BUILDING TECNOLOGY
cod. 1006425

Anno accademico 2015/16
2° anno di corso - Secondo semestre
Docente
Barbara GHERRI
Settore scientifico disciplinare
Architettura tecnica (ICAR/10)
Ambito
Per la prova finale
Tipologia attività formativa
Lingua/Prova Finale
10 ore
di attività frontali
1 crediti
sede: PARMA
insegnamento
in INGLESE

Modulo dell'insegnamento integrato: ARCHITECTURAL AND URBAN DESIGN STUDIO

Obiettivi formativi

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Prerequisiti

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Contenuti dell'insegnamento

Realising urban transformation towards sustainability and low carbon future can be easily pursued in new cities and new urban development, nonetheless the historical and established high density cities and the ancient built environment will require a substantial different types of intervention, in order to achieve reductions in GHG, to mitigate UHI effects and, consequently, to provide outdoor comfort for people.
Amidst different strategies to overcome barriers to decarbonizing cities, an effective strategy can be played by bioclimatic design and passive systems to be applied for spaces between buildings and at a precinct scale for creating low carbon, resilient cities.
Structural elements, finishing materials and green design play a significant role in improving outdoor comfort for people and in reducing urban environment carbon footprint as a whole in historical settlements.
The course aims at addressing the needs to analyze and intervene in historic districts renewal and in other consolidated public spaces, whose requirements represent one of the greatest sustainability challenge today, in order to overcome the lack of appropriate assessment tools with which to accomplish that assignment.

Programma esteso

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Bibliografia

ARUP and C40 (eds.) 2015, Climate Action in Megacities 3.0. Networking works, there is no global solution without local action, the City Leadership Initiative at University College London.
Emmanuel R.M. 2005, An Urban Approach to Climate-Sensitive Design. Strategies for the tropics, Spoon Press.
Gaitani N., G. Mihalakakou and M. Santamouris (eds.) 2007, On the use of bioclimatic architecture principles in order to improve thermal comfort conditions in outdoor spaces, Building and Environment, 42 (2007), pp. 317–324.
Gartland L. 2008, Heat Islands, Understanding and Mitigating Heat in Urban Areas, Earthscan Ltd.
Givoni B. 1998, Climate Considerations in Building and Urban Design, Van Nostrand Reinhold.
Kropp, J.P. and D. Reckien 2009, Cities and climate change: Which option do we have for a safe and sustainable future, Cities and Climate Change: Responding to an Urgent Agenda, Urban Research Symposium 2009 Marseille.
Lenzholzer S. 2012, Research and design for thermal comfort in Dutch urban squares, Resources, Conservation and Recycling, 64 (2012), pp. 39–48.
Milošovičová J. 2010, Climate-Sensitive Urban Design in Moderate Climate Zone: Responding to Future Heat Waves, Doctoral thesis, TU Berlin.
Pahl-Weber E., S. Seelig, H. Ohlenburg and N. Kuhla von Bergmann (eds.) 2013, Urban Challenges and Urban Design Approaches for Resource-Efficient and Climate-Sensitive Urban Design in the MENA Region, Technische Universität Berlin and Road, Housing & Urban Development Research Center, Tehran.
Pizarro R. 2009, Urban Form and Climate Change, in Davoudi, S., J. Crawford and A. Mehmood (eds.), Planning for climate change: Strategies for mitigation and adaptation, Earthscan Ltd.
Rauland V. 2013, Decarbonising Cities: Certifying Carbon Reduction in Urban Development, Doctoral thesis, Curtin University.

Metodi didattici

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Modalità verifica apprendimento

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Altre informazioni

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Obiettivi agenda 2030 per lo sviluppo sostenibile

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