Presentation is loading. Please wait.

Presentation is loading. Please wait.

DTerEST, DTerIdF PAGE 1 Task 1 : to assess the refreshing potential of a VGR Task 2 : to develop relevant indicators dedicated to VGR environmental impacts.

Published byJeffrey Todd Modified over 9 years ago

Similar presentations

Presentation on theme: "DTerEST, DTerIdF PAGE 1 Task 1 : to assess the refreshing potential of a VGR Task 2 : to develop relevant indicators dedicated to VGR environmental impacts."— Presentation transcript:

1 DTerEST, DTerIdF PAGE 1 Task 1 : to assess the refreshing potential of a VGR Task 2 : to develop relevant indicators dedicated to VGR environmental impacts Task 3 : to evaluate the spreading potential of the vegetation in urban zones The TERRACES project A collaborative work to understand the role of vegetative green roofs (VGR) in refreshing the urban ambiances (12/2012 – 12/2015) POSTER 13/ UCP 537

2 DTerEST, DTerIdF PAGE 2 Maeva Sabre, Julien Bouyer, David Ramier, Emmanuel Berthier, Jérémy Chollet, Ryad Bouzouidja, Rémy Claverie Task 1 : to assess the refreshing potential of a VGR The TERRACES project Qualifying and quantifying the changes in the urban energy balance using vegetative green roofs (VGRs)

3 PAGE 3 Task 1.1 : To measure the Energy balance and Evapotranspiration flux (ET) Task 1.2 : To model the Thermal and Hydrological balance of a VGR Task 1.3 : To assess the impact of Climate Change T E R R A C E S Task 1 : to assess the refreshing potential of a VGR EXPERIMENTATIONSSIMULATIONS DatabasePhysical propertiesCHOICE of the MODEL To build To assess To validateTo select PERFORMANCESIMPACT of CLIMATE CHANGE To predictTo evaluate

4 PAGE 4 Experimental sites T E R R A C E S Task 1.1 Energy balance and evapotranspiration Site 1 : Nancy (54) Site 2 : Trappes (78) Site 3 : Nantes (44)

5 PAGE 5 Experimental sites T E R R A C E S Task 1.1 Energy balance and evapotranspiration Site 3 : NantesSite 2 : TrappesSite 1 : Nancy SumPrec (mm) Tmean (°C)

6 PAGE 6 Experimental platforms T E R R A C E S Task 1.1 Energy balance and evapotranspiration Site 1 : Nancy (54) 600m² - EA (75m²) – Stock60 (28 m²)

7 PAGE 7 Experimental platforms T E R R A C E S Task 1.1 Energy balance and evapotranspiration Site 2 : Trappes (78) : 300m²

8 PAGE 8 Experimental platforms T E R R A C E S Task 1.1 Energy balance and evapotranspiration Site 3 : Nantes (44) (7 x 2.25 m²)

9 PAGE 9 T E R R A C E S Task 1.1 Energy balance and evapotranspiration Experimental platforms details

10 PAGE 10 T E R R A C E S Task 1.1 Energy balance and evapotranspiration Experimental platforms instrumentations Local meteorological stations (Air temperature, Humidity, wind speed, radiation, rainfall) Water outflow (tipping buckets water gauge) (Global : Nancy ; Local : Trappes, Nantes) Substrate water content (Time Differential Reflectometry) Substrate temperature (PT100 sensors at different depth) (Nancy, Nantes) Meteo-France meteorological stations Evolution of the plants cover Water quality analysis

11 PAGE 11 T E R R A C E S Task 1.1 Energy balance and evapotranspiration Calculations Water balance P = ET + R + D + ΔS P : cumulated precipitation [mm/h] ET : evapotranspiration flux [mm/h] R : cumulated runoff [mm/h] D : output flow of the system [mm/h] S : variation of the volumetric water content of the system [mm/h] Energy balance Q* = Qe + Qh + ΔQs Q* : radiation balance (solar, infrared exchanged at the surface) [W/m²] Qe: latent heat flux [W/m²] Qh : sensible heat flux [W/m²] ΔQs : variations of the storage heat [W/m²]

