Plataforma sobre Adaptación al Cambio Climático en España

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Urbanism and construction

Urban stormwater management in Augustenborg, Malmö

During the 1980s and 1990s, the neighbourhood of Augustenborg in Malmö was an area of social and economic decline and was frequently flooded by an overflowing drainage system. Between 1998 and 2002, the area was regenerated. The physical changes in infrastructure included the creation of sustainable urban drainage systems (SUDS), including 6 Km of water channels and ten retention ponds.

Stuttgart: combating the heat island effect and poor air quality with ventilation corridors and green-blue infrastructure

Stuttgart?s location in a valley basin, its mild climate, low wind speeds, industrial activity and high volume of traffic has made the city highly susceptible to poor air quality. Development on the valley slopes has prevented air from moving through the city, worsening air quality and contributing to the urban heat island effect. A Climate Atlas was developed for the Stuttgart region, presenting the distribution of temperature and cold air flows according to the city?s topography and land use.

Multifunctional water management and green infrastructure development in an eco-district in Rouen

The former industrial area ?Luciline? in Rouen, along the Seine river, has been profoundly re-designed into an ecodistrict covering 9 hectares in total and including both climate change adaptation and mitigation solutions. Sustainable living is the core principle of the neighbourhood re-design. Sustainability solutions are implemented in fields playing an important role in climate change adaptation and mitigation, such as energy, water, biodiversity, transport and planning.

Mainstreaming climate change adaptation into urban planning: greyfield land redevelopment in Jena (Germany)

Jena is a city of about 108,000 inhabitants and ? due to its specific geographic location ? is exposed to various climate change-related risks, whereas heatwaves are the most relevant. Climate projections for Jena expect a substantial increase of this risk in the future.

Ceramic Sustainable Urban Drainage System (LIFE CERSUDS).- Demonstration Project developed in Benicàssim (Castellón)

The European LIFE CERSUDS project (Ceramic Sustainable Urban Drainage System) is developing sustainable urban drainage systems (SUDS) that use ceramic materials of low commercial value as a filter system for construction or paving. Its main objective is to improve the capacity of cities to adapt to climate change and to promote the use of green infrastructures in their urban planning for the rehabilitation of such urban areas. To achieve this, LIFE CERSUDS has developed and implemented a sustainable urban ceramic drainage system with low environmental impact.

Use of insurance loss data by local authorities in Norway

Losses and damages related to urban flooding and storms are likely to increase due to climate change. The insurance industry can potentially play a key role in climate change adaptation by contributing to the understanding of risks associated with climate change. By sharing data on the location of insurance claims associated with extreme rainfall or storms, the insurance industry can enable better-informed adaptation planning and risk management.

Adapting to heat stress in Antwerp (Belgium) based on detailed thermal mapping

The city of Antwerp, in order to better understand the problem of heat stress, commissioned the research organization VITO to map the current and future temperatures and thermal comfort in the city. The research results indicate that the urban heat island of Antwerp exacerbates the impact of climate change on the urban population as the amount of heatwave days in the city raises twice as fast as in the rural surroundings. To tackle the problem of heat stress in the city, adaptation measures at three different scales (city-wide, local and the individual citizen) are put forth.

Living in a tree house in Torino (Italy): combining adaptation and mitigation measures to improve comfort

25 Verde is a residential building in Torino including 63 apartments (ranging from 50 to 140 square meters), which has been designed to integrate over 150 trees and other plants in the façade and on the roof to create an ideal micro-climate inside the building, while reducing air and noise pollution. The building is also well insulated from high and low outside air temperatures that respectively occur during summertime and wintertime. Energy efficiency measures used in the building address climate change adaptation needs and represent mitigation potential.

Climate-Proofing Social Housing Landscapes – Groundwork London and Hammersmith & Fulham Council

Groundwork London – an environmental regeneration charity part of the Groundwork federation - in partnership with Hammersmith and Fulham Council, received LIFE+ funding for the Climate-Proofing Social Housing Landscapes project in 2013. The project, which came to an end in September 2016, has demonstrated an integrated approach to climate adaptation in urban areas by undertaking a package of affordable, light-engineering climate change adaptation measures based around the retrofitting of blue and green infrastructure.

Climate-Proofing Social Housing Landscapes – Groundwork London and Hammersmith Fulham Council

Groundwork London – an environmental regeneration charity part of the Groundwork federation - in partnership with Hammersmith and Fulham Council, received LIFE+ funding for the Climate-Proofing Social Housing Landscapes project in 2013. The project, which came to an end in September 2016, has demonstrated an integrated approach to climate adaptation in urban areas by undertaking a package of affordable, light-engineering climate change adaptation measures based around the retrofitting of blue and green infrastructure.