About 40 per cent of the global population live in coastal areas less than 100km from the ocean, facing climate challenges such as rising sea levels, heavy rainfall and extreme flooding. This causes loss and damage of $40 billion annually. According to the UN’s Sendai Framework for Disaster Risk Reduction, between 2002 and 2012, 700,000 people died, more than 1.4 million were injured and about 23 million were made homeless as a result of such disasters. In Bangladesh, about 45 million people live in areas where extreme cyclones frequently destroy homes and livelihoods. After interviewing a woman there who lost a child in a flood and was then abandoned by her husband, I wanted to address the problem practically. And that is how Dream Homes, the Dundee University project that has just won the UN’s prestigious Risk Award, was born. In communities that are vulnerable to storm disasters, people have few choices. They are not willing to abandon their homes and move to emergency shelters because they risk losing their livelihood, although often they have no choice if everything is destroyed. Disasters also restrict access to food, water, electricity, and other necessities. So our plan was to design resilient floating homes that would enable families to survive in the aftermath of extreme flooding while producing food, water and energy, and also provide sustainable ways to make a living.

Prototypes and partnerships


We designed and built three 196m2 prototype homes for $12,000 each in the pilot phase of the project, which was funded by the Global Resilience Partnership in conjunction with the Centre for Climate Change and Environmental Research (C3ER) at BRAC University in Dhaka, Bangladesh. Crucially, the homes were co-designed by local people in an inclusive effort to empower disadvantaged families. All through the design and construction process we held workshops to find out what people needed most in home that would not sit on land. For adults this included a central 'courtyard' space, for example, and for children, a space to play in. Through close collaboration we were able to make the best use of local materials and integrate traditional building methods with our own technologies and innovations. This input not only improved the structural designs but ensured a sense of ownership of the project in local people afterwards. Each home was built over a 40-tonne buoyant platform which acts as a raft, allowing the house to rise vertically above floodwater by sliding on two guideposts. The structure can withstand category three cyclones, medium-level earthquakes and riverbank erosion. [caption id="attachment_50974" align="alignright" width="600"] Local people were brought into the design and construction process. Douglas Vercohl/GRP, Author provided.[/caption] The homes have the capacity to hold 17,000 litres of fresh drinking harvested from rainwater which can supply the domestic water demands of a family for six months. There is room to keep chickens in an enclosure and vegetables can be grown vertically in soil pouches, and in an aquaponic system without soil, so that an income can be earned through selling eggs and produce. An innovative sanitation system called a bio-digestor converts all the waste from the kitchen, toilet and chicken coop to generate methane gas that can be used for cooking fuel. So the home doesn’t pollute the surrounding environment, and good standards of hygiene can be maintained.

Poverty and vulnerability


The desolate woman who lost her child made me understand how risk evolves from multiple climate disasters and extends suffering through a series of knock-on effects. But the problem is not actually risk, but rather the inability to manage risk. Poverty erodes people’s ability to adapt to multiple risks in their lives. Plus diminishing natural resources and social and economic inequalities all serve to increase their vulnerability. Our flood-resilient homes are designed to help people find ways to manage the risks of sea-level rise, storm surge and salinisation (when saltwater intrudes on inland water and soil). [caption id="attachment_50975" align="alignright" width="600"] Vegetables can be grown in vertical gardens to save space. Douglas Vercohl/GRP, author provided.[/caption] These homes will allow people to continue making a living after a flood with adequate access to food, water and energy – the things that enable communities to think beyond immediate survival, continue to make a living and utilise resources to improve their situation. Above all we understood from our discussions with local people that this should be a home – not a house. Home equals safety, family, the place that provides security, a sense of identity and belonging, and a feeling of pride. For the future we plan to use the €100,000 prize money to bring the project to scale in the flood-prone river basins and deltas of Bangladesh. And we will continue our research to bring the cost down by half, making these sustainable and affordable homes even more accessible to rural communities all around the world. Author: Nandan Mukherjee, PhD candidate, geography and environmental science, University of Dundee. This article was originally published in The Conversation. Read the original article here.