Abstract
ABSTRACTResource scarcity, hazardous waste, and climate change are the driving forces for developing energy efficient and low-toxic lighting sources. Currently, solid state lighting based on light-emitting diodes is expected to become the most dominant lighting technology of the future, mostly driven by its advantage with respect to energy efficiency. Parallel to the ongoing development of light-emitting diode-based lighting sources, a number of single case and comparative life cycle assessment studies of LED-lamps and components in varying study settings were carried out. However, these studies mostly rely to specific lamp designs, which limits general conclusions. This work includes a summary of the global market of lighting and LED-lamp technologies, followed by a comprehensive review and comparison of published life cycle assessment studies. In addition, we take also some aspects, which are relevant for the well-being of an end-user and which are usually not treated in life cycle assessment studies, like glare and health issues, into consideration. A critical interpretation of the assumptions and outcomes of these studies is given and questions that remain unsettled and therefore should be addressed in future studies are discussed.
Highlights
IntroductionEstimates of the economic global market share of LED-lamps in the general lighting sector vary between 31% (LEDinside, 2014) and 45% (McKinsey and Company, 2012) for the period 2015/2016
High-power LED-lamps have been on the market for more than 10 years
In the European Union (EU), the gradual replacement of incandescent lamps by compact fluorescent lamps (CFL) and by LED-lamps was enforced by the EU household lamp regulation
Summary
Estimates of the economic global market share of LED-lamps in the general lighting sector vary between 31% (LEDinside, 2014) and 45% (McKinsey and Company, 2012) for the period 2015/2016. The comparison of the luminous efficacies of incandescent lamps (10–20 lm/W) and high-power LED-lamps (> 60 lm/W) obviously shows the theoretical energy saving effect in the using phase. This was confirmed over the full life cycle in a number of life cycle assessment (LCA) studies for these lamp types (IEA, 2014; Navigant, 2009; Osram, 2009)
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