Comparing World Economic and Net Energy Metrics, Part 2: Total Economy Expenditure Perspective

Comparing World Economic and Net Energy Metrics, Part 2: Total Economy Expenditure Perspective

We translate between energetic and economic metrics that characterize the role of energy in the economy. Specifically, we estimate monetary expenditures for the primary energy and net external power ratio (NEPR direct...

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Main Authors: Carey W. King, John P. Maxwell, Alyssa Donovan
Format: Article
Language:English
Published: MDPI AG 2015-11-01
Series:Energies
Subjects:
energy
net energy
economics
cost share
input-output
transition
Online Access:http://www.mdpi.com/1996-1073/8/11/12347
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spelling doaj-b83395de29a840dcb439f9b1252850282020-11-24T22:31:25ZengMDPI AGEnergies1996-10732015-11-01811129751299610.3390/en81112347en81112347Comparing World Economic and Net Energy Metrics, Part 2: Total Economy Expenditure PerspectiveCarey W. King0John P. Maxwell1Alyssa Donovan2Energy Institute, the University of Texas at Austin, 2304 Whitis Ave, C2400, Austin, TX 78712, USASenate Fiscal Agency, P.O. Box 30036 Lansing, MI 48909-7536, USAJackson School of Geosciences, the University of Texas at Austin, 2275 Speedway, C9000, Austin, TX 78712, USAWe translate between energetic and economic metrics that characterize the role of energy in the economy. Specifically, we estimate monetary expenditures for the primary energy and net external power ratio (NEPR direct ; NEPR, net external power ratio), a power return ratio of annual energy production divided by annual direct energy inputs within the energy industry. We estimate these on an annualized basis for forty-four countries from 1978 to 2010. Expressed as a fraction of gross domestic product (GDP), f e , GDP , the forty-four country aggregate (composing >90% world GDP) worldwide expenditures on energy decreased from a maximum of 10.3% in 1979 to a minimum of 3.0% in 1998 before increasing to a second peak of 8.1% in 2008. While the global f e , GDP fluctuates significantly, global NEPR direct declined from a value of 34 in 1980 to 17 in 1986 before staying in a range between 14 and 16 from 1991 to 2010. In comparing both of these metrics as ratios of power output over power input, one economic ( f e , GDP - 1 ) and one biophysical (NEPR direct ), we see that when the former divided by the latter is below unity, the world was in a low-growth or recessionary state.http://www.mdpi.com/1996-1073/8/11/12347energynet energyeconomicscost shareinput-outputtransition
collection DOAJ
language English
format Article
sources DOAJ
author Carey W. King
John P. Maxwell
Alyssa Donovan
spellingShingle Carey W. King
John P. Maxwell
Alyssa Donovan
Comparing World Economic and Net Energy Metrics, Part 2: Total Economy Expenditure Perspective
Energies
energy
net energy
economics
cost share
input-output
transition
author_facet Carey W. King
John P. Maxwell
Alyssa Donovan
author_sort Carey W. King
title Comparing World Economic and Net Energy Metrics, Part 2: Total Economy Expenditure Perspective
title_short Comparing World Economic and Net Energy Metrics, Part 2: Total Economy Expenditure Perspective
title_full Comparing World Economic and Net Energy Metrics, Part 2: Total Economy Expenditure Perspective
title_fullStr Comparing World Economic and Net Energy Metrics, Part 2: Total Economy Expenditure Perspective
title_full_unstemmed Comparing World Economic and Net Energy Metrics, Part 2: Total Economy Expenditure Perspective
title_sort comparing world economic and net energy metrics, part 2: total economy expenditure perspective
publisher MDPI AG
series Energies
issn 1996-1073
publishDate 2015-11-01
description We translate between energetic and economic metrics that characterize the role of energy in the economy. Specifically, we estimate monetary expenditures for the primary energy and net external power ratio (NEPR direct ; NEPR, net external power ratio), a power return ratio of annual energy production divided by annual direct energy inputs within the energy industry. We estimate these on an annualized basis for forty-four countries from 1978 to 2010. Expressed as a fraction of gross domestic product (GDP), f e , GDP , the forty-four country aggregate (composing >90% world GDP) worldwide expenditures on energy decreased from a maximum of 10.3% in 1979 to a minimum of 3.0% in 1998 before increasing to a second peak of 8.1% in 2008. While the global f e , GDP fluctuates significantly, global NEPR direct declined from a value of 34 in 1980 to 17 in 1986 before staying in a range between 14 and 16 from 1991 to 2010. In comparing both of these metrics as ratios of power output over power input, one economic ( f e , GDP - 1 ) and one biophysical (NEPR direct ), we see that when the former divided by the latter is below unity, the world was in a low-growth or recessionary state.
topic energy
net energy
economics
cost share
input-output
transition
url http://www.mdpi.com/1996-1073/8/11/12347
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AT johnpmaxwell comparingworldeconomicandnetenergymetricspart2totaleconomyexpenditureperspective
AT alyssadonovan comparingworldeconomicandnetenergymetricspart2totaleconomyexpenditureperspective
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