Greenhouse Gas Reporting Program (GHGRP)

GHGRP Reported Data

For reporting year (RY) 2015, over 8,000 facilities and suppliers reported to the greenhouse gas reporting program. Among these reporters,

  • 8,003 facilities in nine industry sectors reported direct emissions.
  • Reported direct emissions totaled 3.05 billion metric tons carbon dioxide equivalent (CO2e), about half of total U.S. greenhouse gas emissions.
  • 961 suppliers reported.
  • 101 facilities reported injecting CO2 underground.

Summary GHGRP data has been broken into several sections. Click the links below to expand each section.

  • Greenhouse Gas Reporting Program Background

    As directed by Congress, EPA’s Greenhouse Gas Reporting Program (GHGRP) collects annual greenhouse gas information from the top emitting sectors of the U.S. economy (Table 1). The GHGRP is the only dataset containing facility-level greenhouse gas (GHG) emissions data from large industrial sources across the United States. With five years of reporting for most sectors, GHGRP data are providing important new information on industrial emissions—showing variation in emissions across facilities within an industry, variation in industrial emissions across geographic areas, and changes in emissions over time at the sector and facility level. EPA is using this facility-level data to improve estimates of national greenhouse gas emissions, including using it to improve the U.S. Greenhouse Gas Inventory. The data are also being used to inform regulatory actions and voluntary emission reduction efforts.

    This document summarizes national industrial sector emissions and trends.

    Table 1: GHGRP Sector Classifications
    Industry Sector Number of Reporters Emissions (Million Metric Tons CO2e)
    Power Plants 1,480 1,969.3
    Petroleum and Natural Gas Systems 2,413 231.4
    Onshore Petroleum & Nat. Gas Prod. 534 97.3
    Offshore Petroleum & Nat. Gas Prod. 133 7.3
    Natural Gas Processing 467 58.5
    Natural Gas Transmission/Compression 521 22.9
    Underground Natural Gas Storage 53 1.51
    Natural Gas Local Distribution Companies 177 14.3
    Liquefied Natural Gas Import/Export 7 0.6
    LNG Storage 7 **
    Other Petroleum & Natural Gas Systems 541 29.1
    Refineries 144 175.6
    Chemicals 462 173.9
    Non-Fluorinated Chemicals
    Adipic Acid Production 3 6.1
    Ammonia Manufacturing 23 22.8
    Hydrogen Production 110 44.1
    Nitric Acid Production 34 11.8
    Petrochemical Production 68 54.9
    Phosphoric Acid Production 12 1.6
    Silicon Carbide Production 1 0.1
    Titanium Dioxide Production 7 2.3
    Other Chemicals 213 20.3
    Fluorinated Chemicals
    Fluorinated GHG Production 14 5.6
    HCFC-22 Prod./HFC-23 Dest. 4 4.3
    Waste 1,540 111.7
    Industrial Waste Landfills 174 8.6
    MSW Landfills 1,161 91.0
    Solid Waste Combustion 64 10.1
    Industrial Wastewater Treatment 148 2.1
    Metals 297 90.2
    Aluminum Production 9 5.3
    Ferroalloy Production 10 2.1
    Iron and Steel Production 127 70.3
    Lead Production 12 1.0
    Magnesium Production 11 1.2
    Zinc Production 5 0.6
    Other Metals 123 9.7
    Minerals 379 115.5
    Cement Production 95 68.8
    Glass Production 106 8.0
    Lime Manufacturing 74 28.8
    Soda Ash Manufacturing 4 5.2
    Other Minerals 102 4.6
    Pulp and Paper 232 38.4
    Chemical Pulp and Paper Production 108 26.9
    Other Paper Producers 124 11.6
    Other 1,433 139.5
    Food Processing 341 30.9
    Ethanol Production 176 18.5
    Other Manufacturing 287 15.5
    Universities 115 8.9
    Military 41 2.4
    Other Combustion 180 11.3
    Underground Coal Mines 123 42.9
    Electronics Manufacturing 58 6.3
    Electrical Equipment Manufacturers 7 0.2
    Use of Electrical Equipment 105 2.7

    ** Total reported emissions are less than 0.05 million metric tons CO2e.

    The Southern California Gas Company - Aliso Canyon facility’s actual 2015 emissions were higher than those reported to the GHGRP. The GHGRP provides well-vetted average emission factors to calculate emissions. The facility followed these GHGRP calculation methods for 2015 reporting. Actual emissions differ from those reported due to an exceptional leak event. See California Air Resource Board’s Aliso Canyon Natural Gas Leak Exitwebpage for more information.   

