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A report prepared for DOE by BW Research
1
This report was prepared with the assistance of BW Research
Partnership and is based on data from BW Research's Energy
Employment Index, an independently designed proprietary
survey that was not sponsored by the Department of
Energy. Neither the United States Government nor any agency
thereof, nor any of their employees, makes any warranty,
express or implied, or assumes any legal liability or
responsibility for the accuracy, completeness, or usefulness of
any information, apparatus, product, or process disclosed, or
represents that its use would not infringe privately owned
rights. Reference therein to any specific commercial product,
process, or service by trade name, trademark, manufacturer, or
otherwise does not necessarily constitute or imply its
endorsement, recommendation, or favoring by the United
States Government or any agency thereof.
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Table of Contents
Table of Contents .......................................................................................................................................... 3
Table of Figures ............................................................................................................................................. 4
Preface .......................................................................................................................................................... 6
Executive Summary ....................................................................................................................................... 7
Introduction ................................................................................................................................................ 10
Electric Power Generation & Fuels ............................................................................................................. 14
Traditional Industry Definitions .............................................................................................................. 15
Electric Power Generation and Fuels – Identifying Additional Employment .......................................... 16
1.
Agriculture and Forestry ............................................................................................................. 17
2.
Mining, Extraction, and Utility Generation ................................................................................. 18
3.
Construction ................................................................................................................................ 19
4.
Manufacturing ............................................................................................................................ 20
5.
Wholesale Trade, Distribution, and Transport ........................................................................... 20
6.
Professional and Business Services ............................................................................................. 21
Electric Power Generation and Fuels by Sub‐Technology ...................................................................... 22
Power Generation and Fuels – Workforce Characteristics ..................................................................... 23
Generation and Fuels Employment by Census Region ........................................................................... 25
Solar Electric Generation ........................................................................................................................ 28
Wind Electric Generation ........................................................................................................................ 29
Electric Power and Fuel Transmission, wholesale trade and distribution, and Storage ............................. 30
Traditional Industry Definitions .............................................................................................................. 31
Transmission, wholesale trade and distribution, and Storage – Identifying Additional Employment ... 32
1.
Utilities ........................................................................................................................................ 32
2.
Construction ................................................................................................................................ 33
3.
Manufacturing ............................................................................................................................ 33
4.
Wholesale Trade, Distribution, and Transport ........................................................................... 34
5.
Professional and Business Services ............................................................................................. 36
Transmission, wholesale trade and distribution, and Storage by Sub‐Technology ................................ 36
Transmission, wholesale trade and distribution, and Storage – Workforce Characteristics .................. 38
Transmission, wholesale trade and distribution, and Storage Employment by Census Region ............. 39
3
Energy Efficiency ......................................................................................................................................... 41
Energy Efficiency – Identifying Employment .......................................................................................... 42
1.
Construction ................................................................................................................................ 42
Construction and Installation .................................................................................................................. 43
2.
Manufacturing ............................................................................................................................ 44
3.
Wholesale Trade, Distribution, and Transport ........................................................................... 45
Energy Efficiency by Sub Technology ...................................................................................................... 46
Energy Efficiency – Workforce Characteristics ....................................................................................... 47
Energy Efficiency Employment by Census Region .................................................................................. 48
Motor Vehicles ............................................................................................................................................ 51
Traditional Industry Definitions .............................................................................................................. 52
Manufacturing......................................................................................................................................... 53
Motor Vehicles by Sub Technology ......................................................................................................... 54
Motor Vehicles – Workforce Characteristics .......................................................................................... 55
Motor Vehicle Employment by Census Region ....................................................................................... 57
Survey and Analysis Methods ..................................................................................................................... 59
Appendix A: Employment by Technology and Sub technology .................................................................. 61
Appendix B: Employment by BLS QCEW NAICS 2015 Q2 ............................................................................ 63
Appendix C: Employment by Census Region .............................................................................................. 64
Table of Figures
Figure 1. Generation and Fuels Employment by Industry Sectors (BLS and EEI data combined) ............... 14
Figure 2. Agriculture and Forestry Employment ......................................................................................... 18
Figure 3. Mining and Extraction Employment ............................................................................................ 18
Figure 4. Utilities Employment .................................................................................................................... 19
Figure 5. Construction Employment ........................................................................................................... 19
Figure 6. Manufacturing Employment ........................................................................................................ 20
Figure 7. Wholesale Trade, Distribution, and Transport Employment ....................................................... 21
Figure 8. Professional and Business Services Employment ........................................................................ 21
Figure 9. Generation and Fuels Employment by Sub‐Technologies ........................................................... 22
4
Figure 10. Generation by Fuel, November 2015 YTD (Thousand MWh) .................................................... 23
Figure 11. Hiring Difficulty – Electric Power Generation ............................................................................ 25
Figure 12. Hiring Difficulty – Fuels .............................................................................................................. 25
Figure 13. Generation and Fuels Employment by Census Region .............................................................. 26
Figure 14. Generation and Fuels Hiring Difficulty by Census Region .......................................................... 27
Figure 15. Solar Employment Growth by Business Activity, 2010‐2015 ..................................................... 28
Figure 16. Transmission, wholesale trade and distribution, and Storage Employment by Industry Sectors
.................................................................................................................................................................... 30
Figure 17. Utilities Employment .................................................................................................................. 32
Figure 18. Construction Employment ......................................................................................................... 33
Figure 19. Manufacturing Employment ...................................................................................................... 34
Figure 20. Wholesale Trade, Distribution, and Transport Employment ..................................................... 35
Figure 21. Retail Trade Employment........................................................................................................... 35
Figure 22. Professional and Business Services Employment ..................................................................... 36
Figure 23. Employment by Transmission, wholesale trade and distribution, and Storage Sub Technologies
.................................................................................................................................................................... 37
Figure 24. Hiring Difficulty .......................................................................................................................... 39
Figure 25. Transmission, wholesale trade and distribution, and Storage Employment by Census Region 39
Figure 26. Transmission, wholesale trade and distribution, and Storage Hiring Difficulty by Census Region
.................................................................................................................................................................... 40
Figure 27. Energy Efficiency Employment by Industry Sectors ................................................................... 41
Figure 28. Construction Employment ......................................................................................................... 43
Figure 29. Construction Employment by Energy Technology ..................................................................... 43
Figure 30. Manufacturing Employment ...................................................................................................... 44
Figure 31. Wholesale Trade, Distribution, and Transport Employment ..................................................... 45
Figure 32. Professional and Business Services Employment ...................................................................... 46
Figure 33. Energy Efficiency Employment by Sub Technologies ................................................................. 47
Figure 34. Hiring Difficulty .......................................................................................................................... 48
Figure 35. Energy Efficiency Employment by Census Region ..................................................................... 49
Figure 36. Energy Efficiency Hiring Difficulty by Census Region ................................................................. 50
Figure 37. Motor Vehicle Employment by Industry Sectors ....................................................................... 51
Figure 38. Motor Vehicle Employment in Traditional Industry .................................................................. 53
Figure 39. Manufacturing Employment by Energy Technology .................................................................. 54
Figure 40. Motor Vehicle Employment by Sub Technology ........................................................................ 55
Figure 41. Hiring Difficulty .......................................................................................................................... 57
Figure 42. Motor Vehicle Employment by Census Region .......................................................................... 57
Figure 43. Motor Vehicle Hiring Difficulty by Census Region ..................................................................... 58
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Preface
Among the recommendations in the U.S. Department of Energy’s (DOE) recently published Quadrennial Energy
Review (QER) was Recommendation 8.6 entitled, Reform Existing Energy Jobs Data Collection Systems. Specifically,
Recommendation 8.6 reads:
DOE should establish an interagency working group—including the Departments of Labor and
Commerce—to reform existing data collection systems and provide consistent and complete definitions
and quantification of energy jobs across all sectors of the economy.
An interest in a more detailed assessment of energy jobs, as well as the rapidly changing energy landscape
including the development of new energy technologies, such as hydraulic fracturing and horizontal drilling, and the
wide scale deployment of wind and solar have challenged our traditional methods of counting jobs in the energy
sector.
Over the last year, the DOE Data Working Group has conferred with numerous federal agencies and departments,
including the Department of Labor (DOL), Department of Commerce, Bureau of Labor Statistics, US Census Bureau,
and DOE’s Energy Information Administration. The rapidly changing energy landscape including the development
of new energy technologies such as hydraulic fracturing and horizontal drilling, and the wide scale deployment of
wind and solar have challenged our traditional methods of counting jobs in the energy sector.
Four major gaps exist in current energy employment data. These include 1) business activities essential to the
operation of traditional energy companies classified by the North American Industry Classification System (NAICS)
within the business activities of other sectors, 2) jobs associated with the production of renewable energy such as
wind, solar, geothermal, etc., 3) jobs associated with energy efficiency, and 4) jobs associated with energy
efficiency in manufacturing processes.
Today DOE is releasing the first annual United States Energy and Employment Report (USEER) as an initial step
toward providing a more complete definition and quantification of energy employment across the economy. The
USEER presents direct employment data for the first three of the gaps identified; the fourth will be addressed in
future reports. Additional work between DOE and other federal agencies will continue to refine the necessary data
collection methodologies.
What is an energy job? Traditional energy employment encompasses all jobs necessary for the production,
transmission, distribution, or storage of the energy that fuels economic and social activities.
In recent years, however, the manner in which society consumes energy has created a new category of energy
jobs—an energy efficiency job. As there is no commonly accepted definition of an energy efficiency job, for the
purpose of this study, the Department has chosen to define energy efficiency employment as the production or
installation of energy efficiency products certified by the Environmental Protection Agency’s Energy Star program
or installed pursuant to the Energy Star program guidelines. Thus, the USEER energy efficiency employment figures
include only work with efficient technologies or building design and retrofits. The report does not capture
employment related to energy efficient manufacturing processes or employees associated with combined heat and
power (CHP) or waste heat to power (WHP).
In addition, the USEER includes a baseline analysis of employment in the motor vehicles industry. However, this is
not a redefinition of motor vehicle jobs as either energy or energy efficiency work. Transportation consumes 28%
of all energy used in the United States and 50% of US oil consumption on a daily basis; for this reason, a complete
report on energy and employment should describe how the motor vehicle industry is changing by vehicle fuel type
and efficiency. We expect future reports to provide yet more detail on the transportation industry.
We want to thank our colleagues at the Bureau of Labor Statistics for their review of the survey methodology that
underlies the BW Research Energy Employment Index as well as our colleagues within the DOE.
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The U.S. Department of Energy’s (DOE) first annual U.S. Energy and Employment Report (USEER)
provides a quantitative lens with which to evaluate the employment impact of new energy technologies,
shifting fuels deployment, and evolving transmission and distribution systems during a period of rapid
change. It also presents a unique snapshot of energy efficiency employment in key sectors of the
economy, including construction and manufacturing. Finally, the report illustrates how fuel efficiency
and new technologies and materials affect employment in the motor vehicle industry.
The USEER examines four sectors of the economy – “Electric Power Generation and Fuels”,
“Transmission, Distribution, and Storage”, “Energy Efficiency”, and “Motor Vehicles”. The first two of
these sectors, “Electric Power Generation and Fuels” and “Transmission, Distribution, and Storage”
make up what are generally considered the traditional energy sectors. “Energy Efficiency” cuts across a
range of occupations, especially construction and professional services, but includes manufacturing as
well. The “Motor Vehicle” industry is included because its products play a special role in modern
society’s use of energy with transportation representing 50% of the country’s daily domestic oil
consumption and 28% of overall energy usage.
