Form 1605 Voluntary Reporting of Greenhouse Gases

Voluntary Reporting of Greenhouse Gases

Form EIA-1605_SMG

Voluntary Reporting of Greenhouse Gases

OMB: 1905-0194

⚠️ Notice: This form may be outdated. More recent filings and information on OMB 1905-0194 can be found here:

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Form EIA-1605
Voluntary Reporting of Greenhouse Gases
Revised Pursuant to 10 CFR Part 300
Guidelines for Voluntary Greenhouse Gas Reporting

DRAFT

Energy Information Administration
U.S. Department of Energy
November 9, 2006

DRAFT ˿ November 9, 2006

TABLE OF CONTENTS
SCHEDULE I. ENTITY INFORMATION ...................................................................................................... 1
Section 1. Entity Statement .................................................................................................................... 1
Section 2. Entity Emissions Inventory .................................................................................................... 7
Part A. Aggregated Emissions by Gas (for independently verified reports only) ............................ 7
1. Aggregated Domestic Emissions by Gas .............................................................................. 7
2. Aggregated Foreign Emissions by Gas................................................................................. 8
Part B. Inventory of Domestic Emissions and Carbon Flux ........................................................... 10
1. Direct Emissions .................................................................................................................. 10
2. Indirect Emissions from Purchased Energy ........................................................................ 16
3. Other Indirect Emissions ..................................................................................................... 17
4. Terrestrial Carbon Fluxes and Stocks ................................................................................. 18
5. De Minimis Emissions Sources ........................................................................................... 22
Part C. Inventory of Foreign Emissions and Carbon Flux............................................................. 23
Part D. Total Emissions and Carbon Flux..................................................................................... 24
1. Total Domestic Emissions and Carbon Flux ....................................................................... 24
2. Total Foreign Emissions and Carbon Flux .......................................................................... 25
Part E. Emissions Inventory Rating Summary.............................................................................. 26
Section 3. Emissions Offsets .............................................................................................................. 28
Part A. Offsets Obtained by Agreement with Another Reporter ................................................... 28
Part B. Offsets Obtained by Agreement with a Non-reporter ....................................................... 29
Section 4. Entity-level Emission Reductions ...................................................................................... 30
SCHEDULE II. SUBENTITY INFORMATION ..........................................................................................
Section 1. Subentity Statement ...........................................................................................................
Section 2. Subentity Emissions Inventory ..........................................................................................
Section 3. Summary of Emission Reductions from Subentities .........................................................

31
31
33
34

SCHEDULE III. EMISSION REDUCTIONS SUMMARY ...........................................................................
Section 1. Registered Emission Reductions .......................................................................................
Part A. Domestic Net Entity-level Reductions and Carbon Storage .............................................
Part B. Foreign Net Entity-level Reductions and Carbon Storage ................................................
Section 2. Reported Emission Reductions ..........................................................................................
Part A. Domestic Net Entity-level Reductions and Carbon Storage .............................................
Part B. Foreign Net Entity-level Reductions and Carbon Storage ................................................

35
35
35
36
37
37
39

SCHEDULE IV. VERIFICATION AND CERTIFICATION......................................................................... 41
Section 1. Independent Verification..................................................................................................... 41
Section 2. Reporter Self-certification ................................................................................................... 44
Addendum A. Inventory of Foreign or Subentity Emissions................................................................A1
Part A. Aggregated Emissions by Gas (for independently verified reports only) ................................A1
Part B. Inventory of Emissions and Carbon Flux..................................................................................A3
1. Direct Emissions ........................................................................................................................A3
2. Indirect Emissions from Purchased Energy...............................................................................A9
3. Other Indirect Emissions ..........................................................................................................A10
4. Terrestrial Carbon Fluxes and Stocks......................................................................................A11
5. De Minimis Emissions Sources................................................................................................A15
Part C. Total Subentity Emissions and Carbon Flux ..........................................................................A16
Addendum B. Emission Reduction Methods .........................................................................................B1
B1. Changes in Emissions Intensity .....................................................................................................B1
B2. Changes in Absolute Emissions.....................................................................................................B4
B3. Changes in Carbon Storage...........................................................................................................B7
B4. Changes in Avoided Emissions .....................................................................................................B9
Form EIA-1605 ˿ Voluntary Reporting of Greenhouse Gases