    The GHGRP does not represent total U.S. GHG emissions, but provides facility level data for large sources of direct emissions, thus representing the majority of U.S. GHG emissions. The GHGRP data collected from direct emitters representing about half of all U.S. emissions. When including greenhouse gas information reported to the GHGRP by suppliers, emissions coverage reaches approximately 85–90% (See Figure 1). The Inventory of U.S. Greenhouse Gas Emissions and Sinks: 1990-2014 contains information on all GHG emissions sources and sinks in the United States.

    Learn more about the differences between the Inventory and the GHGRP.

    Figure 1: U.S. Greenhouse Gas Inventory and the Greenhouse Gas Reporting Program

    GHGRP 2015 Reported Data bar graph

    Suppliers report the quantity of GHGs that would be emitted if the fuels and industrial GHGs that they place into the economy each year are used/released. Reporting by suppliers helps account for the greenhouse gas emissions by the numerous low-emitting sources that are not required to report emissions under the GHGRP (e.g., mobile sources, residential sources). Learn more about suppliers and their 2015 reported data.

    Table 2: Overview of GHG Data Reported (2015)
    Direct emitters
    Number of facilities reporting 8,003
    Reported direct emissions (billion metric tons CO2e) 3.05
    Suppliers of fuel and industrial gases
    Number of suppliers 961
    Underground injection of carbon dioxide
    Number of carbon dioxide injection facilities 101
  • Who reports?

    For 2015, 8,003 direct emitters submitted a GHG report. The Petroleum and Natural Gas Systems sector had the largest number of reporting facilities, followed by the Waste Sector and the Power Plants Sector. Among suppliers, Suppliers of Natural Gas and Natural Gas Liquids had the largest number of reporting facilities.

    Table 3: Number of Direct Emitters that Reported (2015)
    Industry Sector Number of Reporters1
    Power Plants 1,480
    Petroleum and Natural Gas Systems 2,413
    Refineries 144
    Chemicals 462
      Fluorinated Chemicals 15
      Non-fluorinated Chemicals 447
    Waste 1,540
    Metals 297
    Minerals 379
    Pulp and Paper 232
    Other 1,433
      Underground Coal Mines 123
      Electrical Equipment Production & Use 112
      Electronics Manufacturing 58
      Other Combustion 1,140

    1 Totals sum to more than 8,003 because facilities whose activities fall within more than one sector are counted multiple times.

  • Reported Emissions

    In 2015, 3.05 billion metric tons CO2e were reported by direct emitters. The largest emitting sector was the Power Plant Sector with 2.0 billion metric tons CO2e, followed by the Petroleum and Natural Gas Systems Sector with 231 million metric tons (MMT) CO2e and the Refineries Sector with 176 MMT CO2e. This information, as well as average emissions per reporter, is shown in the following chart.

    Figure 2: Direct GHG Emissions Reported by Sector (2015)

    GHGRP 2015 Reported Data bar graph 2

    View this information in FLIGHT.

  • Emissions Trends

    National level trends in greenhouse gas emissions are available through the Inventory of U.S. Greenhouse Gas Emissions and Sinks: 1990-2014. The Greenhouse Gas Reporting Program is different from the U.S. GHG Inventory in that it collects information from the largest stationary sources in the U.S. and provides nearly complete emissions coverage for many of the largest emitting industries. Trends in emissions reported for individual industries are discussed in the industry-specific reports.

    Total U.S. emissions increased by 1.0% from 2013 to 2014, based on the U.S. GHG Inventory. Between 2013 and 2014, emissions reported to the GHGRP increased by 0.5% (Table 4).

    The U.S. GHG Inventory is not yet available for 2015. For sources reporting to the GHGRP, emissions increased by 0.5% from 2013 to 2014. Over the past five reporting years (2011-2015), GHGRP reported emissions have declined by 8.2%. This decline is caused primarily by a 11.3% decline in reported emissions by power plants since 2011.

