A review of assessment methods for the urban environment and its energy sustainability to guarantee climate adaptation of future cities
(2019) In Renewable and Sustainable Energy Reviews 112. p.733-746- Abstract
The current climate change is calling for a drastic reduction of energy demand as well as of greenhouse gases. Besides this, cities also need to adapt to face the challenges related to climate change. Cities, with their complex urban texture and fabric, can be represented as a diverse ecosystem that does not have a clear and defined boundary. Multiple software tools that have been developed, in recent years, for assessment of urban climate, building energy demand, the outdoor thermal comfort and the energy systems. In this review, we, however, noted that these tools often address only one or two of these urban planning aspects. There is nonetheless an intricate link between them. For instance, the outdoor comfort assessment has shown... (More)
The current climate change is calling for a drastic reduction of energy demand as well as of greenhouse gases. Besides this, cities also need to adapt to face the challenges related to climate change. Cities, with their complex urban texture and fabric, can be represented as a diverse ecosystem that does not have a clear and defined boundary. Multiple software tools that have been developed, in recent years, for assessment of urban climate, building energy demand, the outdoor thermal comfort and the energy systems. In this review, we, however, noted that these tools often address only one or two of these urban planning aspects. There is nonetheless an intricate link between them. For instance, the outdoor comfort assessment has shown that there is a strong link between biometeorology and architecture and urban climate. Additionally, to address the challenges of the energy transition, there will be a convergence of the energy needs in the future with an energy nexus regrouping the energy demand of urban areas. It is also highlighted that the uncertainty related to future climatic data makes urban adaptation and mitigation strategies complex to implement and to design given the lack of a comprehensive framework. We thus conclude by suggesting the need for a holistic interface to take into account this multi-dimensional problem. With the help of such a platform, a positive loop in urban design can be initiated leading to the development of low carbon cities and/or with the use of blue and green infrastructure to have a positive impact on the mitigation and adaptation strategies.
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- author
- Mauree, Dasaraden ; Naboni, Emanuele ; Coccolo, Silvia ; Perera, A. T.D. ; Nik, Vahid M. LU and Scartezzini, Jean Louis
- organization
- publishing date
- 2019
- type
- Contribution to journal
- publication status
- published
- subject
- keywords
- Built environment, Climate adaptation, Energy systems, Integrated assessment, Outdoor comfort, Sustainability, Urban mitigation strategies, Urban modelling tools
- in
- Renewable and Sustainable Energy Reviews
- volume
- 112
- pages
- 14 pages
- publisher
- Elsevier
- external identifiers
-
- scopus:85067410016
- ISSN
- 1364-0321
- DOI
- 10.1016/j.rser.2019.06.005
- language
- English
- LU publication?
- yes
- id
- f2562f2b-636b-478d-a4a0-b6c6de896861
- date added to LUP
- 2019-06-26 12:09:36
- date last changed
- 2022-04-26 02:12:14
@article{f2562f2b-636b-478d-a4a0-b6c6de896861, abstract = {{<p>The current climate change is calling for a drastic reduction of energy demand as well as of greenhouse gases. Besides this, cities also need to adapt to face the challenges related to climate change. Cities, with their complex urban texture and fabric, can be represented as a diverse ecosystem that does not have a clear and defined boundary. Multiple software tools that have been developed, in recent years, for assessment of urban climate, building energy demand, the outdoor thermal comfort and the energy systems. In this review, we, however, noted that these tools often address only one or two of these urban planning aspects. There is nonetheless an intricate link between them. For instance, the outdoor comfort assessment has shown that there is a strong link between biometeorology and architecture and urban climate. Additionally, to address the challenges of the energy transition, there will be a convergence of the energy needs in the future with an energy nexus regrouping the energy demand of urban areas. It is also highlighted that the uncertainty related to future climatic data makes urban adaptation and mitigation strategies complex to implement and to design given the lack of a comprehensive framework. We thus conclude by suggesting the need for a holistic interface to take into account this multi-dimensional problem. With the help of such a platform, a positive loop in urban design can be initiated leading to the development of low carbon cities and/or with the use of blue and green infrastructure to have a positive impact on the mitigation and adaptation strategies.</p>}}, author = {{Mauree, Dasaraden and Naboni, Emanuele and Coccolo, Silvia and Perera, A. T.D. and Nik, Vahid M. and Scartezzini, Jean Louis}}, issn = {{1364-0321}}, keywords = {{Built environment; Climate adaptation; Energy systems; Integrated assessment; Outdoor comfort; Sustainability; Urban mitigation strategies; Urban modelling tools}}, language = {{eng}}, pages = {{733--746}}, publisher = {{Elsevier}}, series = {{Renewable and Sustainable Energy Reviews}}, title = {{A review of assessment methods for the urban environment and its energy sustainability to guarantee climate adaptation of future cities}}, url = {{http://dx.doi.org/10.1016/j.rser.2019.06.005}}, doi = {{10.1016/j.rser.2019.06.005}}, volume = {{112}}, year = {{2019}}, }