DRAFT ˿ November 9, 2006

B5. Emission Reductions from Energy Generation and Distribution..................................................B11
B6. Reductions from Coal Mine Methane Gas Recovery...................................................................B13
B7. Landfill Methane Recovery...........................................................................................................B18
B8. Geologic Sequestration................................................................................................................B23
B9. Electricity Transmission and Distribution Improvements .............................................................B26
B10. Capture of Methane from Anaerobic Digestion at Wastewater Treatment Facilities .................B29
B11. Capture of Methane from Anaerobic Digestion of Animal Waste ..............................................B34
B12. Recycling of Fly Ash...................................................................................................................B39
B13. Demand-Side Management and Other Reduction Programs ....................................................B42
B14. Combined Heat and Power ........................................................................................................B45
B15. Other Action-Specific Methods ..................................................................................................B49
B16. Destruction of Chlorofluorocarbons ...........................................................................................B52
Addendum C. Country-specific Factors Used to Estimate Emissions from Foreign Sources .........C1

Form EIA-1605 ˿ Voluntary Reporting of Greenhouse Gases

DRAFT ˿ November 9, 2006

NOTE: Title 18 U.S.C. 1001 makes it a criminal offense for any person knowingly and willingly
to make to any Agency or Department of the United States any false, fictitious, or fraudulent
statements as to any matter within its jurisdiction.
REPORTING YEAR _______________
(Reporting Year is the calendar year for which you are reporting emissions. If this is a Start Year report,
enter the Start Year.)

SCHEDULE I. ENTITY INFORMATION
SECTION 1. ENTITY STATEMENT
1. Enter Entity Identification:
Entity Name: _______________________________________
Address 1: _____________________________
Address 2: _____________________________
City:______________________ State: _____ Zip: _____-____
Entity URL : ________________________________________
Entity Tax Payer Identification Number (optional): ___________________

2. Enter Contact Information:
Contact Name: ______________________________________
Title: ______________________________________________
Contact address is the same as Entity Address
Address 1: _____________________________
Address 2: _____________________________
City:______________________ State: _____ Zip: _____-____
Tel: (__ __ __) __ __ __ -__ __ __ __ ext.: _______
Fax: (__ __ __) __ __ __ -__ __ __ __
E-Mail: ____________________________________________
3. Enter Report Characteristics
a. Report Type (please check one):
Reporting but not registering reductions - Start Year
Reporting but not registering reductions - Reporting Year
Registering reductions - Start Year
Registering reductions - Reporting Year
b. Entity Type (please check one):
Large emitter (more than 10,000 metric tons carbon dioxide equivalent annually)
Small emitter (less than or equal to 10,000 metric tons carbon dioxide equivalent annually)
c.

Subentities (please check one):
This report includes subentity reports:

Yes

d. Independent Verificiation
This report been verified by an independent third party: Yes

Form EIA-1605 – Schedule I, Section 1. Entity Statement

DRAFT ˿ November 9, 2006

4. Indicate Any Significant Changes to Previous Entity Statement (not applicable for Start Year reports)
The entity has not undergone significant changes since the last Voluntary Reporting of
Greenhouse Gases report
The entity has undergone significant changes since the last Voluntary Reporting of Greenhouse
Gases report was filed. Please check the appropriate box below:

Data are being resubmitted for the base period:

For the entire entity

For one or more subentities

New base period has been selected:

For the entire entity (please describe):_______________________________
______________________________________________________________
For one or more subentities (describe in relevant subentity statement (Schedule II)

Changes have been made in the entity's scope or organizational boundaries, of the
following nature:

Acquisition or divestiture of discrete business units, subsidiaries, facilities or
plants
please describe: _____________________________________

Closure or opening of significant facilities
please describe: ______________________________________

Transfer of economic activity to or from specific operations covered by a
previous report
please describe: ______________________________

Significant changes in land holdings
please describe: _____________________________________

Higher level of aggregation than in the previous year.
List subsidiary entities now included, including a listing of any non-U.S.
operations added and the specific countries in which the foreign operations are
located:__________________________________________________________
________________________________________________________________