    Table 4: Emissions Trends for U.S. GHG Inventory and GHGRP (2011-2015)
      2011 2012 2013 2014 2015
    U.S. GHG Inventory
    Total emissions (million metric tons CO2e) 6,865.4 6,643.0 6,800.0 6,870.5 Not available
    Percent change in emissions from previous year -1.7% -3.2% 2.4% 1.0% Not available
    Number of direct-emitting facilities 7,641 7,885 7,962 8,183 8,003
    Direct emissions (million metric tons CO2e) 3,317.8 3,168.0 3,186.0 3,202.1 3,045.6
    Percent change in emissions from previous year -4.5% 0.6% 0.5% -4.9%
    Table 5: Emission Trends by Sector (2011-2015)
    Sector 2011 Emissions (MMT CO2e) 2012 Emissions (MMT CO2e) 2013 Emissions (MMT CO2e) 2014 Emissions (MMT CO2e) 2015 Emissions (MMT CO2e)
    Power Plants 2,221.3 2,088.4 2,103.6 2,099.6 1,969.3
    Oil & Gas 222.3 226.0 227.8 235.1 231.4
    Refineries 178.2 172.5 174.0 175.2 175.6
    Chemicals 180.3 172.3 173.8 176.3 173.9
       Fluorinated Chemicals 17.4 14.1 13.1 11.4 9.9
       Non-fluorinated Chemicals 162.9 158.3 160.7 165.0 164.1
    Waste 115.3 116.5 112.2 112.6 111.7
    Metals 112.0 106.8 106.8 104.4 90.2
    Minerals 103.2 107.5 111.5 116.6 115.5
    Pulp & Paper 44.2 42.7 39.4 39.3 38.4
    Other 141.0 135.4 136.9 143.0 139.5
       Underground Coal Mines 40.4 38.4 40.5 43.2 42.9
       Electrical Equipment Production & Use 4.3 3.4 3.5 3.4 2.9
       Electronics Manufacturing 7.0 6.4 5.1 6.2 6.3
       Other Combustion 89.4 87.2 87.8 90.2 87.5

    Figure 3: Trends in Direct GHG Emissions (2011-2015) 1,2

    GHGRP 2015 Reported Data line graph

    View this information in FLIGHT.

    1 Non-fluorinated Chemicals and Fluorinated Chemicals are components of “Chemicals” in FLIGHT.
    2 Other Combustion, Underground Coal Mines, Electronics Manufacturing and Electrical Equipment Production & Use comprise “Other” in FLIGHT.

  • Emissions by GHG

    Carbon dioxide is the GHG emitted in the largest quantities. The 2.8 billion metric tons of CO2 reported for 2015 represent 91.3% of the GHGs reported in 2015a Methane emissions represent 7.2% of reported 2015 GHG emissions, N2O represents 0.9%, and fluorinated gases (HFCs, PFCs, SF6) represent 0.7% (Figure 4).

    a The Inventory of U.S. Greenhouse Gas Emissions And Sinks for 2015 is not yet available. In 2014, CO2 represented 81% of total U.S. GHG emissions.

    Figure 4: Direct Emissions by GHG (2015)

    GHGRP 2015 Reported Data bar graph 3

    The table below lists the primary sectors emitting each GHG.

    Table 6: Largest Sources of GHG Emissions
    Greenhouse Gas Source Categories Contributing Most to Emissions1 Sectors Contributing Most to Emissions
    CO2 Electricity Generation (D), Stationary Combustion (C) Power Plants
    CH4 Municipal Landfills (HH), Petroleum & Natural Gas Systems (W) Waste, Petroleum & Natural Gas Systems
    N2O Nitric Acid Production (V), Electricity Generation (D), Adipic Acid Production (E) Chemicals, Power Plants
    SF6 SF6 from Electrical Equipment (DD), Electronics Manufacturing (I), Magnesium Production (T) Other, Metals
    NF3 Electronics Manufacturers (I), Fluorinated Gas Production (L) Other
    HFCs HCFC–22 Production and HFC–23 Destruction (O), Fluorinated Gas Production (L) Chemicals
    PFCs Electronics Manufacturers (I), Aluminum Production (F) Metals, Other

    1 These source categories account for 75% or more of the reported emissions of the corresponding GHG. The subpart under which the emissions were reported is shown in parentheses.

