Circular Economy in Emergency Housing: Eco-Efficient Prototype Design for Suba i Refugee Camp in Turkey and Maicao Refugee Camp in Colombia

In recent years, there has been an upsurge in the number of forced displacements due to natural disasters, armed conflicts, and pandemics, which has favoured an increase in the number of temporary accommodations. Although the provision of shelter after an emergency situation is one of the priorities of humanitarian aid, the reality is that the conditions in which people live in a situation of forced displacement are absolutely precarious and overcrowded. Nowadays, this type of housing tends to have a short lifespan, deepening the environmental impact and the generation of waste. Likewise, added to this great problem is the linear economic system implemented worldwide, which also causes a high rate of waste. This investigation develops an eco-efficient design protocol that determines the basic premises in any emergency situation, therefore avoiding the precarious nature to which those in forced displacement are exposed. Moreover, the research investigates different constructive solutions that can respond to situations of natural catastrophes or humanitarian disasters where emergency housing is needed as well as the possible alternatives from the point of view of circular economy. Eco-efficient and environmentally correct solutions are sought, which can be adaptable to the different scenarios where emergency housing may be needed, thus creating a rapid, easy, functional, and environmentally correct architecture, adaptable to these types of situations. The study shows that the factors that characterize emergency architecture can be an example of where the issues around the sustainability factor are applied in a practical way. The main objectives of this study are to develop an eco-efficient design protocol which determines the basic premises in any emergency situation and to find eco-efficient and environmentally correct solutions, adaptable to different scenarios, which have similar climatic characteristics, and where emergency housing may be needed, thus creating a type of ephemeral architecture but sensitive to the user to whom it is intended and in accordance with the optimal conditions of habitability.

Establishes the sustainability criteria in the materials for emergency housing. Presents a solution that merges the necessity of emergency housing and circular economy standards Includes an exhaustive and universal eco-efficient design protocol for emergency housing

Auteur

Pilar Mercader-Moyano is a PhD architect and professor in the Department of Building Construction I at the Higher Technical School of Architecture of University of Seville, where she also works as Deputy Director of Quality and Sustainable Habitat. Pilar has directed the six editions of the Eco-efficient Refurbishment of Buildings and Neighbourhoods Master of the University of Seville and the five editions of the International Congress on Sustainable Construction and Eco-efficient Solutions (CICSE). Furthermore, in 2010, she completed his doctorate in the field of quantifying CO2 emissions and energy consumption in construction as a climate change mitigation strategy. Pilar has also directed numerous research projects, teaching innovation projects and knowledge transfer projects to society, currently leading the European Erasmus+ NANOER project.

Paula Porras-Pereira is an architect and assistant researcher in the Department of Building Construction I at the Higher Technical School of Architecture of University of Seville. She obtained his Bachelor's degree in Fundamentals of Architecture in 2020 and her Master in Architecture in 2022, both from the Higher Technical School of Architecture of Seville, in Spain. Moreover, Paula obtained her Master in BIM Manager for Project Management & Lean Construction from the University of Pablo de Olavide, in Seville. Her past academic appointments include assistant in the Department of Building Construction I at the Higher Technical School of Architecture of Seville and researcher at Ümea University in eco-efficient emergency housing in Sweden, Greece and Turkey.

Contenu

Chapter 1. Introduction.- Chapter 2. Materials and Methods.- Chapter 3. Identification of the Problem.- Chapter 4. Identification of the Minimum Habitability Conditions.- Chapter 5. Analysis of Contemporary Emergency Housing.- Chapter 6. Definition of the Sustainability Criteria in the Materials Used: Cradle-to-Cradle Certified Products.- Chapter 7. Results and Discussion.- Chapter 8. Conclusions.

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