12 PAGE 12 T E R R A C E S Task 1.1 Energy balance and evapotranspiration Calculations LE : evapotranspiration flux [W/m²] L : latent heat flux [W/m²] h : the evapotranspiration chamber height [m] ρv : absolute humidity [g/m 3 ] T : time [s] Evapotranspiration flux ᄇ Outer Air T° ; RH Inner Air T° ; RH Absolute humidity Radiative flux 1 3 PMMA chamber walls Metal frame 2

13 PAGE 13 T E R R A C E S Task 1.1 Energy balance and evapotranspiration Experimental results Nantes 17/07/2013 Evapotranspiration fluxes (W/m²) on 3 sites Nantes 15/04/2014 Trappes 24/07/2013 Trappes 04/12/2013 Nancy 20/06/2013 Nancy 27/11/2013 Hours (UT) 14020040 10 12160

14 PAGE 14 T E R R A C E S Task 1.1 Energy balance and evapotranspiration Experimental results Comparison Water balance calculation / Evapotranspiration flux measurements (W/m²) on Nancy site

15 PAGE 15 T E R R A C E S Task 1.2 Simulation of the thermal and hydrological balance of VGR Choice of the model Choice of a coupled model (hydrological and thermal) to simulate the behavior of the system : soil-vegetation-atmosphere and its interaction at the city scale Green roof design for TEB-GREENROOF and associated physical process (de Munck et al., 2013)

16 PAGE 16 Scenarios from DRIAS database T E R R A C E S Task 1.3 Impact of climate change http://www.drias-climat.fr/ Scales : 8km, daily Parameters : air temperature, precipitation, humidity, wind speed… Periods : 1976 – 2005 ; 2021 - 2050 ; 2070 – 2100

17 PAGE 17 T E R R A C E S Future works -Analyze the platforms database for : albedo, emissivity, LAI, stomatal conductance… -Calibrate and validate the model with experimental data -Simulate the hydrological and thermal performances of the VGR -Use DRIAS to simulate the impact of climate change on the VGR’s performances - Put roof data into task 3 to see the district and town scale impacts

18 PAGE 18 DTerEST, DTerIdF THANK YOU FOR YOUR ATTENTION T E R R A C E S

Download ppt "DTerEST, DTerIdF PAGE 1 Task 1 : to assess the refreshing potential of a VGR Task 2 : to develop relevant indicators dedicated to VGR environmental impacts."

Similar presentations

Calibration of IBIS against data from four primary forest sites in Amazonia Marcos Heil Costa, Hewlley M. A. Imbuzeiro, Gleidson C. B. Baleeiro, Humberto.

Calibration of IBIS against data from four primary forest sites in Amazonia Marcos Heil Costa, Hewlley M. A. Imbuzeiro, Gleidson C. B. Baleeiro, Humberto.
Surface Heat Balance Analysis by using ASTER and Formosat-2 data

Surface Heat Balance Analysis by using ASTER and Formosat-2 data
Quantitative information on agriculture and water use Maurits Voogt Chief Competence Center.

Quantitative information on agriculture and water use Maurits Voogt Chief Competence Center.
Watershed Hydrology, a Hawaiian Prospective: Evapotranspiration Ali Fares, PhD Evaluation of Natural Resource Management, NREM 600 UHM-CTAHR-NREM.

Watershed Hydrology, a Hawaiian Prospective: Evapotranspiration Ali Fares, PhD Evaluation of Natural Resource Management, NREM 600 UHM-CTAHR-NREM.
Lecture 3 Introduction to Global Hydrological Cycle Basic Processes Global Water Reservoirs Global Water Transport Terms to Remember.