  • Geographic Distribution of Emissions

    Figure 5: Location and Total Reported Emissions from GHGRP Facilities (2015)

    GHGRP 2015 Reported Data map

    This map shows the locations of direct-emitting facilities. The size of a circle corresponds to the quantity of emissions reported by that facility. There are also facilities located in Alaska, Hawaii, Puerto Rico, the U.S. Virgin Islands, and Guam.

    GHGRP 2015 Reported Data map 2GHGRP 2015 Reported Data map 3GHGRP 2015 Reported Data map 4GHGRP 2015 Reported Data map 5

    Readers can identify facilities in their state, territory, county, or city by visiting FLIGHT.

    Because it generally applies to facilities that emit greater than 25,000 metric tons CO2e per year, the GHGRP provides total reported emissions from large stationary sources in each state. Figure 6 shows the reported emissions in each state broken out by industrial sector.

    Figure 6: Direct GHG Emissions by State and Sector (2015)

    GHGRP 2015 Reported Data bar graph 4

    View this information in FLIGHT.

  • Emissions Range

    The GHGRP provides a comprehensive dataset that can be used to determine the number of facilities at various emissions levels in many industry sectors. The GHGRP can also be used to determine the total GHG emissions from individual facilities, including emissions from fossil fuel combustion and other processes. This information is valuable for planning future policies. GHGRP data provide policy makers with a better understanding of the number of facilities and total emissions that would be covered by potential GHG reduction policies for various industries.

    Figure 7: Percentage of All Reporting Facilities at Various Emission Ranges (2015)

    GHGRP 2015 Reported Data bar graph 5

    Eighty percent of reporting facilities had emissions less than 250,000 metric tons CO2e. In 2015, the 651 largest-emitting facilities—those emitting more than one million metric tons CO2e—accounted for almost 2.2 billion metric tons CO2e. These emissions represent 71.7% of the total 3.05 billion metric tons CO2e reported. These high-emitting facilities are mainly power plants, but also include petroleum refineries and facilities in the Chemicals and Metals sectors.

    You can use FLIGHT to list and sort facilities based on total reported emissions and find the largest emitting facilities in the country or a specific state or county. This tool also allows you to sort facilities by specific industry types.

    Figure 8: Facility Emission Ranges (2015)

    GHGRP 2015 Reported Data bar graph 6

  • GHGRP Calculation Methods Used

    The GHGRP prescribes methodologies that must be used to determine GHG emissions from each source category. Reporters generally have the flexibility to choose among several methods to compute GHG emissions. The decision of which method to use may be influenced by the existing environmental monitoring systems in place and other factors. Reporters can change emission calculation methods from year to year and within the same year, as long as they meet the requirements for use of the method selected.

    Additional information on the methodologies that reporters use to determine GHG emissions

  • Report Verification

    All reports submitted to EPA are evaluated by electronic validation and verification checks. If potential errors are identified, EPA will notify the reporter, who can resolve the issue either by providing an acceptable response describing why the flagged issue is not an error or by correcting the flagged issue and resubmitting their annual GHG report.

    Additional information describing EPA’s verification process in more details

  • For More Information

    For more detailed information from each industrial sector, view the GHGRP Data Highlights and select an industry from the text box on the right hand side.

    Use FLIGHT to view maps of facility locations, obtain summary data for individual facilities, create customized searchers, and display search results graphically.

    Downloadable spreadsheets containing summary data reported to the GHGRP from each reporter are available on the Data Downloads page.

    All other publicly available data submitted to the GHGRP are available for download through Envirofacts.

    The U.S. Greenhouse Gas Inventory contains information on all sources of GHG emissions and sinks in the United States from 1990 to 2014.

    All GHG emissions data reflect the global warming potential (GWP) values from the Fourth Assessment Report (AR4) of the Intergovernmental Panel on Climate Change (Climate Change 2007: The Physical Science Basis. Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change [Core Writing Team, Pachauri, R.K. and Reisinger, A. (eds)]. IPCC, Geneva, Switzerland, 2007). The AR4 values also can be found in the current version of Table A-1 in subpart A of 40 CFR part 98.