Alexander Wandl scite author profile

Waste management represents a challenge for public authorities due to many reasons such as increased waste generation following urban population growth, economic burdens imposed on the municipal budget, and nuisances inevitably caused to the environment and local inhabitants. To optimize the system from a sustainability perspective, moving the transition towards a more circular economy, a better understanding of the different stages of waste management is necessary. A review of recently developed sustainability frameworks for waste management showed that no single framework captures all the instruments needed to ultimately provide a solid basis for comprehensive analyses of the potential burdens associated with urban waste management. Bearing this limitation in mind, the objective of this research is to propose a conceptual and comprehensive sustainability framework to support decision-making in waste management of European cities. The framework comprises a combination of methods capable of identifying future strategies and scenarios, to assess different types of impacts based on a life cycle perspective, and considers the value of waste streams, the actors involved, and possible constraints of implementing scenarios. The social, economic, environmental, technical and political domains are covered, and special attention is paid to impacts affecting foremost the local population.

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Beyond urban–rural classifications: Characterising and mapping territories-in-between across Europe

Wandl

Nadin

Zonneveld³

et al. 2014

Landscape and Urban Planning

101

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A Geodesign Decision Support Environment for Integrating Management of Resource Flows in Spatial Planning

Arciniegas

Šileryté

Dąbrowski

et al. 2019

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Improving waste and resource management entails working on interrelations between different material flows, territories and groups of actors. This calls for new decision support tools for translating the complex information on flows into accessible knowledge usable by stakeholders in the spatial planning process. This article describes an open source tool based on the geodesign approach, which links the co-creation of design proposals together with stakeholders, impact simulations informed by geographic contexts, systems thinking, and digital technology—the Geodesign Decision Support Environment. Though already used for strategic spatial planning, the potential of geodesign for waste management and recycling is yet to be explored. This article draws on empirical evidence from the pioneering application of the tool to promote spatially explicit circular economy strategies in the Amsterdam Metropolitan Area.

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Amsterwarm: Mapping the landuse, health and energy-efficiency implications of the Amsterdam urban heat island

Hoeven

Wandl

2014

Building Services Engineering Research and Technology

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The Amsterwarm project investigates the urban heat island of Amsterdam, the vulnerability of its population, the energy efficiency of its buildings and landuse. A novel mapping approach provides insights into the questions of what causes the urban heat island and who will be affected by it. Landuse does affect the surface temperature. The difference between the areas in the city with the least and the greatest impervious surface coverage accounts for an average land surface temperature difference of 11.6 C per hectare. The study demonstrates furthermore that the vulnerability of people and buildings to the urban heat island effect is a local condition in which the energy efficiency of buildings, quality of life and demographic factors should all be considered in an approach that is sensitive to place. Practical application: The typological maps will allow local authorities to prioritise adaptive actions in urban planning in response to the urban heat island, an emerging climate-related challenge that has a significant impact on the comfort and health of its citizens and on the (future) energy use required for cooling buildings. Raising the albedo in those areas of the city that are dominated by impervious surface cover seems an effective adaptation strategy, suitable to a city such as Amsterdam that no longer builds on green field sites but only builds as possible within the envelope of the existing city. Improving the quality of life in neighbourhoods and the energy efficiency/climate proofing of the building stock could also be prioritised in the identified neighbourhoods.

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Alexander Wandl

Sustainable Planning of Peri-Urban Areas: Introduction to the Special Issue

A Holistic Sustainability Framework for Waste Management in European Cities: Concept Development

Beyond urban–rural classifications: Characterising and mapping territories-in-between across Europe

A Geodesign Decision Support Environment for Integrating Management of Resource Flows in Spatial Planning

Amsterwarm: Mapping the landuse, health and energy-efficiency implications of the Amsterdam urban heat island

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