Current Bureau of Labor Statistics (BLS) Quarterly Census of Employment and Wages (QCEW) labor
market data tracks employment across many energy production, transmission, and distribution
subsectors. These include utility generation; oil, gas and coal extraction; electrical generation
manufacturing; and transmission, for instance. However, the industry classification structure used in
data collection assigns a portion of the nation’s energy and energy efficiency work to broad categories
of non‐energy specific industry classifications, including construction, wholesale trade, and professional
services. Within these classifications, certain subsectors contain both energy and non‐energy related
jobs. Analyzing these industry subsectors is particularly important in understanding employment trends
in emerging technologies such as wind, solar, geothermal, and biomass, as well as new energy
infrastructure, including storage and smart grid. These subsector analyses also provide insight into the
distribution of the energy efficiency workforce as well as the role of new technologies in a rapidly
evolving motor vehicle industry.
In order to better enhance QCEW data, BLS conducts two supplemental surveys. The first is the Multiple
Worksite Report (MWR), which is collected each quarter to disaggregate the employment and wages of
numerous establishments owned by a single employer into their individual worksite locations. This
survey allows the employment and wages for each worksite location to be placed in their correct
industrial and geographical category, thereby improving the accuracy of QCEW data. Thus, with the
MWR, new business births and deaths, and their associated employment are identified each quarter in a
timely manner. This rapid identification of births and deaths improves the QCEW. The second survey is
the Annual Refiling Survey (ARS), which is conducted each year to update the classification codes
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(industrial, geographical, and ownership) currently assigned to the establishments on the QCEW which
ensures the accuracy of detailed industry and geographic (such as county level) data. In a time of rapid
technological change that affects how society produces and uses energy, such an approach is especially
helpful in understanding the relationship between energy and employment. The Energy Employment
Index (EEI), independently designed and carried out by BW Research, is such a supplemental survey. It is
used in the USEER to identify energy‐related employment within key subsectors of the broader BLS
industry classifications and assign them into their component energy and energy efficiency sectors. This
analysis is not a replacement for existing BLS employment data; instead, it provides an additional lens
with which to refine and evaluate the role of energy and energy efficiency within the labor market as a
whole. In combination, the employment figures reported in the USEER refer only to direct employment
and not to indirect employment or induced employment1. All employment figures in this report are in
reference to 2015 Q2.
With the combination of EEI survey data and existing BLS surveys, the USEER finds that Electric Power
Generation and Fuel technologies directly employ 1.6 million workers, almost double the 935,000
covered in the BLS direct industry classifications. Within this traditional energy sector, nearly 63% of
employees work with fossil fuel technologies. This approach also identifies an additional 280,000
workers across Transmission, Wholesale Trade and Distribution, and Storage technologies, for a total of
more than one million jobs. Retail sales and distribution in this sector—primarily gasoline stations—
employ another 990,000 individuals. In total, approximately 3.64 million Americans work in our
traditional energy industries, when including the 990,000 working in retail sales and distribution.
Today, 600,000 workers are employed within the Electric Power Generation and Fuels sector in low
carbon emission generation technologies, including renewables, nuclear, and advanced/low emission
natural gas. Just under 300,000 individuals work, in whole or in part, for solar firms, with over 200,000
of those employees spending the majority of their time on solar. There are an additional 77,000 workers
employed at wind firms across the nation.
EEI and BLS data show that 1.9 million Americans2 are employed, in whole or in part, in the design,
installation, and manufacture of energy efficiency products and service; almost 1.2 million efficiency
jobs are in the construction industry. Of the 6.8 million total construction jobs in the U.S., about 30% of
construction jobs are directly supported by energy or energy efficiency firms.
The motor vehicle industry employs 2.4 million workers3, exclusive of auto dealerships. Currently, over
190,000 employees work with alternative fuels vehicles, including natural gas, hybrids, plug‐in hybrids,
all electric, fuel cell and hydrogen vehicles. Hybrids, plug‐in hybrids, and all electric vehicles make up
over half of this number, supporting 108,000 employees.
Across the nation, firms in these four sectors anticipate roughly 7% employment growth for 2016.
Energy Efficiency employers expect to supply an additional 260,000 new jobs, for a growth rate of 14%.
Transmission, Wholesale Trade and Distribution, and Storage firms project to grow employment by 5%,
1
A direct job is created by the firm specific to the industry, while indirect jobs support these firms via supply or
contracting services. Induced jobs are a result of the economic impact of direct and indirect employees spending
their earnings.
2
Energy Employment Index
3
Energy Employment Index
8
followed by Electric Power Generation and Fuels at 4%. Motor Vehicle firms project just under one
percent employment growth over the next 12 months.
These four sectors are relatively less diverse compared to the overall national workforce. Employers
across all four sectors report that about a quarter of their workers are ethnic or racial minorities,
compared to a national average of 34%. Women are significantly underrepresented in these sectors,
ranging from18‐26%, compared to the overall economy, where women make up almost 47% of the
workforce. Veterans, however, comprise about one in ten workers, higher than the national average of
7%, with slightly higher employment across Fuels and Motor Vehicles compared to the Electric Power
Generation or Energy Efficiency sectors.
Almost three‐quarters of employers across these sectors (72%) reported difficulty hiring qualified
workers over the last 12 months; 26% note it was very difficult.
The USEER provides a unique, but time sensitive, snapshot of the intersection of our energy and
employment systems. Future reports will be adjusted, as necessary, to record this dynamic interaction
of technology with our nation’s economy.
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The U.S. energy production and distribution system is undergoing rapid technological change. National
energy employment and economic impacts have traditionally been difficult to define given the diversity
and breadth of energy industries across the United States.4 While many of its segments, such as utility
scale power generation, fossil fuel extraction, electric and gas transmission and distribution, are
inarguably part of the energy sector, other activities that include storage technologies and energy
efficiency products and services are difficult to define and isolate from other sectors of the economy.
Given the complex relationship between energy and the overall economy, the USEER does not attempt
to redefine the term “energy job”. Instead, it investigates, with a special supplemental survey, two
traditional energy sectors—Electric Power Generation and Fuels (Generation and Fuels) and
Transmission, Wholesale Trade and Distribution, and Storage—followed by individual analyses of
employment in two important energy end‐use sectors—Energy Efficiency and Motor Vehicles.
Employment data collected by the Bureau of Labor Statistics (BLS) provides information on many, but
not all, energy‐related job categories. Most notably, BLS does not filter by energy technology across
business segments. For instance, residential solar installation establishments are typically labeled as
electrical contractors (together with all other traditional electrical outfits) without being identified
specifically as solar companies. Petroleum‐engineering firms are included in engineering services, with
civil, mechanical, and other engineers, while electric vehicle prototype manufacturers are combined
with gasoline and diesel‐fueled vehicle manufacturing. As a result, data that differentiates between new
technologies and old has been difficult to capture.5
The spread of business activities within each of the four analyzed sectors presents additional taxonomic
challenges, as early stage research and development, repair and maintenance, or professional and
technical services vary across energy, energy efficiency, and manufacturing. Natural gas business
activities, for instance, differ from those of advanced building materials and solar photovoltaics.
Historically, supplemental surveys have been conducted by BLS to acquire more complete information
on new industries, specific demographic profiles within the work force, or new labor force trends such
as the role of contingent workers. Thus, significant modification to the current BLS structure of industry
and occupational classifications is avoided by capturing the required energy employment data using a
supplemental survey tool based on existing BLS data and classifications.
4
See generally; Robert Bacon and Masami Kojima, Issues in Estimating the Employment Generated by Energy
Sector Activities, The World Bank Sustainable Energy Department, 2011.
5
Id.
10
The BW Research Energy Employment Index (EEI), independently developed, but reviewed by BLS for
consistency, includes survey data from nearly 20,000 U.S. businesses engaged throughout more than
150 industries (at the 6‐digit NAICS level).6 These responses are used to analyze the concentration,
intensity, and allocation of various energy technologies and activities throughout traditional industry
sectors, using 2015 Q2 employment data from the Bureau of Labor Statistics (BLS) Quarterly Census of
Employment and Wages (QCEW). EEI data also provides an additional layer of information to track
sector‐specific growth potential, obstacles, and opportunities. The data presented in the Index is not
intended to remove, replace, or replicate existing data from the BLS QCEW but instead reorganize
categories and provide insight for policymakers and the public regarding shifts in energy production and
consumption across the United States. Within the definitions below, the EEI provides data for direct
employment only and does not attempt to estimate indirect employment or induced employment
related to the analyzed sectors.
Many employment studies such as that included in Chapter 8 of the Quadrennial Energy Review: First
Installment (DOE 2015) generate employment estimates that rely on input/output modeling. These
studies typically define an activity based on reported expenditures or expenditures and associated levels
of employment reported by a defined industry or activity (e.g., U.S. solar PV installation). In this
example, solar PV installation firm employment would be the “direct” jobs. Most studies go at least one
step further, identifying “indirect” employment, which includes the supply chain or other support
services to the industry. In the solar example, these would include U.S. manufacturing jobs related to
producing PV equipment used in domestic installations (and their suppliers and vendors) as well as
consulting, tax, legal, and other professional services to support domestic PV installation companies.
Another typical calculation is “induced” jobs, which includes jobs created or supported by wages paid
and other benefits provided by employers of direct and indirect employees.
In the USEER, by comparison, the direct job category of interest is defined as the solar industry
generally, including utility scale solar, residential and commercial installations, as well as the
manufacturing, professional services, management and sales that make up the totality of this industry.
However, the indirect jobs that support this industry are not included, such as polysilicon production
(the raw material used in solar panels), aluminum production and extrusion activities for frame
manufacturing, or other aspects of the solar value stream, etc. Nor are the induced jobs included, i.e.
those created throughout the economy as the result of the spending of wages by the 300,000
employees whose income derives, in whole or part, from this industry.
For this survey, a Qualifying Firm is:
“An organization with employees in the United States that is directly involved in the research,
development, production, manufacture, distribution, sales, implementation, installation, or
repair of components, goods or services related to Electric Power Generation, Electric Power
Transmission, Wholesale Trade and Distribution, and Storage, Energy Efficiency, including
Heating, Cooling and Building Envelope, Fuels, and Motor Vehicles, including supporting services
such as consulting, finance, tax, and legal services related to energy.”
6
NAICS, or North American Industrial Classification System, is the official way to categorize industries in the United
States, Canada, and Mexico.
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Qualifying Workers are:
“Employees of a qualifying firm that spend some portion of their time supporting the qualifying
energy, energy‐efficiency, or motor vehicle portion of the business.”7
It is important to note that EEI data provides an
insight into levels of employment activity that
include both “a portion of their time” and “a
majority of their time” when referencing qualifying
employees. This is especially true within the energy
efficiency sector where the employing construction
or repair firms frequently are engaged in both
traditional energy related construction or
installation as well as high efficiency activities that
qualify for Energy Star designation. Where less than
full‐time employment is referenced in the USEER, it
is labelled as such.
Energy end‐use in the U.S. is divided into four
primary categories: 1) Electric Power Generation
(38.5%), 2) Residential and Commercial Buildings
(11.3%), Industrial (21.4%), and Transportation
(27%). In 2015 electricity, in turn, was consumed
74.1% by Residential and Commercial Buildings,
25.7% by Industrial, and .2% by Transportation.
