Abstract

Research have shown that the correct integration of daylight and electric lighting reduces the energy use in buildings, while improving visual comfort. Smart shading systems, especially those electrically controlled, play an important role to control solar radiation. Similarly, smart and dimmable/tunable lighting can help to adjust the artificial light to the real users’ needs. This paper presents preliminary results of an ongoing living lab study investigating how artificial lighting systems can be integrated with shading systems, placing human comfort at the heart of the study and yet saving energy. A manually controlled, commercial and low-cost smart system integrating two motorized shading devices and six dimmable LED luminaires with a different selection of CCT were installed in a private office in a historical building. Indoor and outdoor lighting conditions and energy consumption associated to the lighting system are constantly monitored to assess how the people use shading and lighting upon varying the boundary conditions.. Preliminary results highlight that users prefer to maximise daylight on the work plane as well as they generally use both shading and electric lighting systems in response to boundary conditions that cause serious discomfort.

Highlights

  • A proper combination of daylighting and electric lighting strategies can help to increase the energy efficiency of buildings and the users’ satisfaction [1]

  • This paper presents preliminary results of an ongoing living lab study investigating how artificial lighting systems can be integrated with shading systems, placing human comfort at the heart of the study and yet saving energy

  • A manually controlled, commercial and low-cost smart system integrating two motorized shading devices and six dimmable LED luminaires with a different selection of Correlated Colour Temperatures (CCT) were installed in a private office in a historical building

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Summary

Introduction

A proper combination of daylighting and electric lighting strategies can help to increase the energy efficiency of buildings and the users’ satisfaction [1]. A correct retrofit measure in historical buildings should account for two issues: the choice of the appropriate integrated system and the proper control methods of shading and electric lighting systems. In regards to the first issue, the Italian legislation [10,11] must be considered Such legislative framework excludes historical and architectural heritage from energy retrofitting to safeguard their integrity. This means that not all retrofit measures are eligible for historical buildings.

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