Abstract:
Daylight and access to outside views are key factors to improve the healing environment for
patients in the intensive care unit (ICU), which decreases the incidence of delirium. This is
essential as well to provide appropriate working conditions for healthcare providers. Besides the
geographic location, daylight in any space is mainly affected by five parameters: window
orientation, window level, window to wall ratio, light reflectance value of the inner surfaces of the
walls and the used shading device. This study aims to assess the conditions of the ICUs in the
Palestinian hospitals in terms of providing daylight and access to view, by analyzing the ICUs’
plans and making field visits to take observations and daylight measurements. Furthermore,
interviews were conducted with the medical staff to describe their satisfaction, observation and
patients’ complaints. The study also extends to optimize the parameters affecting daylight to
achieve the optimal daylighting while minimizing the heating and cooling loads without restricting
patients’ access to view, through conducting a multi-objective optimization using DesignBuilder
simulation tool, and to use the results to modify the current designs of the studied ICUs. The study
found that the ICU designs in Palestine do not deliver adequate daylight and access to view for
patients. The results of the optimization phase show differences in the optimum values of the
window to wall ratio, window level and the shading devices specifications according to the type
of the patient area and the orientation scenario. While it was found that the south is the optimum
orientation and 0.9 is the optimum light reflectance value of the indoor surfaces. Furthermore, the
study found that there is a high potential for enhancement of the current ICUs that have shallowplan
layouts using the optimization results.
Description:
CD , no of pages 138, 31076 ,معماري 1/2020