Zero Carbon Transport, Smart Cities, and Built Environments Research Centre

Working with public sector organisations, large and small businesses, consultants, and national and international research partners, The Zero Carbon Transport, Smart Cities and Built Environments Research Centre is helping to develop simulation tools and sustainable design techniques.

As well as meeting new building industry regulations, these tools and techniques are contributing more widely to efforts to reduce CO2 emissions, address climate change and meet health and safety requirements. Our research is also helping to develop sustainable materials to address issues such as overheating in care homes.

The work of our researchers is reaching a global audience through a variety of academic publications, including: Physica, Energy and Buildings, Energy Conversion and Management, Sustainable Cities and Society, Tunnelling and Underground Space Technology, and the International Journal of Rock Mechanics and Mining Sciences. 

Our aims

About 50% of the annual energy consumption on Earth is attributed to the operation of buildings to maintain a high quality of human living standards. Designing environmentally friendly and healthy structures is, generally, based in bioclimatic technologies used by engineers, people, authorities and investors.

There is significant demand for innovative research in sustainable design and engineering in order to decarbonise cities, improve human living, meet regulations and develop smart-city applications.

The focus of our Transport, Smart Cities and Built Environments Research Centre is to approach the new future city in a ‘state of the art' way. We deal with present global and local challenges in the construction industry in terms of zero carbon, regulations, climate change strategy and smart city concept.

The established Centre in the College of Science and Engineering deals in the most efficient way with innovative solutions in the Civil Engineering, Construction and Architectural Technology sectors. 

Our research

Building and urban bioclimatic design

Our researchers are investigating how buildings interact with the surrounding environment and respond to large and small changes in the climate. Using advanced planning, interior design techniques and sustainable architecture practices such as biophilic design (including nature in the design), we can address issues such as overheating, energy demand and human health and safety. 

Structural design and technology

Research into concrete healing technologies and quantitative surveying techniques is enabling us to provide solutions that will protect our land from flooding and reduce earthwork defects. This will enable the development of construction management approaches that are both environmentally friendly and financially viable.

Future and smart cities

We are using sustainable engineering principles to develop applications and technologies that will improve quality of life and reduce carbon emissions. Using advanced software, data gathering and analysis techniques, we can assess scenario-based solutions to develop the best smart designs.

Quantity surveying and commercial management

The University has invested in advanced quantity surveying technology to improve the teaching experience and high-level research. Doctoral students and academic staff are able to use high-level surveying technologies to accommodate PhD courses and consultancy. Quantity surveyors also study and investigate the financial, legal, managerial and economic aspects of project and commercial management, providing key advice on costs and contracts.

• Smart cities and grids: urban energy demand/distribution, urban water and transport infrastructure.
• Natural disasters: flooding risk, protective construction and technologies and erosion, quantity survey
• Urban and building design/construction techniques and materials: sustainable architecture and construction, sustainable and low carbon materials, quantity survey
• Building energy/energy epidemiology/renewable applications and heat storage/energy harvesting: overheating, BIM, building fabrication, human health and safety, energy poverty, renewable technologies at building scale and energy storage/harvesting

Join us

If you would like to find out more about the research in this area, join the research cluster or are applying for a PhD in this area, please contact Dr Omar Hamza for more information.