Thus, Residential and Commercial Buildings were
the end‐use consumers of approximately 39.8% of
all energy production (direct end‐use + electricity).8
In order to ensure consistent responses and measurement across the United States related to energy
efficient products, this report captures only energy efficiency products certified by the Environmental
Protection Agency’s Energy Star program or installed pursuant to the Energy Star program guidelines.
Thus, the following energy efficiency employment figures encompass work with efficient technologies or
building design and retrofits. The Index does not capture employment related to energy efficient
manufacturing processes or workers associated with combined heat and power (CHP) or waste heat to
power (WHP). Future U.S. Energy and Employment Reports may address some of these gaps; in the
meantime, the recently released Energy Productivity and Economic Prosperity Index9 provides insight
into these areas.
7
Data presented in this report excludes retail employees. Qualifying Energy Workers will be referenced as energy‐
related jobs. Where “portion of their time” includes employees whose activities are less than 50% of their time,
specific reference will be noted.
8
U.S. Energy Information Administration, Electric Power Monthly, November 2015 YTD. Solar photovoltaic includes
both utility and distributed generation.
9
Blok, Kornelis, et al. The 2015 Energy Productivity and Economic Prosperity Index.
12
Motor vehicles are included in this report primarily due to their intensive use of energy and contribution
to carbon emissions.10 According to the Energy Information Administration (EIA), 28% of domestic
energy is used for transportation, and more than half of the oil consumed in the U.S. on a daily basis.11
This report delineates employment between traditional gas and diesel motor vehicles, hybrid and plug‐
in hybrid, electric, natural gas, hydrogen, and fuel cell technologies. It does not, however, cover all
sectors of transportation, such as aviation and maritime.
BW Research Partnership, an independent research organization, collected and analyzed the data that
this report is based on. The firm’s proprietary “Energy Employment Index” is based on a comprehensive
survey effort of U.S. employers and current BLS data. The data set includes technology, value‐chain, and
energy employment data to the county‐level in all 50 U.S. states. In a time of rapid change in energy
technologies across the board, continued refinement of supplemental surveys will continue to be an
important tool in analyzing existing BLS data sets.
10
The Index covers motor vehicle employment across vehicle parts manufacturing, automotive repair and
maintenance, as well as vehicle, parts, and supplies wholesalers, including air, rail, water, and truck transportation
of motor vehicle parts and supplies. It does not capture jobs associated with the final assembly of some
transportation equipment such as forklifts and golf carts.
11
U.S. Energy Information Administration, Annual Energy Outlook, 2015.
13
Electric Power Generation and Fuels technologies employ more than 1,600,000 Americans. About a third
of these jobs belong to mining and extraction workers, while professional and business services roughly
comprise one‐fifth of this sector’s workforce (19%). BLS Quarterly Census of Employment and Wages
(QCEW) data identifies 936,000 Generation and Fuels workers, while the EEI survey identifies the
remaining 730,000 individuals across six major industry sectors. A detailed analysis of this process is
contained below along with an analysis of Generation and Fuel jobs by fuel source.
Figure 1. Generation and Fuels Employment by Industry Sectors (BLS and EEI data combined) Q2 2015
14
Traditional Industry Definitions
Electric Power Generation and Fuels encompass the entire range of business activities that support both
fuel extraction and production as well as utility generation.12 Also included are any firms engaged in
facility construction, turbine manufacturing, and parts distribution of all electric generation
technologies. Though sometimes referenced in tandem with transmission and distribution, employment
in this chapter delineates only those workers focused primarily on electric power and fuel production
technologies.13
BLS labor market data from the QCEW14 partially captures employment across these technologies
through industries that encompass power plant operations and fossil fuel extraction firms (Table 1).
Industries directly examined using traditional North American Industry Classification System (NAICS)
codes, such as oil and gas extraction, coal mining, or machinery manufacturing provide total
employment for fuel mining and extraction industries. Similarly, utility generation workers across
hydroelectric, nuclear, fossil fuel, and renewable technologies are captured by the traditional NAICS
presented in Table 1.
Table 1. Generation and Fuels, North American Industry Classification (NAICS)15 Q2 2015
NAICS
Codes
Sector
Electric Generation and Fuels
Employment (QCEW)
211
Oil and Gas Extraction
195,604
2121
Coal Mining
65,180
213112
Support Activities for Oil and Gas Operations
275,430
213113
Support Activities for Coal Mining
Total Mining and Extraction:
543,723
221111
Hydroelectric Power Generation
17,129
221112
Fossil Fuel Electric Power Generation
114,351
221113
Nuclear Electric Power Generation
51,537
7,509
12
Fuel extraction and production for all purposes, not only electricity.
For information on Transmission, Distribution, and Storage technologies, please see chapter 2 of this report.
14
QCEW covers employment from establishments which report to the Unemployment Insurance (UI) programs in
the United States; exclusions from UI coverage include self‐employed workers, most agricultural workers on small
farms, members of the Armed Forces, elected officials in most states, most employees of railroads, some domestic
workers, most student workers at schools, and employees of certain small nonprofit organizations.
15
Bureau of Labor Statistics, Quarterly Census of Employment and Wages (QCEW) 2015 Q2 all ownerships
13
15
221114
Solar Electric Power Generation
2,023
221115
Wind Electric Power Generation
4,316
221116
Geothermal Electric Power Generation
1,089
221117
Biomass Electric Power Generation
1,544
221118
Other Electric Power Generation
1,155
Total Utilities:
193,144
324
Petroleum and Coal Products Manufacturing
112,562
33313
Mining and Oil and Gas Field Machinery Manufacturing
86,235
Total Manufacturing:
198,797
Total Generation and Fuels:
935,664
However, the employment figures in Table 1 provide only a partial illustration of the generation and
fuels sector. Additional employment is embedded within a broad range of other NAICS industry
categories that are directly related to electricity and fuel production, but not found in the industries
included in Table 1. A portion in each of these industries contributes to the array of business activities
that constitute electric power generation and fuel production, but these additional employees are
difficult to separate because they do not have energy‐specific industry delineations.
Such industries are particularly important in understanding components of the emerging generation and
fuel technology spheres that are not captured through generation and fuel extraction NAICS alone. For
example, a subset of semiconductor manufacturers produce solar panels, while others assemble
computer components or medical equipment. Consequently, federal labor market data alone presents
an incomplete picture of generation and fuel sector employment. This is particularly true of renewable
electricity generation. In the wind and solar industries, for instance, much of the generation capacity is
owned by development companies or by building owners, not utilities. Thus, the employment related to
this generation appears under other NAICS codes than those that typically capture utility employment.
However, inclusion of these additional industries in their entirety would result in exaggerated
employment figures, while their exclusion would underestimate the sector’s workforce. The
supplemental survey utilized by the EEI provides a tool to measure the actual energy‐related
employment within these broader NAICS codes.
Electric Power Generation and Fuels – Identifying Additional Employment
To better understand electric generation and fuels employment in the United States, the following
figures were derived using the Energy Employment Index to apportion employment from these broad
industry classifications into their relevant component subsectors. This level of granularity provides a
16
more accurate depiction of the nation’s generation and fuels economy. As of 2015, the sector employs
about 1.6 million workers, nearly double the number of employees identified through BLS data.
Approximately 63% of these employees, or 1.0 million, work with fossil fuel technologies, while another
37% work with low‐carbon electricity generation and production, including renewables, nuclear, and
advanced/low emission natural gas. Eight in ten of these energy workers spend the majority of their
time working with low emissions energy technologies; over half (60%) spend all of their time on this
work. Data collected through the Index reveals that employers in generation and fuels anticipate the
sector will grow by about 4% over the coming 12 months, creating an additional 57,395 jobs. The
following breakdown of EEI survey data identifies the location of these additional jobs within each of six
NAICS industry sectors.
A note on how to interpret the industry employment figures:
The figures in the following four chapters that delineate overall BLS QCEW employment in
traditional NAICS‐defined sectors such as agriculture, construction, or manufacturing are used to
illustrate relevant energy‐related employment. The cross‐hatched bars provide nationwide
employment for a traditional industry sector (i.e. in Figure 2 below, almost 700,000 Americans
work in agriculture and forestry), while the light blue bar shades off the percentage of this larger
industry sector that may be related to energy technologies (Generation and Fuels,; Transmission,
Wholesale Trade and Distribution and Storage; Energy Efficiency: or Motor Vehicles). Finally, the
dark blue bars illustrate actual sector employment; using Figure 2 below as an example, just over
18,000 individuals within the Agriculture and Forestry industry work to support Generation and
Fuel technologies.
1. Agriculture and Forestry
The entire Agriculture and Forestry industry employs about 700,000 workers across the nation16; about
20% of these jobs are contained within “detailed” energy‐related industry sub‐sectors that could include
businesses directly working with Generation and Fuel technologies. These detailed industries include
corn and sugarcane farming, used for ethanol and biodiesel production, and logging or other forestry
services, which contribute to woody biomass and pellet fuel. Of these industries, about 18,000
Agriculture and Forestry employees work to support electric power generation and fuel production.
16
Agricultural employment data is from BLS QCEW 2015 Q2; data was retrieved in February 2015.
17
Figure 2. Agriculture and Forestry Employment (Q2 2015)
800,000
699,879
700,000
Total Agriculture and
Forestry industry
employment
Employment
600,000
500,000
Agriculture and Forestry
Sub‐Sectors with Energy‐
related Employment
400,000
300,000
200,000
100,000
18,295
136,725
‐
Generation and Fuels
employment in
Agriculture and Forestry
Agriculture and Forestry
2. Mining, Extraction, and Utility Generation
Unlike agriculture, energy‐related BLS Mining and Extraction sub‐sectors that contain generation and
fuel production are wholly dedicated to these activities. For example, the oil and gas extraction and coal
mining industries are included in totality. About 72% of all mining and extraction firms support fossil fuel
production, and federal QCEW labor market data captures the 544,000 employees in these detailed sub‐
sectors. Similarly, utility generation employment is captured entirely by electricity generation firms and
their related sub‐technology NAICS codes. Excluding those utilities that work with water and sewage
treatment and energy distribution and transmission (such as natural gas companies), electric power
generation companies employ about 193,000 individuals.
Figure 3. Mining and Extraction Employment (Q2 2015)
800,000
756,005
700,000
Total Mining and
Extraction industry
employment
Employment
600,000
500,000
400,000
543,723
Generation and Fuels
employment in Mining
and Extraction
300,000
200,000
100,000
‐
Mining and Extraction
18
Figure 4. Utilities Employment (Q2 2015)
900,000
815,575
800,000
Employment
700,000
Total Utilities industry
employment
600,000
500,000
400,000
Generation and Fuels
employment in Utilities
300,000
200,000
100,000
193,144
‐
Utilities
3. Construction
According to the BLS QCEW, employment across all construction firms in the United States totals almost
6.8 million workers. About 30% of total construction employment exists in detailed sub‐sector industry
classifications that contain some level of Generation and Fuels‐related employment. For example, a
subset of the construction industry supports Generation and Fuels through power plant construction. Of
the roughly 1.7 million jobs in these detailed energy‐related industries, EEI data reveals that 226,000
employees work for businesses directly engaged in Generation and Fuels construction projects.
Figure 5. Construction Employment (Q2 2015)
7,000,000
6,752,826
Total Construction
industry employment
6,000,000
Employment
5,000,000
4,000,000
Construction Sub‐
Sectors with Energy‐
related employment
3,000,000
2,000,000
1,000,000
1,709,532
225,885
‐
Construction
Generation and Fuels
employment in
Construction
19
4. Manufacturing
Using BLS QCEW data, the national manufacturing industry employs just over 12.4 million workers.
