%0 Journal Article %K CFL %K Learning curve %K Experience curve %A Sarah Josephine Smith %A Max Wei %A Michael D Sohn %B Energy Policy %D 2016 %G eng %P 505 - 512 %R 10.1016/j.enpol.2016.09.023 %T A retrospective analysis of compact fluorescent lamp experience curves and their correlations to deployment programs %V 98 %8 11/2016 %! Energy Policy %X
Experience curves are useful for understanding technology development and can aid in the design and analysis of market transformation programs. Here, we employ a novel approach to create experience curves, to examine both global and North American compact fluorescent lamp (CFL) data for the years 1990–2007. We move away from the prevailing method of fitting a single, constant, exponential curve to data and instead search for break points where changes in the learning rate may have occurred. Our analysis suggests a learning rate of approximately 21% for the period of 1990–1997, and 51% and 79% in global and North American datasets, respectively, after 1998. We use price data for this analysis; therefore our learning rates encompass developments beyond typical “learning by doing”, including supply chain impacts such as market competition. We examine correlations between North American learning rates and the initiation of new programs, abrupt technological advances, and economic and political events, and find an increased learning rate associated with design advancements and federal standards programs. Our findings support the use of segmented experience curves for retrospective and prospective technology analysis, and may imply that investments in technology programs have contributed to an increase of the CFL learning rate.