature measurements revealed that the courtyard did play an active role as a climatic buffer and significantly reduced the temperature’s peak value in the summer, while during the winter, the courtyard prevented the surrounding rooms from receiving direct solar radiation, and thus to some extent acted as a heat barrier. The contributions of thermal mass are quite limited in this area, due to insufficient solar radiation in winter and general building operations. The natural ventilation mechanism of courtyard houses in HSCW zones was further studied through CFD simulations. The selected opened courtyard was compared to an enclosed structure with similar building configurations. The airflow patterns driven by wind and buoyancy effects were first simulated separately, and then together, to illustrate the ventilation mechanisms. The simulation results show that the courtyard’s natural ventilation behavior benefited from the proper openings on ground level.

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Comparison of thermal performance between green roofs and conventional roofs

Case Studies in Thermal Engineering ◽

10.1016/j.csite.2020.100697 ◽

2020 ◽

Vol 21 ◽

pp. 100697 ◽

Cited By ~ 1

Author(s):

Marco A. Polo-Labarrios ◽

Sergio Quezada-García ◽

Heriberto Sánchez-Mora ◽

M. Azucena Escobedo-Izquierdo ◽

Gilberto Espinosa-Paredes

Keyword(s):

Thermal Performance ◽

Green Roofs

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COBERTURA E FACHADA VERDE:

Revista de Geografia - PPGEO - UFJF ◽

10.34019/2236-837x.2018.v8.26001 ◽

2019 ◽

Vol 8 (2) ◽

pp. 89-100

Author(s):

Thiago Youzi Kussaba Kayano ◽

Nuria Perez Gallardo ◽

Bruno César dos Santos ◽

Mauricio Sanches Duarte Silva ◽

Rafael Perussi ◽

...

Keyword(s):

Thermal Behavior ◽

Thermal Performance ◽

Green Roof ◽

Green Roofs ◽

Sao Paulo ◽

Test Cell ◽

São Paulo ◽

Control Test ◽

Green Façade ◽

Green Facade

Com a busca de alternativas para melhorar o conforto ambiental em ambientes construídos, os sistemas de fachadas e tetos verdes aparecem como uma opção para melhoria, em especial, do conforto térmico. Utilizando-se de um episódio climático representativo no mês de junho de 2016, analisou-se comparativamente o comportamento térmico de uma célula de teste com fachada e teto verde e uma célula de controle para avaliação do desempenho térmico em dia crítico experimental de frio. O experimento foi realizado no Centro de Recursos Hídricos e Estudos Ambientais (CRHEA) da Universidade de São Paulo (USP), em Itirapina-SP. Os resultados indicaram que a célula de teste com fachada e teto verde possui um melhor desempenho térmico em comparação à célula de controle. Palavras-chave: desempenho térmico, episódio climático representativo, comportamento térmico, fachada verde, cobertura verde. Abstract In searching for better thermal behavior alternatives in building environments green facade systems and green roofs emerge as an improvement option, particularly in thermal comfort. Using a representative climate episode to analyze the month of June of 2016 we studied the thermal performance of a green façade and green roof test cell and a control test cell in experimental critical cold day. The experiment was made in Water Resource and Environmental Studies Center (CRHEA) of University of São Paulo (USP), in Itirapina-SP. The results indicated the green wall and green roof test cell have a better thermal performance than control test cell. Keywords: Thermal performance, climatic representative episode, thermal behavior, green façade, green cover.

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Using natural fibre insulators on green roofs: some considerations

E3S Web of Conferences ◽

10.1051/e3sconf/202019702015 ◽

2020 ◽

Vol 197 ◽

pp. 02015

Author(s):

Kristian Fabbri ◽

Fabrizio Barbieri ◽

Francesca Merli

Keyword(s):

Thermal Performance ◽

Green Roofs ◽

Natural Fibre ◽

Zero Energy ◽

Insulating Material ◽

Zero Energy Building ◽

Synthetic Materials ◽

Hygrothermal Behavior ◽

Coconut Fibre ◽

New Buildings

This study focuses on the application of coconut fibre insulators, an insulating material rarely utilized in the Mediterranean context. Despite its undoubted thermal performance, some queries are related with of his thermo-hygrometric behavior. More precisely, during the use of coconut for covering building for realizing green roofs, which represent a technological solution often adopted in the case of sustainable buildings or nearly zero energy building. Green roofs represent a valid constructive solution with high thermal performances, adopted in existing and new buildings. This paper investigates the thermo-hygrometric behavior of the concrete and Cross Laminated Timbre slabs, insulated with coconut fibreboards (CF) such as an alternative synthetic insulator, referred to a series of different green roofs scenarios. The results show that coconut fibre insulations are equally comparable to natural and synthetic materials. Therefore, coconut fibre could represent a good chance for realization of green roof having high thermal performance and hygrothermal behavior in the same time. This material could be an alternative solution to the normal synthetic materials actually used, in a perspective of sustainable architecture.

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