Many analyses have referred to industrial productivity benefits associated
with energy efficiency that are at least as great or larger than the energy
benefits. If plants with higher energy intensity also tend to have lower p
roductivity, then energy policy needs to consider this. This study examines
this issue for two segments of the glass industry, using plant level data
from the Census Bureau. Productivity is defined by the difference in 'best
practice' production efficiency, as measured by data envelopment analysis (
DEA). This study uses regression analysis to estimate how differences in pl
ant level electricity and fossil fuel intensity, i.e. energy use per unit o
f production, are attributable to differences in plant level productivity a
nd other economic variables, like energy prices and cumulative production.
In every case, productivity differences between plants are statistically si
gnificant in explaining differences in plant energy intensity. The coeffici
ent that links productivity to energy efficiency yields a less than proport
ional impact for only one industry and fuel type. For others the relationsh
ip is implies that a 1% increase in productivity increase energy efficiency
by more than 1%. This effect is statistically significant for flat glass,
but not container glass. The estimates of the price and learning-by-doing c
oefficients seem reasonable, but without imposing the assumption that all p
lants in the industry are equally productive. This lends further credence t
o a significant relationship between productivity and energy efficiency. (C
) 2000 Elsevier Science Ltd. All rights reserved. JEL classification: L61;
O30; Q20.