built environment

There is a pressing need for large-scale energy retrofits in domestic dwellings to reduce carbon emissions. However, these retrofit strategies must be carefully balanced against the embodied carbon, operational energy, and indoor environmental quality in dwellings. This research aims to analyse the implications of indoor environmental quality arising from energy retrofit scenarios in the Irish context. Building physics simulations will determine a range of pre and post-energy retrofit scenarios and address the implications under various scenarios.

The ingress of naturally occurring radioactive radon gas from the soil into buildings can occur both by convection through any openings in the foundations as a result of pressure differentials and by diffusion across an airtight barrier (World Health Organization 2009). Residential ventilation systems and exhaust devices can affect indoor radon concentrations if they result in depressurization of the conditioned spaced relative to the outdoors or to the soil below the foundations or if they supply outdoor air directly.

In Six Degrees: Our Future on a Hotter Planet, Mark Lynas describes possible world scenarios as global temperatures rise. The central region of Brazil, where Brasília is located, will suffer major changes in its microclimate.Brasília's built environment has already provided a comfortable indoor and outdoor condition through planned urban design and vegetation.

In naturally ventilated environments, indoor temperatures are directly related to the air circulation and conditions of the built environment. Taking natural ventilation as an important comfort source, our aim in this work is to evaluate the design plan interference - in this case, wall shape - on the potential of indoor air circulation to a specific building environment. Indoor air circulation improvements for some simple wall modifications to the original specific plan are analyzed.