Lecture 3 Introduction to Global Hydrological Cycle Basic Processes Global Water Reservoirs Global Water Transport Terms to Remember.
Energy and Weather Interactions in the Built Environment - Exploring options for Urban Energy Sustainability International Workshop on Urban Weather &

Energy and Weather Interactions in the Built Environment - Exploring options for Urban Energy Sustainability International Workshop on Urban Weather &
Near Surface Soil Moisture Estimating using Satellite Data Researcher: Dleen Al- Shrafany Supervisors : Dr.Dawei Han Dr.Miguel Rico-Ramirez.

Near Surface Soil Moisture Estimating using Satellite Data Researcher: Dleen Al- Shrafany Supervisors : Dr.Dawei Han Dr.Miguel Rico-Ramirez.
Monitoring the hydrologic cycle in the Sierra Nevada mountains.

Monitoring the hydrologic cycle in the Sierra Nevada mountains.
Earth System Data Record (ESDR) for Global Evapotranspiration. Eric Wood Princeton University ©Princeton University.

Earth System Data Record (ESDR) for Global Evapotranspiration. Eric Wood Princeton University ©Princeton University.
Princeton University Global Evaluation of a MODIS based Evapotranspiration Product Eric Wood Hongbo Su Matthew McCabe.

Princeton University Global Evaluation of a MODIS based Evapotranspiration Product Eric Wood Hongbo Su Matthew McCabe.
Globally distributed evapotranspiration using remote sensing and CEOP data Eric Wood, Matthew McCabe and Hongbo Su Princeton University.

Globally distributed evapotranspiration using remote sensing and CEOP data Eric Wood, Matthew McCabe and Hongbo Su Princeton University.
Outline Background, climatology & variability Role of snow in the global climate system Indicators of climate change Future projections & implications.

Outline Background, climatology & variability Role of snow in the global climate system Indicators of climate change Future projections & implications.
Basic definitions: Evapotranspiration: all processes by which water in liquid phase at or near the earth’s surface becomes atmospheric water vapor  “Evaporation”

Basic definitions: Evapotranspiration: all processes by which water in liquid phase at or near the earth’s surface becomes atmospheric water vapor  “Evaporation”
ERS 482/682 Small Watershed Hydrology

ERS 482/682 Small Watershed Hydrology
A Sensitivity Analysis on Remote Sensing ET Algorithm— Remote Evapotranspiration Calculation (RET) Junming Wang, Ted. Sammis, Luke Simmons, David Miller,

A Sensitivity Analysis on Remote Sensing ET Algorithm— Remote Evapotranspiration Calculation (RET) Junming Wang, Ted. Sammis, Luke Simmons, David Miller,
CSIRO LAND and WATER Estimation of Spatial Actual Evapotranspiration to Close Water Balance in Irrigation Systems 1- Key Research Issues 2- Evapotranspiration.

CSIRO LAND and WATER Estimation of Spatial Actual Evapotranspiration to Close Water Balance in Irrigation Systems 1- Key Research Issues 2- Evapotranspiration.
Impact of Climate Change on Flow in the Upper Mississippi River Basin

Impact of Climate Change on Flow in the Upper Mississippi River Basin
EARS Satellite data for Climate Water and Food Meteosat Flow Forecasting and Drought Monitoring Mark de Weerd, MSc. EARS Earth Environment Monitoring BV.

EARS Satellite data for Climate Water and Food Meteosat Flow Forecasting and Drought Monitoring Mark de Weerd, MSc. EARS Earth Environment Monitoring BV.
Assessment of Localized Urban Climates and Associations with Air Pollution and Synoptic Weather Patterns Aaron Hardin, MS Candidate, Texas Tech University.

Assessment of Localized Urban Climates and Associations with Air Pollution and Synoptic Weather Patterns Aaron Hardin, MS Candidate, Texas Tech University.
Evaporation Slides prepared by Daene C. McKinney and Venkatesh Merwade

Evaporation Slides prepared by Daene C. McKinney and Venkatesh Merwade

Similar presentations

Ads by Google