About 6% of overall manufacturing employment is comprised of energy‐related subsectors, including
petrochemical, turbine, and generator manufacturing. These detailed industry sub‐sectors account for
nearly 700,000 workers, and of these, about four in ten (36%) support Generation and Fuels activities,
including photovoltaic, turbine generator, petroleum product, motor, or engine equipment
manufacturing.
Figure 6. Manufacturing Employment (Q2 2015)
12,420,380
12,000,000
Total Manufacturing
industry employment
Employment
10,000,000
8,000,000
Manufacturing Sub‐
Sectors with Energy‐
related employment
6,000,000
4,000,000
829,847
Generation and Fuels
employment in
Manufacturing
2,000,000
247,707
‐
Manufacturing
5. Wholesale Trade
Of the almost 6 million wholesale trade employees identified by the BLS QCEW, about 45% are part of
detailed energy‐related sub‐sectors that support electric generation and fuel activities, including electric
equipment, chemical, and petroleum merchant wholesalers. Of these energy‐related trade sub‐sectors,
about 80,000 spend some amount of their time supporting the wholesale trade of Generation and Fuels
technologies.17
17
Transmission and trade of fuels are included in the Transmission, Distribution, and Storage chapter.
20
Figure 7. Wholesale Trade, Distribution, and Transport Employment (Q2 2015)
5,907,038
6,000,000
Total Wholesale Trade
industry employment
Employment
5,000,000
4,000,000
2,647,797
Wholesale Trade Sub‐
Sectors with Energy‐
related employment
3,000,000
2,000,000
Generation and Fuels
employment in
Wholesale Trade
1,000,000
79,056
‐
Wholesale Trade
6. Professional and Business Services
The professional and business service industry in the United States employs almost 28 million workers,
using NAICS industry classifications. Within this aggregate industry, several detailed sub‐sectors support
energy operations with legal services, biotechnology research, architecture, and engineering. Of the 8.3
million jobs in these energy‐related professional service sub‐sectors, just over 297,000 workers support
Electric Power Generation and Fuels production.
Figure 8. Professional and Business Services Employment (Q2 2015)
30,000,000
27,779,423
Total Professional and
Business Services
industry employment
25,000,000
Employment
20,000,000
15,000,000
10,000,000
8,253,285
5,000,000
297,257
Professional and
Business Services Trade
Sub‐Sectors with
Energy‐related
employment
Generation and Fuels
employment in
Professional and
Business Services
‐
Professional & Business Services
21
Electric Power Generation and Fuels by Sub‐Sector
The following employment figures provide detail both within fossil fuel generation and across emerging
generation technologies. Of the 1.6 million Electric Power Generation and Fuels employees, fossil fuel
technologies account for about 63% of employment. Fossil fuels production, processing, and related
activities support the majority of jobs in this sector (52%), at just over 832,000 workers, while fossil fuel‐
based electric power generation employs 136,000 individuals. Although oil and gas extraction firms
employ 185,000 workers, employment in this sector has shrunk by 8% since 2014.18 Figure 9 illustrates
the breakdown of electric generation and fuels employment by sub‐technology.19
Figure 9. Generation and Fuels Employment by Sub‐Sector (Q2 2015)
18
Bureau of Labor Statistics, Current Employment Statistics, November 2014 – November 2015
It is important to note that each technology within generation and fuels is comprised of different business
activities. Electric generation, including all utilities as well as distributed generation, have inextricably linked retail
sales employment that is included in their total. For all other technologies listed in this report, the retail sales
component is provided separately, but not included in the totals within each chart and table.
19
22
For comparative purposes, Figure 10 below illustrates electric power generation in the United States by
the fuel sources listed above. While employment in Generation and Fuels is split 63%‐37% between
fossil fuels and low carbon sources, actual electricity production is produced in different ratios.
Figure 10. Electricity Generation by Fuel, (Thousand MWh)20 (November 2015 YTD)
Generation and Fuels – Workforce Characteristics
Generation and Fuels extraction firms employ more women compared to the Motor Vehicles (18%) and
Transmission, Wholesale Trade and Distribution, and Storage (21%) firms studied in this report. Almost a
quarter (23%) of Fuels employees are 55 years or older. Although comparable to the Motor Vehicle
industry, this is significantly higher than Energy Efficiency (18%), Transmission and Wholesale Trade and
Distribution (18%), and Generation (8%). Though the Electric Power Generation workforce appears
young given the figures in Table 2, this result is partially skewed by emerging Generation technologies
20
U.S. Energy Information Administration, Electric Power Monthly, November 2015 YTD. Solar photovoltaic
includes both utility and distributed generation.
23
like the solar workforce. For utility generation firms, the demographic composition shifts, as 24% of
workers are 55 years or older; the median age for utility employees is 47.21
Table 2. Demographics – Electric Power Generation and Fuels Q4 2015
Women
Ethnic or Racial
Minorities
Veterans
55 and older
National Average22
46.8%
34.0%
6.9%
22.5%
Electric Power
Generation
24.5%
25.2%
8.4%
8.1%
Fuels
25.7%
24.6%
11.5%
23.3%
More Generation employers reported hiring difficulty compared to the Fuels sector (71% vs. 68%).
Almost half of Generation firms (46%) mentioned lack of experience, training, or technical skills. The two
most difficult occupations to hire include managers, directors, and supervisors (26%) and sales,
marketing, and customer service representatives (25%). About three in ten Fuels employers noted
insufficient qualifications, certifications, and education (35%), location (32%), and lack of soft skills
(30%); just under a quarter report difficulty hiring sales, marketing, and customer service
representatives (25%), followed by managers, directors, and supervisors (21%).
Table 3. Reported Occupations and Reasons for Hiring Difficulty (Q4 2015)
Technology
Electric Power
Generation
Fuels
Reported Occupations with Hiring
Difficulty
Reported Reasons for Hiring Difficulty
Managers, directors, and supervisors
(26%)
Lack of experience, training, or technical skills
(46%)
Sales, marketing, and customer
service representatives (25%)
Insufficient qualifications, certifications,
education (29%)
Installation workers (19%)
Competition/ small applicant pool (19%)
Sales, marketing, and customer
service representatives (25%)
Insufficient qualifications, certifications,
education (35%)
Managers, directors, and supervisors
(21%)
Lack of non‐technical skills – work ethic, critical
thinking, etc. (30%)
Technician/ technical support (16%)
Lack of experience, training, or technical skills
(20%)
21
22
Bureau of Labor Statistics, Labor Force Statistics from the Current Population Survey, 2013 annual average
Current Population Survey, Bureau of Labor Statistics, 2015
24
Figure 11. Hiring Difficulty – Electric Power Generation (Q4 2015)
3.9%
19.3%
24.7%
Very difficult
Somewhat difficult
Not at all difficult
Don't know/ Refused
52.1%
Figure 12. Hiring Difficulty – Fuels (Q4 2015)
2.8%
24.0%
Very difficult
29.7%
Somewhat difficult
Not at all difficult
Don't know/ Refused
43.5%
Generation and Fuels Employment by Census Region
The following map identifies the U.S. Census Bureau Divisions for the United States – employment by
census division for each of the four sectors is constructed based on these census regions.
25
Generation and Fuels employment is most heavily concentrated in Census Division 7; this region
encompasses Arkansas, Louisiana, Oklahoma, and Texas. However, these states collectively project
about 3% employment growth for 2016. States across Census Division 3 expect to see the greatest
growth in employment.
Figure 13. Generation and Fuels Employment by Census Region (Q2 2015)
26
Table 4. Generation and Fuels Projected Employment Growth by Census Region (Q4 2015)
Generation and Fuels Projected Growth
Census Region 1
8.9%
Census Region 2
6.8%
Census Region 3
10.9%
Census Region 4
7.4%
Census Region 5
9.8%
Census Region 6
‐1.3%
Census Region 7
2.9%
Census Region 8
9.5%
Census Region 9
6.9%
Figure 14. Generation and Fuels Hiring Difficulty by Census Region (Q4 2015)
Census Division 9
17.8%
Census Division 8
19.3%
34.3%
48.3%
Census Division 6
22.8%
Census Division 5
23.0%
0%
10%
Very difficult
30.9%
49.6%
24.3%
46.7%
25.2%
46.2%
23.8%
Census Division 1
18.9%
45.6%
27.1%
Census Division 2
29.4%
44.4%
17.3%
Census Division 3
21.1%
50.9%
31.7%
Census Division 4
28.9%
48.2%
15.7%
Census Division 7
25.1%
53.0%
20%
30%
40%
Somewhat difficult
50%
60%
70%
80%
Not at all difficult
90%
100%
DK/NA
27
Solar Electric Generation
Solar employment presents perhaps the best example of the limitation of existing labor market data for
the industry. While the QCEW has been updated to cover solar electric generation at utilities, the vast
majority of installed capacity is owned by independent project developers, residential and commercial
building owners, or other distributed generation. As a result, the BLS currently reports 2,023 workers at
solar utilities23, but solar electric generation technologies employ about 209,000 workers across the
nation; an additional 91,000 workers also spend some amount of time working with solar technologies.24
The United States’ solar sector has grown by just over 20% between November 2014 and November
2015, and employers expect to increase total employment by another 15% over the coming 12
months.25 In fact, 2015 was the third consecutive year in which solar employment grew by
approximately 20%; since 2010, solar firms have created an additional 115,000 new jobs (123%
employment growth).
Installation firms employ the majority – 57% – of the nation’s solar workforce, while equipment
manufacturing represents about two in ten solar jobs (15%). With the exception of manufacturing, all
business activities increased employment over the course of 2015. Solar installation employers are
creating jobs at a faster rate than the industry’s other business segments. Since 2010, solar installation
firms have increased employment by 173%, from 44,000 to 120,000 workers. Roughly one in five
employers reported hiring as “very difficult” this past year; experience was cited as the most important
hiring requirement across all business activities.
The proportion of women in the solar industry has increased since 2013 from about 19% to just under a
quarter (24%). Veterans have declined by two percentage points, and now comprise about 8% of the
solar workforce. Ethnic or racial minorities represent about a quarter (26%) of the nation’s solar
workforce.26
Figure 15. Solar Employment Growth by Business Activity, 2010‐2015
120,000
100,000
80,000
60,000
40,000
20,000
‐
2010
Installation
2011
Manufacturing
2012
2013
Sales & Distribution
2014
2015
Project Development
Other
23
Bureau of Labor Statistics, Quarterly Census of Employment and Wages 2015 Q2, All Ownerships.
Solar data for this section is in reference to employees that spend the majority of their time working with solar
technologies. There are 208,859 workers that spend at least 50% of their time working with solar technologies;
300,192 solar employees spend at least some of their time on solar work.
25
The U.S. solar industry has grown by 123% since 2010, resulting in over 115,000 new jobs.
26
All solar data is from The Solar Foundation/BW Research
24
28
Wind Electric Generation
Wind generation firms employ just over 77,000 workers. The majority of employers reported difficulty
hiring qualified workers over the past 12 months; about seven in ten reported hiring difficulty, while
18% note it was very difficult to find qualified applicants. The most cited reason for difficulty was lack of
experience, training, or technical skills (44%), followed by insufficient qualifications, certifications, or
education (33%) and competition or a small applicant pool (19%). Firms report the most difficulty in
hiring for management positions (27%), as well as engineers (27%) and sales, marketing, or customer
service representatives (16%).
