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% de escorrentia: Se ingresa capacidad de infiltracion del suelo y la precipitacion promedio mensual. Estos dos datos junto con el area de la cuenca de dreanaje y el area de la solucion seleccionada proporcionan el valor para el porcentaje de disminucion de escorrentia
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Delta de T: Por medio de sensores de bajo costo que usan arduino, estaciones de monitoreo local de 10 euros en promedio pueden ubicarse en cada solucion para optener mediciones en tiempo real que evaluan el beneficio en reduccion de temperatura que ofrece cada typo de solucion instalado en la ciudad en relacion a su area y typo de vegetacion. Esto se extrapola para hacer simulaciones.
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Calidad del aire:
Explore as a citizen
Do you feel that the city is not adapting to climate change and would you like to support that to happen to have a neighborhood where you live better?
Explore the map of your neighborhood and run it with the help of Agua Urbana so that you can vote for the solutions that give you benefits every day, this information is received by urban planners and are part of decision-making
- Answer the questions and let us know what should be the priorities in your neighborhood to adapt to climate change
Perform qualitative simulations that indicate which option meets the needs of your neighborhood
Join current associations' applications to obtain an intervention permit in your neighborhood or obtain financing to increase the benefits of a new or existing nature-based solution
Join the monitoring sessions
Explore as an Urban Planner
Heat Islands Maps
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Flood map
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Runoff%
Delta of T
Air quality and CO2 capture
Use of citizens
Observed Biodiversity
Voice of citizens
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Better urban planning
Runoff%: Enter infiltration capacity of the soil and the average monthly precipitation. These two data together with the area of ​​the drainage basin and the area of ​​the selected solution provide the value for the percentage of decrease in runoff.
Delta de T: Through low-cost sensors that use arduino, local monitoring stations of 10 euros on average can be located in each solution to obtain real-time measurements that evaluate the benefit in temperature reduction offered by each type of solution installed in the city in relation to its area and type of vegetation. This is extrapolated to do simulations.
Air quality and CO2 capture:
CO2 measurement captured by a green roof by taking a sample of the type of vegetation implanted, after 12 months of use and performing laboratory analysis to measure gain in organic content. Extrapolate according to your area.
Calculation of the capture capacity according to the type of tree, the age and the diameter of its trunk. Extrapolate according to the number of trees in the area of ​​the solution to simulate or in the implemented solution.
Air quality measurement with low cost sensors.
Use of citizens: A social analysis and online survey of the users of these areas where the solutions are implemented are carried out to see the perceptions of the citizens in relation to each type of solution.
Observed Biodiversity: Monthly workshops / events are held to assess the type of biodiversity using an Entomological Network as is currently carried out by the association Des Espèces Parmi'Lyon in the city of Lyon.