What really matters in multi-story building design?

in civil •  2 years ago 

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Using a computer model, researchers estimate that up to six gigatonnes of carbon could be saved by 2050 if new multi-storey buildings follow certain recommendations during the design process. All these recommendations, which could also save between 28 and 44% of annual heating and cooling costs, use technology that is currently available.

Construction and operation of buildings account for more than one-third of global emissions and energy use. While buildings are a large part of the current problem, they are also a significant lever for change, say researchers from the Universities of Cambridge and Bath, who explored the decisions architects, engineers and urban planners must negotiate. For their study, the researchers looked at shape, size, layout, structural system, windows, insulation, ventilation, and use parameters, for both residential and office buildings, across different climates.

The researchers built a model that allowed them to estimate, for the first time, the relative importance of these early-stage design decisions in a whole building context. Their findings are reported in the journal Applied Energy.

The study found that increasing building compactness, using steel or timber instead of concrete frames, smaller windows with the optimal glazing for a given climate, and using mechanical ventilation with heat recovery, are the best way to decrease embodied emissions and operational energy. The most significant effects on construction costs meanwhile, were the choice of frame material and whether to install mechanical ventilation.

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What determines embodied carbon?

For both residential and office buildings, the choice of structural frame type has a large effect on both embodied carbon -- the amount of carbon emitted by the construction of a building -- and cost. The researchers found that cheaper frame types tend to be more carbon intensive and vice versa, pointing to a significant trade-off. In comparison, the lowest carbon solutions are cross-laminated timber floor slabs with laminated beams or steel frames. Meanwhile, as the number of storeys increases, so do the embodied carbon values.

The choice of cladding is also a significant factor, with brick cladding leading to significantly higher embodied carbon and cost compared to lighter sheet or tile cladding options. This has a knock-on effect, with further increases in material quantities needed for a structural frame to support the higher cladding loads. Brick clad buildings -- which are still widely popular in the UK -- were found to be up to 20% more carbon intensive and 15% more expensive than sheet or tile clad buildings.

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What determines operational energy?

For temperate climates, such as that of London, a building's shape and its window configurations are the most impactful design decisions for heating and cooling.

For the tropical climates of Singapore or Lagos however, high humidity and high temperatures mean there is a reliance on cooling. The more occupants within the building, the more cooling energy is needed to dehumidify incoming air.

In the hot and arid climate of Cairo, decisions about window-to-wall ratios are critical. The more windows there are, the more the building heats up through solar radiation. The researchers found that smaller windows and a lower solar heat gain coefficient (the fraction of solar radiation admitted through a window) has more influence on the efficiency of office buildings than it does on residential buildings. This is due to the former having a larger number of occupants and heat-emitting appliances.

By examining the influence of climate on the sensitivity of building design variables, the researchers found that it is much more challenging to reduce energy use in hot and humid climates than in cold and moderate climates.

The use of mechanical ventilation with heat recovery is one of the most important levers to decrease heating and cooling energy, say the researchers, especially for office buildings in hot, humid, and cold climates. The ventilation choice comes with higher upfront costs, but it is a trade-off that the researchers feel should be a central consideration in building design, especially in light of climate change, which already disproportionally affects developing countries and which will inevitably push more of the world's population into hotter climates.

Lead author Dr Hannes Gauch, Research Associate in Embodied Energy/Emissions of Construction at the Department of Engineering, University of Cambridge, said: "It was surprising to us that insulation thickness and thermal mass, which are usually given a lot of consideration by building designers and researchers, are minor factors in determining the efficiency of a building. Choosing lightweight cladding over brick, for example, has a much more significant impact. Our findings show that to design low carbon buildings we need to focus on efficient shapes (boxy) and structural frames (shorter spans, more timber), limit window sizes, and employ ventilation with heat recovery."

civil engineering, civilengineering, aviation

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