Just about half of surveyed wind employers report primarily in‐state customers, though the majority of
firms are supplied by vendors within the United States but outside of a bordering state (52%). About 6%
of firms report primarily international suppliers. Six in ten wind firms (63%) receive the majority of their
revenue from wind‐related activity, while over a third (38%) report all of their revenue is attributable to
wind technologies.
Wind employment reporting faces similar challenges to the solar industry. While the utility‐owned wind
generation facilities and their 4,316 workers27 are included in the QCEW under “Wind Electric Power
Generation,” the remainder of the value chain is buried within a disparate set of more general NAICS
codes.
27
Bureau of Labor Statistics, Quarterly Census of Employment and Wages 2015 Q2, All Ownerships.
29
Electric power and fuel Transmission, Wholesale and Retail Trade and Distribution, and Storage
technologies employ more than two million workers across the nation, with approximately one‐fifth of
all employment contained across utility distribution firms.28 In addition, nearly 990,000 employees work
in retail trade and distribution in this sector, with about 915,000 of these working at gasoline stations.29
Just over 17% of the 2.04 million workers are employed by construction companies to construct pipeline
and other infrastructure that supports the Transmission, Wholesale and Retail Trade and Distribution, or
Storage sector, including both fuels and electricity. BLS data identifies 767,000 workers, and the EEI
identifies an additional 280,000.30
Figure 16. Transmission, Distribution (both Wholesale and Retail Trade and Distribution), and Storage
Employment by Industry Sectors31 (Q2 2015)
28
Fuel cell technologies are split among motor vehicles, storage, and other generation, depending on application –
however, the numbers were too small to report separately within the latter two.
29
Bureau of Labor Statistics, Quarterly Census of Employment and Wages 2015 Q2, All Ownerships.
30
This includes transportation employment which is calculated using commodity flow data and employment data
on rail, truck, air, and sea transportation.
30
The subsequent analysis of this chapter is focused only on Transmission, Wholesale Trade and
Distribution and Storage and did not provide additional analyses of this retail subsector.
Traditional Industry Definitions
Electric power transmission and distribution, often referenced as “the grid”, is the bulk transfer of
electricity from power plant supply to centers of demand. Electric Power and Fuel Transmission,
Wholesale Trade and Distribution, and Storage encompasses the entire network of power lines that
transmit electricity from generating stations to customers as well as activities that support power and
pipeline construction, fuel distribution and transport, and electrical transmission equipment
manufacturing. Since electric provision is fundamentally dependent on source of supply, transmission
and distribution is often thought of in conjunction with utility generation. However, the designation of
business activity is variable across these sectors. While Generation and Fuels rely more heavily on
mining, agriculture, and semiconductor manufacturers, electrical supply depends on fuel transport and
power line construction. In addition, fuels transportation also supports non‐electric heat production for
commercial and residential use and motor vehicle usage.
Several NAICS codes actively track employment across utility transmission, including natural gas
distribution and steam and air‐conditioning supply, as well as electrical transmission line construction
and fossil fuel pipeline transportation. The sector’s remaining employment is found within energy‐
related industry subsectors in construction, manufacturing, trade, distribution, and transport. The
following BLS employment figures encompass traditional transmission and wholesale distribution,
captured by those industry NAICS, as well as employment across emerging smart grid and energy
storage technologies.
Table 5. Transmission and Distribution, North American Industry Classification (NAICS)32 (Q2 2015)
NAICS Codes
Sector
22112 Electric Power Transmission, Control, and Distribution
2212 Natural Gas Distribution
221330 Steam and Air‐Conditioning Supply
Total Utilities:
Transmission, Wholesale Trade and
Distribution, and Storage
Employment (QCEW)
293,786
119,592
1,828
415,206
23712
Oil and Gas Pipeline and Related Structures
Construction
135,294
23713
Power and Communication Line and Related
Structures Construction
169,226
Total Construction:
4861 Pipeline Transportation of Crude Oil
304,520
10,730
32
Bureau of Labor Statistics, Quarterly Census of Employment and Wages (QCEW) 2015 Q2 all ownerships
31
4862 Pipeline Transportation of Natural Gas
30,658
4869 Other Pipeline Transportation
8,357
Total Wholesale Trade, Distribution, and Transport:
Total Transmission and Distribution:
49,745
767,471
Transmission, Wholesale Trade and Distribution, and Storage – Identifying
Additional Employment
Transmission, Wholesale Trade and Distribution, and Storage, a key segment of the nation’s energy
infrastructure, employs 1,045,000 workers, or an additional 280,000 employees compared to traditional
BLS sector classifications. An additional 990,000 work in retail industries such as fuel dealers (74,000),
gasoline stations with convenience stores (800,000) and other gasoline stations (115,000).33
Using EEI survey data, the following sections illustrate a breakdown of sector‐wide employment within
five broad high‐level industry classifications, including construction and manufacturing.
1. Utilities
Utility companies that employ transmission and distribution workers are captured entirely by their
respective sub‐sector NAICS classifications by BLS. Electric power transmission, control, and distribution,
natural gas distribution, and steam and air‐conditioning supply together employ just over 415,000
transmission and distribution workers across the nation’s utility generation firms.
Figure 17. Utilities Employment (Q2 2015)
900,000
815,575
800,000
Total Utilities industry
employment
700,000
Employment
600,000
500,000
400,000
300,000
200,000
415,206
Transmission,
Distribution, and
Storage employment in
Utilities
100,000
‐
Utilities
33
Bureau of Labor Statistics, Quarterly Census of Employment and Wages 2015 Q2, All Ownerships.
32
2. Construction
In addition to the roughly 305,000 construction employees identified by BLS in Table 5 above,
Transmission, Wholesale Trade and Distribution, and Storage employment also exists within several
other construction industry sub‐sectors including electrical and wiring contractors and other heavy
construction. According to EEI data, these additional industries provide about 48,000 additional
construction jobs related to energy transmission and distribution, bringing total construction
employment to nearly 353,000 workers.
Figure 18. Construction Employment (Q2 2015)
6,752,826
7,000,000
Total Construction
industry employment
6,000,000
Employment
5,000,000
4,000,000
Construction Sub‐Sectors
with Energy‐related
employment
3,000,000
2,000,000
1,000,000
352,535
1,253,036
‐
Transmission,
Distribution, and Storage
employment in
Construction
Construction
3. Manufacturing
The manufacture of Transmission, Wholesale Trade and Distribution, and Storage technologies is not
entirely captured by a single NAICS classification in BLS data. Instead, these jobs are found within several
energy‐related manufacturing subsectors. These include bulk manufacturing firms that assembly storage
batteries, current‐carrying wiring devices, air and gas compressors, sheet metal, and other electrical and
non‐electrical equipment or components. Of the nation’s total 12.4 million manufacturing jobs, almost
7% are contained within such energy‐related subsectors that may support transmission‐related
infrastructure. Of these, about 8,200 employees manufacture Transmission, Wholesale Trade and
Distribution, and Storage products.
33
Figure 19. Manufacturing Employment (Q2 2015)
12,420,380
12,000,000
Total Manufacturing
industry employment
10,000,000
Employment
8,000,000
Manufacturing Sub‐Sectors
with Energy‐related
employment
6,000,000
4,000,000
836,829
Transmission, Distribution,
and Storage employment in
Manufacturing
2,000,000
‐
8,235
Manufacturing
4. Wholesale Trade, Distribution, and Transport
Several industry codes used by BLS capture employment entirely dedicated to the transport of crude oil,
natural gas, and other refined petroleum products. Approximately 164,000 jobs were included by
identifying proportional employment from energy related commodity data for truck, rail, air, and water
transport using the Quadrennial Energy Review’s (QER) methodology.34 An additional 22,000 jobs
identified by the EEI survey are contained within detailed industry subsectors such as electrical
equipment, wiring, appliance, and electronics merchant wholesalers. Together, fossil fuel transport and
electrical equipment wholesalers employ almost 236,000 transmission and distribution workers.35
34
See the Survey and Analysis Methods section for methodology.
This employment figure excludes raw material and component manufacturers; the limitations of a survey‐based
approach prevents accurate data collection for suppliers that are significantly upstream.
35
34
Figure 20. Wholesale Trade, Distribution, and Transport Employment (Q2 2015)
5,907,038
6,000,000
5,000,000
Total Wholesale Trade
industry employment
Employment
4,000,000
Wholesale Trade Sub‐
Sectors with Energy‐related
employment
3,000,000
2,000,000
375,946
Transmission, Distribution,
and Storage employment in
Wholesale Trade
1,000,000
235,529
‐
Wholesale Trade, Distribution, and Transport
Though the Energy Employment Index does not cover retail trade, BLS employment data captures
several industries, such as gas stations and fuel dealers, which employ just over 987,000 workers.
Figure 21. Retail Trade Employment (Q2 2015)
18,000,000
16,000,000
15,714,799
Total Retail Trade industry
employment
14,000,000
Employment
12,000,000
10,000,000
Retail Trade Sub‐Sectors
with Energy‐related
employment
8,000,000
6,000,000
Transmission, Distribution,
and Storage employment
in Retail Trade
4,000,000
2,000,000 987,522
‐
Retail Trade
35
5. Professional and Business Services
A very small portion (0.4%) of energy‐related professional and business services support Transmission,
Wholesale Trade and Distribution, and Storage infrastructure and technology. Of the 8.3 million workers
in these detailed industry codes, EEI survey data identifies about 36,400 workers who spend some of
their time supporting these technologies. Seven in ten professional and business service employees
spend the majority of their time on work related to Transmission, Wholesale Trade and Distribution, and
Storage; about 60% spend all of their time supporting these technologies.
Figure 22. Professional and Business Services Employment (Q2 2015)
30,000,000
27,779,423
Total Professional and
Business Services industry
employment
25,000,000
Employment
20,000,000
Professional and Business
Services Trade Sub‐
Sectors with Energy‐
related employment
15,000,000
10,000,000
8,253,285
5,000,000
36,411
‐
Professional & Business Services
Transmission,
Distribution, and Storage
employment in
Professional and Business
Services
Transmission, Wholesale Trade and Distribution, and Storage by Sub‐Technology36
Four in five Transmission, Wholesale Trade and Distribution, and Storage employees (80%) work to
manufacture, construct, repair, and operate traditional electrical and gas transmission and distribution.
This includes not only fossil fuel transportation, but also pipe‐ and powerline construction as well as
natural gas distribution, steam and air‐conditioning supply.37 About 164,000 work transporting fuel via
36
Because the index excludes retail trade in all segments, the following data do not include responses from fuel
dealers or gasoline stations.
37
Fossil fuel commodity flows via air, rail, water, and truck transportation are included using the Quadrennial
Energy Review methodology – these employment figures are relative to the percentage of fuels being transported.
These include jobs supported by oil and coal train and truck transportation, for instance.
36
rail, air, truck, or other means, and an additional 27,000 workers are employed with storage
technologies (including hydro‐storage)38, while 12,900 work with smart grid technologies. Though the
EEI excludes retail employment in this sector report, BLS QCEW data reports that fuel dealers and
gasoline stations employ about 987,500 additional individuals across the nation.39
Electric Power and Fuels Transmission, Wholesale Trade and Distribution and Storage employers are
expecting 5% growth over the next 12 months, for an additional 52,000 jobs.
