A review of assessment methods for the urban environment and its energy sustainability to guarantee climate adaptation of future cities

Mauree, Dasaraden; Naboni, Emanuele; Coccolo, Silvia; Perera, A.T.D.; Nik, Vahid M.; Scartezzini, Jean-Louis

doi:10.1016/j.rser.2019.06.005

Cited by 149 publications

(47 citation statements)

References 168 publications

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“…In the future, the available computational power will rise, and, by consequence, a complete integration between different tools, exploiting the GUI of the UBEM tool, could be carried out. Especially, the heat exchange among buildings and between the buildings and the surroundings could largely improve the simulation of the building energy use itself but also the analysis regarding heat island effect and outdoor comfort conditions, both within major trend research topics [26,156]. Finally, two major trends of development for UBEM tools can be defined from the present analysis.…”

Section: Conclusion and Future Outlookmentioning

confidence: 92%

Urban building energy modeling (UBEM) tools: A state-of-the-art review of bottom-up physics-based approaches

Ferrando

Causone

Hong

et al. 2020

Sustainable Cities and Society

162

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Regulations corroborate the importance of retrofitting existing building stocks or constructing new energy-efficient districts. There is, thus, a need for modeling tools to evaluate energy scenarios to better manage and design cities, and numerous methodologies and tools have been developed. Among them, Urban Building Energy Modelling (UBEM) tools allow the energy simulation of buildings at large scales. Choosing an appropriate UBEM tool, balancing the level of complexity, accuracy, usability, and computing needs, remains a challenge for users. The review focuses on the main bottom-up physics-based UBEM tools, comparing them from a user-oriented perspective. Five categories are used: (i) the required inputs, (ii) the reported outputs, (iii) the exploited workflow, (iv) the applicability of each tool, and (v) the potential users. Moreover, a critical discussion is proposed, focusing on interests and trends in research and development. The results highlighted major differences between UBEM tools that must be considered to choose the proper one for an application. Barriers of adoption of UBEM tools include the needs of a standardized ontology, a common threedimensional city model, a standard procedure to collect data, and a standard set of test cases. This feeds into future development of UBEM tools to support cities' sustainability goals.

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Section: Conclusion and Future Outlookmentioning

confidence: 92%

Urban building energy modeling (UBEM) tools: A state-of-the-art review of bottom-up physics-based approaches

Ferrando

Causone

Hong

et al. 2020

Sustainable Cities and Society

162

View full text Add to dashboard Cite

show abstract

“…The scarcity of energy efficiency studies comparatively to the topic of indoor temperature and human health should be seen under the light of the exclusion criteria undertaken and justifies the pertinence of this study. This is not an uncommon problem, for example, Mauree et al faced also a similar issue of shortage of studies when reviewing the future implications of climate change on urban design and thermal comfort [18]. Although relevant from an energy and thermal comfort perspective, a more detailed approach to studies that monitor indoor temperature and energy consumption, but disregard its health implications, goes beyond the scope of this review, since the association to a health outcome would be lacking.…”

Section: Methodsmentioning

confidence: 99%

“…These driving forces may adversely influence relevant biomarkers for cardiovascular conditions among for elderly, such as raised blood pressure. However, the relevance of other influencing factors, such as the built environment, has been increasingly recognised in terms of physiological responses to temperature [17][18][19][20].…”

Section: Relevance Of Indoor Temperature For Health Outcomesmentioning

confidence: 99%

A Review of the Relation between Household Indoor Temperature and Health Outcomes

2020

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This paper provides a review of research that addresses the relationship between indoor temperatures and health outcomes, taking into consideration studies that focus heat or cold exposure within the household context. It aims to extend previous research by considering both indoor temperatures from existing housing, and empirical studies that focus on energy efficiency measures and subsequent health impacts. To achieve this aim, a literature review was undertaken, combining engineering and health databases. The review established that, overall, inadequate indoor temperatures are associated with poor health status, whereas energy efficiency measures have been associated to improved indoor temperatures and occupant’s health namely regarding cardiovascular, respiratory and mental health disorders. These health conditions are among the most prevalent non-communicable diseases (NCD). The review also highlighted the need for more empirical studies with an extended timeframe to deal with climate change challenges. It underlined the potential advantages of the convergence between health and energy efficiency studies, for better modelling and planning.

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“…Moreover, these weather file cannot represent extreme weather conditions which can have a large impact on the peak loads. However, it is not feasible to design the overall form of a building based on microscale recorded or simulated data for each site due to expensive and time-consuming process [14]. Thus, an approach should be defined to couple microclimate simulation with E3S Web of Conferences 1 72, 19002 (2020) NSB 2020 http://doi.org/10.1051/e3sconf/202017219002 design/optimization process of buildings at early stages of design.…”

Section: Introductionmentioning

confidence: 99%

Optimization of building form and its fenestration in response to microclimate conditions of an urban area

2020

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Designing building form in urban areas is a complicated process that demands considering a high number of influencing parameters. On the other hand, there has been an increasing trend to design highly fenestrated building envelopes for office buildings to induce higher levels of natural lighting into the workspace. This paper presents a novel optimization framework to design high-performance building form and fenestration configuration considering the impacts of urban microclimate in typical and extreme weather conditions during a thirty-year period of climate data (2010-2039). In this regard, based on the introduced technique and algorithm, the annual energy demand and thermal comfort of over 8008 eligible form combinations with eight different fenestration configurations and seven different building orientation angels were analysed in a detailed urban area to find optimal design solutions in response to microclimate conditions. Results showed that adopting the framework, annual heating, and cooling demand can be reduced by 21% and 38% while maintaining thermal comfort by taking design-based decisions at the early stages of design.

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A review of assessment methods for the urban environment and its energy sustainability to guarantee climate adaptation of future cities

Cited by 149 publications

References 168 publications

Urban building energy modeling (UBEM) tools: A state-of-the-art review of bottom-up physics-based approaches

Urban building energy modeling (UBEM) tools: A state-of-the-art review of bottom-up physics-based approaches

A Review of the Relation between Household Indoor Temperature and Health Outcomes

Optimization of building form and its fenestration in response to microclimate conditions of an urban area

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