Aiming at developing more thermally comfortable and energy efficient buildings,
some studies have been advocating using traditional architecture’s passive design strategies.
Among the rarely investigated architectural elements to achieve this objective in cold climates
is the courtyard space. This environmental element, in most cases, has been examined and
suggested for hot conditions. However, some studies have shown indications of its potential
environmental efficiency in cold conditions as well. In principle, courtyards enable having
sheltered outdoor spaces to regulate indoor spaces’ interaction with the outdoor climate instead
of having them outward oriented to directly face outdoor conditions. This research aims to
determine whether this thermal performance of courtyards can be positive in cold conditions as
it is in hot conditions, for instance, through protecting buildings from cold winds. To achieve
this objective, the research conducted simulation experiments to determine the thermal
conditions of 360 different courtyards and compared them with a typical modern urban outdoor
space’s conditions. If the courtyard space offers a warmer environment than modern urban
outdoor spaces, then it might lead to a wider positive impact on buildings’ thermal conditions
and energy consumption. The used simulation tool to conduct the simulation experiments is
Envi-met 4.2, which has been widely used and validated by previous simulation studies. The
tested courtyard forms are of different geometric configurations to show a wide range of possible
conditions in courtyards. The simulation was done for Baghdad, in which courtyards have been
widely used for centuries. This city has a hot summer, but its winter temperature is between 0°C
and 12°C. The Globe Temperature was used to determine peoples’ thermal sensation. Its value
includes the impact of air velocity, radiation and air temperature, which makes it representing
people’s actual thermal sensation properly. The results showed that courtyards offer higher
Globe Temperature than modern urban spaces in cold conditions, mainly, through protecting
buildings and occupants from winds. The air velocity inside courtyards can be one-tenth of air
velocity in a modern urban outdoor space. The geometric properties of courtyards significantly
affect courtyards’ thermal conditions. These results indicate that the courtyard space can be more
thermally efficient than modern urban spaces even in cold climate conditions. However, its
geometric properties need to be properly considered to have its highest possible thermal
efficiency. Otherwise, the courtyard might lose its efficient thermal performance