Figure 23. Employment by Transmission, Wholesale Trade and Distribution, and Storage Sub
Technologies (Q2 2015)
1,200,000
9,736
12,880
27,140
1,000,000
163,869
Other
800,000
Employment
Smart Grid
600,000
Storage
832,290
400,000
Truck, Rail, and Other
Transport of Fuel
Traditional Transmission and
Distribution
200,000
‐
Energy Employment
38
Hydro‐storage is included in this section when it is separate from hydropower generation, which is included in
the generation and fuels chapter.
39
Bureau of Labor Statistics, Quarterly Census of Employment and Wages, 2015 Q2
37
Transmission, Wholesale Trade and Distribution, and Storage – Workforce
Characteristics
Roughly two in ten Transmission, Wholesale Trade and Distribution, and Storage employees across the
nation are women. Though not as low as the Motor Vehicle industry (18%), this is less than the
Generation (25%), Energy Efficiency (25%), and Fuels (26%) sectors.
Table 6. Demographics (Q4 2015)
Women
Ethnic or Racial
Minorities
Veterans
55 and older
National Average40
46.8%
34.0%
6.9%
22.5%
Transmission, Wholesale Trade
and Distribution, and Storage
21.4%
26.5%
9.5%
17.7%
Almost seven in ten firms reported hiring difficulty (68%), citing insufficient qualifications, certifications,
or education (38%) and lack of experience, training, and technical skills (36%) as the most reported
reasons for difficulty. About a quarter of firms note difficulty hiring engineers (25%) and sales,
marketing, or customer service representatives (25%). Just over two in ten firms also had difficulty
finding managers, directors, or supervisors (23%).
Table 7. Reported Occupations and Reasons for Hiring Difficulty
Reported Occupations with Hiring Difficulty
Reported Reasons for Hiring Difficulty
Engineers (25%)
Insufficient qualifications, certifications, or education
(38%)
Sales, marketing, or customer service representatives
(25%)
Lack of experience, training, or technical skills (36%)
Managers, directors, or supervisors (23%)
Location (17%)
40
Current Population Survey, Bureau of Labor Statistics, 2015
38
Figure 24. Hiring Difficulty (Q4 2015)
1.6%
25.7%
30.6%
Very difficult
Somewhat difficult
Not at all difficult
Don't know/ Refused
42.0%
Transmission, Wholesale Trade and Distribution, and Storage Employment by
Census Region
Similar to Generation and Fuels, Transmission, Wholesale Trade and Distribution, and Storage
employment is most heavily concentrated in Census Division 7 for Arkansas, Louisiana, Oklahoma, and
Texas. At about 2%, these states project low employment growth for this energy sector; the Mountain
states across Division 8 expect to increase jobs by almost 19% over the next 12 months.
Figure 25. Transmission, Wholesale Trade and Distribution, and Storage Employment by Census Region
(Q2 2015)
39
Table 8. Transmission, Wholesale Trade and Distribution, and Storage Projected Employment Growth by
Census Region (Q4 2015)
Transmission, Wholesale Trade and Distribution,
and Storage Projected Growth
Census Region 1
0.4%
Census Region 2
7.8%
Census Region 3
8.5%
Census Region 4
3.8%
Census Region 5
9.2%
Census Region 6
‐6.2%
Census Region 7
1.7%
Census Region 8
18.6%
Census Region 9
6.9%
Figure 26. Transmission, Wholesale Trade and Distribution, and Storage Hiring Difficulty by Census
Region (Q4 2015)
36.1%
36.1%
22.2%
Census Division 8
Census Division 6
16.7%
Census Division 5
16.7%
45.8%
37.5%
39.4%
33.3%
20.7%
51.7%
27.6%
Census Division 3
16.7%
66.7%
24.2%
Census Division 4
21.4%
46.4%
32.1%
Census Division 7
29.5%
42.6%
26.2%
Census Division 9
44.4%
55.6%
Census Division 2
0%
10%
Very difficult
36.8%
42.1%
21.1%
Census Division 1
20%
30%
40%
Somewhat difficult
50%
60%
70%
80%
Not at all difficult
90%
100%
DK/NA
40
With almost 1.9 million jobs, Energy Efficiency firms are a significant and growing segment of the
national energy economy. The majority, almost seven in ten, of Energy Efficiency employees work at
construction firms installing building control equipment. Just over a quarter of the Energy Efficiency
sector is supported by individuals who work in professional and business services. The manufacture of
Energy Efficiency certified products represents a small portion of employment, with just under 2% of the
total Energy Efficiency workforce.
The Energy Employment Index does not cover retail trade, but BLS data finds that retail trade industries
that sell and distribute Energy Star appliances and building materials employ almost 2.9 million
Americans across several different sectors.41
Figure 27. Energy Efficiency Employment by Industry Sectors (Q2 2015)
41
These industries include Household Appliance Stores (443141), Electronics Stores (443142), Building
Material and Supplies Dealers (4441), and Department Stores (45211). These are retail establishments
that are not defined by their sale of Energy Star appliances or EE products. Some are defined by their
sale of appliances in general (i.e., those under NAICS 4431) but even these are not the sole retailers of
EE products – they could be general retailers as well such as big box stores that sell wide varieties of
items.
41
Energy Efficiency – Identifying Employment
There are no single NAICS codes that can be entirely allocated as Energy Efficiency employment. Thus,
BLS has no specific data sets that exclusively count jobs in this sector. The Energy Employment Index has
identified approximately 1.9 million workers across the construction, manufacturing, trade, and
professional service sectors that spend some of their time working with energy efficient technologies
and services as defined earlier in this report.
Energy Efficiency employment covers both the production of energy‐saving products and provision of
services that reduce end‐use energy consumption. These services include not only the manufacture of
Energy Star appliances, but also building design and contracting services that provide insulation and
improve natural lighting that reduces overall energy consumption across homes and businesses.
However, the Energy Employment Index only captures employment with certified42 energy efficiency
products or those installed according to Energy Star guidelines. Employment figures only encompass
these output efficiency measures and do not delineate between employment related to energy efficient
manufacturing processes and those workers associated with the design, installation and operation of
combined heat and power and waste heat to power. Future U.S. Energy and Employment Reports will
address some of these gaps. In the meantime, please see the recently released Energy Productivity and
Economic Prosperity Index.43
Demand growth for efficient technology and building upgrades has driven expansion across many
traditional industries including construction trades, appliance manufacturing, building materials,
lighting, and other energy‐saving goods and services. As such, Energy Efficiency workers are found
across many subsets of traditional industries. Energy Efficiency firms project the highest growth rate of
the four analyzed sectors over the coming 12 months, expecting to add another 257,000 jobs to the
sector for a projected growth of 14%.44
1. Construction
The majority of Energy Efficiency employment (65%) identified with EEI data is found across
construction firms. Of the 6.8 million construction workers in the United States, roofing, drywall,
insulation, and building equipment contractors comprise detailed energy‐related subsectors that
employ just over 1.2 million Energy Efficiency workers.
42
Environmental Protection Agency’s Energy Star Program certification
Blok, Kornelis, et al. The 2015 Energy Productivity and Economic Prosperity Index.
44
Note that unlike some other sectors, employment in energy efficiency can increase without net job creation.
This is because firms can begin producing, installing, or repairing Energy Star appliances at any time without
additional hiring of workers.
43
42
Figure 28. Construction Employment (Q2 2015)
6,752,826
7,000,000
Total Construction
industry employment
6,000,000
Employment
5,000,000
4,000,000
4,262,823
3,000,000
Construction Sub‐
Sectors with Energy‐
related employment
2,000,000
1,230,740
Energy Efficiency
employment in
Construction
1,000,000
‐
Construction
Construction and Installation
Of the 6.8 million construction jobs in the nation, roughly three in ten workers (27%) support the energy
industry through Generation and Fuels, Transmission, Wholesale Trade and Distribution, and Storage,
and Energy Efficiency technology construction. Of these 1.8 million workers, over two‐thirds (68%) are
employed by Energy Efficiency firms.
Figure 29. Construction Employment by Energy Technology (Q2 2015)
6,752,826
7,000,000
Total Construction industry
Employment
6,000,000
Employment
5,000,000
Energy Efficiency
4,000,000
3,000,000
Transmission, Distribution,
and Storage
2,000,000
1,000,000
352,535
1,230,740
Generation and Fuels
225,885
0
43
Over three‐quarters of construction and installation firms (77%) report hiring difficulty over the past 12
months; three in ten (32%) note it was very difficult to find qualified applicants. Almost half of all firms
surveyed note that lack of experience, training, or technical skills (43%) was a significant reason for
hiring difficulty, as well as insufficient qualifications, certifications, or education (33%). Constructions
firms encountered difficulties trying to find installation workers (30%), technicians or technical support
(26%), and electricians or general construction workers (25%).
2. Manufacturing
Manufacturing activity is a much smaller portion of the nation’s energy efficiency sector; this is partially
definition and scope‐related. The jobs included in this chapter refer only to the manufacture of Energy
Star rated products or other energy efficient building and lighting services. They do not include process
efficiency (e.g., manufacturers that produce goods using energy efficient equipment, machinery, or
processes). Additionally, as with the other chapters, raw material production and refining for
manufactured goods are excluded from this category (e.g., mining, steel or aluminum rolling mills, etc.).
Finally, the manufacturing figures listed in this chapter exclude workers who are counted in other
chapters, such as those that produce renewable electric generation products or motor vehicles.
Of the 643,000 jobs found in energy‐related manufacturing subsectors such as lighting, household
appliances, or HVAC equipment, about 35,000 workers manufacture energy efficient products.
Figure 30. Manufacturing Employment (Q2 2015)
12,420,380
12,000,000
Total Manufacturing
industry employment
Employment
10,000,000
8,000,000
Manufacturing Sub‐
Sectors with Energy‐
related employment
6,000,000
4,000,000 643,048
Energy Efficiency
employment in
Manufacturing
2,000,000
‐
34,571
Manufacturing
44
3. Wholesale Trade, Distribution, and Transport
A small subset of the almost 6 million BLS QCEW trade, distribution, and transport jobs across the nation
support energy‐related subsectors that may contribute to efficiency products and services. Such
industry subsectors include roofing, siding, and insulation material, household appliance, plumbing and
heating, or HVAC equipment wholesalers. Of these 511,000 jobs, EEI survey data identifies about a
quarter (26%) to be Energy Efficiency workers.
Figure 31. Wholesale Trade, Distribution, and Transport Employment (Q2 2015)
5,907,038
6,000,000
5,000,000
Total Wholesale Trade
industry employment
Employment
4,000,000
Wholesale Trade Sub‐
Sectors with Energy‐
related employment
3,000,000
2,000,000
510,759
Energy Efficiency
employment in
Wholesale Trade
1,000,000
133,206
‐
Wholesale Trade
4. Professional and Business Services
Almost three in ten professional and business service jobs may support the Energy Efficiency industry
through finance, management, and legal services. Of these detailed subsectors, EEI survey data
identifies 6% of employees, or 482,000, work to support energy efficient products and services.
