Niko Gentile scite author profile

Indoor lighting is facing a massive retrofit to LED lighting. Research is needed to assess whether LED-based lighting can promote energy efficiency, boost visual comfort and support biological functions. This field study considered the lighting of four identical classrooms in an upper secondary school in Helsingborg, Sweden. Two classrooms were fitted with state-of-the-art ceiling pendants containing T5 fluorescent tubes and that had a direct/indirect light distribution (the control rooms). The other two classrooms were fitted with an experimental LED indirect lighting system (the experimental rooms). In the classrooms, 72 students aged 17–18 years performed their usual educational activities over a whole academic year. The light environment, electricity consumption, and students’ mood, light perception and saliva cortisol concentration were monitored. The two lighting systems produced only marginal differences. Overall, the experimental rooms were slightly preferred but achieved only small energy savings due to high parasitic losses.

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Retrofitting the Electric Lighting and Daylighting Systems to Reduce Energy Use in Buildings: A Literature Review

Dubois¹,

Bisegna²,

Gentile³

et al. 2015

Energy Research Journal

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This paper presents a literature review about energy-efficient retrofit of electric lighting and daylighting systems in buildings. The review, which covers around 160 research articles, addresses the following themes: (1) retrofitting electric lighting in buildings, (2) electric lighting energy use and saving potential and (3) lighting retrofit strategies. The retrofit strategies covered in the review are: replacement of lamp, ballast or luminaire; use of task-ambient lighting design; improvement in maintenance; reduction of maintained illuminance levels; improvement in spectral quality of light sources; improvement in occupant behavior; use of control systems; and use of daylighting systems. The review indicates that existing general knowledge about lighting retrofit is currently very limited and that there is a significant lack of information concerning the actual energy performance of lighting systems installed in the existing building stock. The resulting key directions for future research highlights issues for which a better understanding is required for the spread and development of lighting retrofit.

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Lighting control systems in individual offices rooms at high latitude: Measurements of electricity savings and occupants’ satisfaction

2016

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Lighting Energy Saving with Light Pipe in Farm Animal Production

Wachenfelt

Vakouli

Diéguez

et al. 2015

Journal of Daylighting

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Daylight harvesting control systems design recommendations based on a literature review

Gentile

Dubois

Laike

2015

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Performance Evaluation of Lighting and Daylighting Retrofits: Results from IEA SHC Task 50

et al. 2016

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A toolbox to evaluate non-residential lighting and daylighting retrofit in practice

Gentile

Dubois

Osterhaus

et al. 2016

Energy and Buildings

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Field data and simulations to estimate the role of standby energy use of lighting control systems in individual offices

Gentile

Dubois

2017

Energy and Buildings

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Niko Gentile

A field study of fluorescent and LED classroom lighting

Retrofitting the Electric Lighting and Daylighting Systems to Reduce Energy Use in Buildings: A Literature Review

Lighting control systems in individual offices rooms at high latitude: Measurements of electricity savings and occupants’ satisfaction

Lighting Energy Saving with Light Pipe in Farm Animal Production

Daylight harvesting control systems design recommendations based on a literature review

Performance Evaluation of Lighting and Daylighting Retrofits: Results from IEA SHC Task 50

A toolbox to evaluate non-residential lighting and daylighting retrofit in practice

Field data and simulations to estimate the role of standby energy use of lighting control systems in individual offices

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