45
Figure 32. Professional and Business Services Employment (Q2 2015)
30,000,000
27,779,423
Total Professional and
Business Services
industry employment
25,000,000
Employment
20,000,000
15,000,000
10,000,000
8,253,285
5,000,000
481,632
Professional and
Business Services Trade
Sub‐Sectors with
Energy‐related
employment
Energy Efficiency
employment in
Professional and
Business Services
‐
Professional & Business Services
Energy Efficiency by Sub Technology
Just over a third (34%) of the Energy Efficiency sector is employed by the traditional heating, ventilation,
or air‐conditioning (HVAC) industry. These employees spend a majority of their time working with
traditional HVAC goods and services, but a portion of their time is also dedicated to Energy Efficient
technologies. This is an important distinction, particularly with installers, because the majority of these
employees would also have specific training in high efficiency HVAC systems.45 The second largest
category of employment is found in energy efficient lighting, followed by advanced building materials,
and Energy Star high Annual Fuel Utilization Efficiency (AFUE) HVAC technologies. Almost half (47%) of
energy efficiency workers46 spend the majority of their time on Energy Efficient goods and services; one‐
third spend all of their time providing Energy Efficiency services.
45
Unlike with the installation and repair of Energy Star appliances such as ranges, dishwashers, or appliances, or
other energy efficient products largely dealing with electricity (lighting, etc.), high efficiency HVAC systems often
have very specific certifications or training requirements in order to properly install and maintain. Manufacturers
often require such certifications for warranty purposes, and EPA has a specific credentialing program for Energy
Star heating and cooling (see:
http://www.energystar.gov/index.cfm?c=bldrs_lenders_raters.nh_hvac_contractors_become).
46
Analysis excludes traditional HVAC employment.
46
Figure 33. Energy Efficiency Employment by Sub Technologies (Q2 2015)
2,000,000
Renewable Heating and
Cooling
135,102
1,800,000
145,876
1,600,000
Other
162,083
Employment
1,400,000
185,545
Energy Star Appliances
1,200,000
292,667
Energy Star/ High AFUE
HVAC
1,000,000
800,000
328,288
Advanced Building Materials
600,000
LED, CFL, and Other Efficient
Lighting
400,000
630,587
200,000
Traditional HVAC
‐
Energy Efficiency – Workforce Characteristics
The Energy Efficiency workforce is less diverse than the national workforce; roughly a quarter of firms
reported employing women (25%) or ethnic and racial minorities (24%).
Table 9. Demographics (Q4 2015)
Women
Ethnic or Racial
Minorities
Veterans
55 and older
National Average47
46.8%
34.0%
6.9%
22.5%
Energy Efficiency
24.9%
23.6%
8.9%
17.6%
Just over three‐quarters of energy efficiency employers (76%) reported hiring difficulty over the past 12
months. About two in ten employers report difficulty finding qualified technicians or technical support
(23%), managers, directors, or supervisors (22%), installation workers (21%). Most reported reasons for
hiring difficulty include lack of experience, training, or technical skills (35%) and insufficient
qualifications, certifications, or education (31%).
47
Current Population Survey, Bureau of Labor Statistics, 2015
47
Table 10. Reported Occupations and Reasons for Hiring Difficulty (Q4 2015)
Reported Occupations with Hiring Difficulty
Reported Reasons for Hiring Difficulty
Technicians or technical support (23%)
Lack of experience, training, or technical skills (35%)
Managers, directors, or supervisors (22%)
Insufficient qualifications, certifications, or education (31%)
Installation workers (21%)
Lack of non‐technical skills – work ethic, critical thinking, etc.
(23%)
Figure 34. Hiring Difficulty (Q4 2015)
3.1%
21.3%
30.6%
Very difficult
Somewhat difficult
Not at all difficult
Don't know/ Refused
45.0%
Energy Efficiency Employment by Census Region
The Pacific states across Division 9 as well as the South Atlantic states in Division 5 employ the most
Energy Efficiency workers in the United States. These states are also expecting high employment growth
for 2016, 16% for Division 5 states and 11% for states across Division 9.
48
Figure 35. Energy Efficiency Employment by Census Region (Q2 2015)
Table 11. Energy Efficiency Projected Employment Growth by Census Region (Q4 2015)
Energy Efficiency Projected Growth
Census Region 1
11.3%
Census Region 2
5.0%
Census Region 3
15.2%
Census Region 4
9.9%
Census Region 5
16.4%
Census Region 6
8.4%
Census Region 7
18.9%
Census Region 8
12.0%
Census Region 9
10.9%
49
Figure 36. Energy Efficiency Hiring Difficulty by Census Region (Q4 2015)
26.6%
Census Division 9
45.9%
31.5%
Census Division 8
46.1%
29.0%
Census Division 7
25.8%
45.0%
24.1%
Census Division 5
Census Division 3
31.6%
Census Division 2
30.8%
0%
10%
Very difficult
20%
25.0%
36.4%
20.8%
48.1%
15.8%
46.2%
35.2%
Census Division 1
17.5%
50.9%
39.0%
Census Division 4
21.3%
38.7%
37.5%
Census Division 6
23.6%
17.9%
41.6%
30%
40%
Somewhat difficult
50%
60%
20.8%
70%
80%
Not at all difficult
90%
100%
DK/NA
50
According to the BLS QCEW, the nation’s Motor Vehicle sector employs roughly 2.4 million Americans.
This is exclusive of dealerships and retailers, which employ approximately 1.9 million additional workers.
Three‐quarters of employment in the Motor Vehicle sector is concentrated in the repair, maintenance,
and manufacture of traditional and advanced vehicle technologies. About two in ten employees support
the sector through wholesale trade, distribution, and transportation services; these include both direct
transport of motor vehicle parts and supplies via air, rail, water, or truck as well as motor vehicle parts
and supplies merchant wholesalers.
Figure 37. Motor Vehicle Employment by Industry Sectors (Q2 2015)
Though not traditionally considered a sector of the energy industry, Motor Vehicle48 employment is
included in this report, given both high energy consumption during production and end‐use energy
dependence. Several NAICS industry codes capture motor vehicle and parts manufacturing, automotive
48
Motor vehicle employers are defined as any firm that contributes to the manufacture, wholesale distribution,
transport, and repair and maintenance of gas and diesel, hybrid, electric, natural gas, hydrogen, fuel cell, or other
vehicle technologies.
51
repair and maintenance, and wholesale trade. However, some employment is also embedded within
industry subsectors including goods transportation and warehousing and professional services. The EEI
delineates Motor Vehicle employment by several subsectors, including gas and diesel vehicles, hybrid,
electric, natural gas, hydrogen, and fuel cell technologies.
Traditional Industry Definitions
NAICS Codes
Sector
3361 Motor Vehicle Manufacturing
204,253
3362 Motor Vehicle Body and Trailer Manufacturing
150,138
3363 Motor Vehicle Parts Manufacturing
567,013
Total Manufacturing
921,404
Motor Vehicle and Motor Vehicle Parts and Supplies
Merchant Wholesalers
330,221
Total Wholesale Trade, Distribution, and Transport
330,221
4231
Motor Vehicles Employment
(QCEW, Q2 2015)
8111 Automotive Repair and Maintenance
912,227
Total Repair and Maintenance
912,227
Total Motor Vehicles
2,163,852
Three NAICS subsectors capture motor vehicle manufacturing entirely, including vehicle, parts, body,
and trailer manufacturing; together these detailed industry sectors employ 921,404 workers. Motor
vehicle and parts dealers represent another detailed NAICS subsector within wholesale trade, and the
QCEW reports about 330,000 workers are employed by these firms. Similarly, automotive repair and
maintenance is captured by a single NAICS industry code within the overall repair and maintenance
industry sector; automotive repair and maintenance firms employ just over 912,000 workers.
Professional and business services are not motor vehicle‐specific, but within the energy‐related
industries subsector, the Energy Employment Index identifies almost 103,000 workers who spend their
time supporting the Motor Vehicle sector. About four in ten (38%) spend the majority of their time
supporting motor vehicle subsectors, while a quarter spend all of their time on this work.
52
Figure 38. Motor Vehicle Employment in Traditional Industry49 (Q2 2015)
Manufacturing
The motor vehicle industry dominates energy‐related manufacturing. Just over three‐quarters (76%) of
all energy‐related manufacturing employment identified in this report is contained within the motor
vehicle industry sector. Generation and Fuels comprise about two in ten manufacturing jobs, followed
by Energy Efficiency manufacturers at three percent and Transmission, Wholesale Trade and
Distribution and Storage at barely one percent. Please note that this report did not include the jobs
associated with the manufacturing of primary materials such as steel, aluminum or glass.
49
Automotive Repair and Maintenance (8111) is a subset of the larger Repair and Maintenance (811) industry. The
1.3 million workers from Figure 37 above represent the overall repair and maintenance industry, while the subset
of 912,000 employees are solely dedicated to automotive repair and maintenance.
53
Figure 39. Manufacturing Employment by Energy Technology (Q2 2015)
12,420,380
12,000,000
Total Manufacturing industry
Employment
10,000,000
Employment
Motor Vehicles
8,000,000
Generation and Fuels
6,000,000
4,000,000
Energy Efficiency
247,707
2,000,000
34,571
0
8,235
921,404
Transmission, Distribution, and
Storage
Seven in ten energy‐related manufacturing firms reported hiring difficulty over the past 12 months; 20%
note it was very difficult to find qualified applicants. Lack of experience, training, or technical skills was
cited by four in ten employers (41%); also cited include insufficient qualifications, certifications, or
education (33%) and difficulty finding industry‐specific knowledge (19%). Most difficult occupations to
fill include engineers (28%), management positions (25%), and sales, marketing, or customer service
representatives (24%).
About four in ten (37%) energy‐related manufacturers report primarily in‐state customers, though
almost half (48%) reported customers outside of a bordering state; 9% of firms primarily serve
international clients. Thirteen percent of firms report that their suppliers and vendors are mostly
outside of the United States.
Motor Vehicles by Sub Technology
Including all business activities, motor vehicle establishments employ about 2.4 million workers across
the nation, exclusive of retail sales by auto dealers. According to BLS QCEW data, motor vehicle and
parts retail dealers employ an additional 1.9 million individuals. About 42% of industry employment is
primarily focused on gas and diesel motor vehicle technologies. Hybrid, electric, and natural gas vehicles
employ between 50,000 to 55,000 workers each. However, a large portion of Motor Vehicle sector
employment, particularly in Repair and Maintenance, remains unassigned to a particular fuel
technology. The sector is projected to grow by just under one percent throughout 2016, creating an
additional 11,000 jobs.
54
A large proportion of motor vehicle industry employment, including jobs associated with general repair
and maintenance and component part manufacturing (such as windshields, brake pads, etc.), are not
specific to fuel type or technology, and therefore participating employers were unable to apportion
employment by vehicle sub technology (e.g., gasoline, electric, natural gas, etc.). In addition, some of
these segments, notably oil change service stations and auto body repair, were not included in the
business survey. Employment that could not be determined to be specific to a fuel or technology are
referred to in this chapter as “unassigned.”
Figure 40. Motor Vehicle Employment by Sub Technology50 (Q2 2015)
2,500,000
2,822
6,801
51,885
2,000,000
20,398
53,030
55,401
Employment
1,222,839
1,500,000
Hydrogen
Fuel Cell
Other
Natural Gas
Hybrid and Plug‐in Hybrid
1,000,000
Electric
500,000
1,008,416
Unassigned
Gasoline and Diesel
‐
Motor Vehicles – Workforce Characteristics
The Motor Vehicle sector reported the lowest proportion of female employees compared to the other
sectors. Ethnic and racial minorities (23%) as well as workers 55 years of age or older (24%) represent
about a quarter of the workforce.
50
The BW Energy Index did not sample several automotive manufacturing and maintenance NAICS codes.
Employment represented in the chart is “unassigned” given lack of survey data to allocate into respective sub
technologies.
55
Table 12. Demographics (Q4 2015)
Women
Ethnic or Racial
Minorities
Veterans
55 and older
National Average51
46.8%
34.0%
6.9%
22.5%
Motor Vehicles
17.8%
23.3%
11.3%
23.8%
Motor Vehicle firms had the highest reported difficulty finding qualified workers (78%). Just over a third
of employers mentioned lack of soft skills (35%), followed by lack of experience, training, or technical
skills (34%), and insufficient qualifications, certifications, or education (30%); two in ten firms also
mentioned difficulty finding industry‐specific knowledge and skills (18%). Top three difficult occupations
to fill include technician or technical support (43%), sales, marketing or customer service representatives
(24%), and managers, directors, or supervisors (14%).
Table 13. Reported Occupations and Reasons for Hiring Difficulty (Q4 2014)
Reported Occupations with Hiring Difficulty
Technician or technical support (43%)
Reported Reasons for Hiring Difficulty
Lack of non‐technical skills – work ethic, critical
thinking, etc. (35%)
Sales, marketing, or customer service representatives Lack of experience, training, or technical skills
(24%)
(34%)
Managers, directors, or supervisors (14%)
Insufficient qualifications, certifications, or
education (30%)
51
Current Population Survey, Bureau of Labor Statistics, 2015
56
Figure 41. Hiring Difficulty (Q4 2015)
1.6%
21.0%
36.5%
Very difficult
Somewhat difficult
Not at all difficult
Don't know/ Refused
41.0%
Motor Vehicle Employment by Census Region
East North Central United States is home to a high concentration of Motor Vehicle employment; these
states include Indiana, Illinois, Michigan, Ohio, and Wisconsin. The Motor Vehicle sector projects low
employment growth across all census divisions, under one percent for nearly all regions.
Figure 42. Motor Vehicle Employment by Census Region (Q2 2015)
57
Table 14. Motor Vehicle Projected Employment Growth by Census Region (Q4 2015)
Motor Vehicle Projected Growth
Census Region 1
0.4%
Census Region 2
0.5%
Census Region 3
‐0.1%
Census Region 4
0.6%
Census Region 5
0.9%
Census Region 6
0.4%
Census Region 7
1.6%
Census Region 8
1.2%
Census Region 9
0.9%
Figure 43. Motor Vehicle Hiring Difficulty by Census Region (Q4 2015)
26.5%
Census Division 9
42.6%
42.5%
Census Division 8
27.5%
28.0%
Census Division 7
27.9%
44.0%
24.0%
44.4%
Census Division 6
33.3%
29.4%
Census Division 5
23.5%
48.3%
43.1%
28.6%
8.6%
49.0%
33.3%
Census Division 2
22.2%
47.1%
Census Division 4
Census Division 3
25.0%
22.4%
33.3%
33.3%
72.7%
Census Division 1
0%
10%
Very difficult
20%
30%
40%
Somewhat difficult
27.3%
50%
60%
70%
80%
Not at all difficult
90%
100%
DK/NA
58
Survey and Analysis Methods
The BW Research Energy Employment Index (EEI) methodology relies on the most recently available
data from the Bureau of Labor Statistics Quarterly Census of Employment and Wages (QCEW, Quarter
2), together with a detailed supplemental survey of business establishments across the United States
designed and conducted independently by BW Research Partnership. Although DOE did not participate
in the development of the Index nor the collection of survey data, DOE conducted a comprehensive
review of the methodology underlying the Energy Employment Index. During a time of rapid change in
energy technology and business employment structure, supplemental surveys are an important tool to
capture developing trends. Taken together, the BLS and EEI data provide the most comprehensive
calculation of energy‐related employment available. The methodology has been used for local, state,
and federal energy related data collection and analysis for nearly a decade, including The Solar
Foundation’s National Solar Jobs Census series, clean energy reports for state agencies in the
Commonwealth of Massachusetts, State of Vermont, and State of Rhode Island, and numerous
nonprofit agencies across the U.S.
The EEI survey uses a stratified sampling plan that is representative by industry code (NAICS or ANAICS),
establishment size, and geography to determine the proportion of establishments that work with
specific energy‐related technologies, as well as the proportion of workers in such establishments that
work with the same. These data are then analyzed and applied to existing public data published by the
Bureau of Labor Statistics, effectively constraining the potential universe of energy establishments and
employment. BW Research Partnership believes that the methodology used for the EEI could be
adopted as a supplemental series to the QCEW with only minor revision.
The EEI survey was administered by telephone (more than 300,000 outbound calls) and by web, with
more than 50,000 emails sent to participants throughout the U.S. The phone survey was conducted by
I/H/R Research Group and Castleton Polling Institute. The web instrument was programmed internally
and each respondent was required to use a unique ID in order to prevent duplication.
The sample was split into two categories, referred to as the known and unknown universes. The known
universe includes establishments that have previously identified as energy‐related, either in prior
research or some other manner, such as membership in an industry association or participation in
government programs. These establishments were surveyed census style, and their associated
establishment and employment totals were removed from the unknown universe for both sampling and
for resulting employment calculations and estimates.
The unknown universe includes hundreds of thousands of businesses in potentially energy‐related
NAICS codes, across agriculture, mining, utilities, construction, manufacturing, wholesale trade,
professional services, and repair and maintenance. Each of these segments and their total reported
establishments (within the Bureau of Labor Statistics QCEW) were carefully analyzed by state to develop
representative clusters for sampling. In total, approximately 20,000 business establishments
participated in the survey effort, with more than 8,500 providing full responses to the survey. These
responses were used to develop incidence rates among industries (by state) as well as to apportion
employment across various industry categories in ways currently not provided by state and federal labor
market information agencies. The margin of error for incidence in the index is +/‐0.85% at a 95%
confidence interval.
59
For several industries, particularly transportation of goods, the Index utilized the methodology
developed by the Department of Energy and the National Renewable Energy Laboratory for the
Quadrennial Energy Review (QER). Proportion of employment was calculated by dividing commodity
shipments by value (millions of $) for coal, fuel oil, gas, motor vehicles, petroleum, and other coal and
petroleum products out of total commodity value at the state level by truck, rail, air, and water
transport. This proportion was applied to NAICS employment for truck transportation (484), water
transportation (483), air transportation (481), and Railroad Retirement Board employment for rail
transportation at the state level. With this analysis, truck transportation represents the majority of
energy‐related transportation employment (65%), followed by rail (25%), water (9%), and air (1%).
Of important note, the EEI expressly excludes any employment in retail trade NAICS codes. This excludes
gasoline stations, fuel dealers, motor vehicle dealerships, appliance and hardware stores and other retail
establishments. Where relevant, separate reference is made to retail employment.
All data in the index rely on the Bureau of Labor Statistics Quarterly Census of Employment and Wages
data for the second quarter of 2015. The EEI survey was administered between September 15, 2015 and
November 24, 2015 and averaged 14 minutes in length.
60
Appendix A: Employment by Technology and Sub Technology
EEI Employment by Technology and Sub Technology (Q2 2015)
Electric Power Generation and Fuels
Electric Power Generation
666,280
Solar
299,953
Wind
77,088
Geothermal
7,645
Bioenergy/ Biomass
18,804
Low‐Impact Hydroelectric
8,608
Other Renewable Energy Generation
1,826
Traditional Hydropower
26,811
Advance/ Low Emission Natural Gas
35,980
Nuclear
36,097
Fossil Fuel
135,898
Other
17,570
Fuels
938,786
Fossil Fuels
747,877
Corn Ethanol
47,250
Other Ethanol/ Non‐Woody Biomass
14,761
Woody Biomass
18,031
Nuclear
6,812
Other
1,606,066
104,055
61
Electric Power and Fuels Transmission, Wholesale Trade and
1,045,916
Distribution, and Storage
Traditional Transmission and Distribution
832,290
Truck, Rail, and Other Transport of Fuel
163,869
Storage
27,140
Smart Grid
12,880
Other
9,736
Energy Efficiency
Energy Star Appliances
162,083
LED, CFL, and Other Efficient Lighting
328,288
Traditional HVAC
630,587
Energy Star/ High AFUE HVAC
185,545
Renewable Heating and Cooling
135,102
Advanced Building Materials/ Insulation
292,667
Other
145,876
Motor Vehicles
Gasoline and Diesel
1,880,149
1,198,752
1,008,416
Hybrid and Plug‐In Hybrid
53,030
Electric
55,401
Natural Gas
51,885
Hydrogen
2,822
Fuel Cell
6,801
Other
20,398
62
Appendix B: Employment by BLS QCEW NAICS 2015 Q2
Employment by BLS QCEW NAICS 2015 Q2
Electric Power Generation and Fuels
935,664
Oil and Gas Extraction
195,604
Coal Mining
65,180
213112
Support Activities for Oil and Gas Operations
275,430
213113
Support Activities for Coal Mining
211
2121
Total Mining and Extraction:
543,723
221111
Hydroelectric Power Generation
17,129
221112
Fossil Fuel Electric Power Generation
114,351
221113
Nuclear Electric Power Generation
51,537
221114
Solar Electric Power Generation
2,023
221115
Wind Electric Power Generation
4,316
221116
Geothermal Electric Power Generation
1,089
221117
Biomass Electric Power Generation
1,544
221118
Other Electric Power Generation
1,155
Total Utilities:
324
33313
22112
2212
221330
112,562
Mining and Oil and Gas Field Machinery Manufacturing
86,235
198,797
Electric Power Transmission, Wholesale Trade and Distribution, and
Storage
767,471
Electric Power Transmission, Control, and Distribution
293,786
Natural Gas Distribution
119,592
Steam and Air‐Conditioning Supply
Total Utilities:
23712
193,144
Petroleum and Coal Products Manufacturing
Total Manufacturing:
7,509
Oil and Gas Pipeline and Related Structures Construction
1,828
415,206
135,294
63
23713
Power and Communication Line and Related Structures
Construction
169,226
Total Construction:
304,520
4861
Pipeline Transportation of Crude Oil
10,730
4862
Pipeline Transportation of Natural Gas
30,658
4869
Other Pipeline Transportation
8,357
Total Wholesale Trade, Distribution, and Transport:
Motor Vehicles
49,745
2,163,852
3361
Motor Vehicle Manufacturing
204,253
3362
Motor Vehicle Body and Trailer Manufacturing
150,138
3363
Motor Vehicle Parts Manufacturing
567,013
Total Manufacturing:
921,404
4231
Motor Vehicle and Parts and Supplies Merchant Wholesalers
Total Wholesale Trade, Distribution, and Transport:
8111
Automotive Repair and Maintenance
330,221
330,221
912,227
Total Repair and Maintenance:
912,227
Appendix C: Employment by Census Region
Census
Division
Electric Power
Electric Power and Fuels
Generation
Transmission, Wholesale Trade
and Fuels
and Distribution, and Storage
Energy
Efficiency
Motor Vehicles
Division 1
67,971
32,146
129,977
29,123
Division 2
141,221
88,266
163,319
50,388
Division 3
154,843
104,153
270,122
462,239
Division 4
108,511
73,758
153,426
95,357
Division 5
201,430
125,281
385,290
150,554
Division 6
81,368
59,708
82,320
186,662
64
Division 7
517,000
176,803
144,281
93,478
Division 8
225,620
78,406
148,070
39,306
Division 9
270,972
143,524
403,345
91,647
Appendix C: Primary Energy Consumption by Source and Sector,
2014 (Quadrillion Btu)
65
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