Changes in activity or operations please specify:

Change in output

Change in contractual arrangements

Change in equipment and processes

Change in outsourcing or insourcing of significant activities
Describe the change and explain its influence on reported emissions or
sequestration: ___________________________________________________
________________________________________________________________

Emission reduction calculation method changed

Other change, not listed above, please describe: _______________________________
______________________________________________________________________
5. Identify the Entity’s Primary Economic Activities (NAICS Code)
Identify the primary (and secondary, if applicable) 3-digit North American Industrial Classification
System (NAICS) code for the entity (a list of NAICS codes is offered in Appendix A):
Primary NAICS: __ __ __
Secondary NAICS: __ __ __

Form EIA-1605 – Schedule I, Section 1. Entity Statement

DRAFT ˿ November 9, 2006

6. Enter the Entity Category
Select the category below that describes the entity:
Corporation
Corporation Type (check one)
Corporation (i.e., C Corporation; most corporations)
S Corporation
Limited Liability Corporation (LLC)
Limited Liability Partnership (LLP)
Partnership
Sole Proprietorship
Other, specify: ________________________
Public or Private Status (check one)
Publicly Traded (Stock ticker symbol: _______)
Privately Held

Ownership Status (check one)
Wholly Owned Subsidiary
Joint Venture (partners: _____________________________)
Other Subsidiary
Utility (Non-Investor Owned) (check one)
Cooperative
Municipal Utility
Municipal Cooperative
Other, specify: ________________________
Government (check one)
Federal
State
Regional (e.g., multi-state)
Local (e.g., city, county, or other sub-state level government)
Native American Tribal Government
Other, specify: ________________________
Government Corporation or Authority (check one)
Federal
State
Regional (e.g., multi-state)
Local (e.g., city, county, or other sub-state level government)
Other, specify: ________________________
Non-Profit Organization
Cooperative (e.g., non-profit electric cooperative)
Trade Association (specify type):
Reporting on behalf of its members, specified in attached list
Reporting on its own achievements
All other Non-Profit Organizations (charities, fraternal orders, etc.
Specify: ____________________________________________________)
Individual or Household
Other, specify: _________________________________________

7. Describe the Entity Organization
Is your entity a holding company:
Yes
No
Identify your entity's Parent or Holding Company, if applicable: ________________________

Form EIA-1605 – Schedule I, Section 1. Entity Statement

DRAFT ˿ November 9, 2006

8. Describe the Entity’s Organizational Boundaries
a. Method for Determining Organizational Boundaries
Financial control
Operational control. Explain how the use of this other approach results in organizational
boundaries that differ from results of the financial control approach:
__________________________________________________________________________
__________________________________________________________________________
__________________________________________________________________________
Equity share. Explain how the use of this other approach results in organizational boundaries
that differ from results of the financial control approach:
__________________________________________________________________________
__________________________________________________________________________
__________________________________________________________________________
Other. Describe method and explain how the use of this other approach results in
organizational boundaries that differ from results of the financial control approach:
__________________________________________________________________________
__________________________________________________________________________
__________________________________________________________________________
b. List All Large Wholly Owned Subsidiaries Included in this Report:
Subsidiary Name

Primary NAICS

c. List Any Large Partially Owned Subsidiary, Joint Venture, and Leased or Operated Emissions
Source Included in This Report:
1

Name or
Description
of Emissions
Source

Relationship
to Reporting
Entity

Partners

% Interest
Held By
Reporting
Entity

Method for
Determining
Inclusion in Report

% of
Emissions
Included
in This
Report

d. Additional Description of Organizational Boundaries (please describe, including criteria used for
excluding any emissions sources, if applicable):
_____________________________________________________________________________
_____________________________________________________________________________
_____________________________________________________________________________
9. Describe the Geographic Scope of Activities (please check one)
This report covers U.S. activities only
Nationwide (if operating in all 10 U.S. Census Regions)
Multiple States (if not nationwide, enter states using 2-letter abbreviations from Appendix B:
__________________________________________)
Single State (enter 2-letter abbreviation for state from Appendix B: _________________)

Form EIA-1605 – Schedule I, Section 1. Entity Statement

DRAFT ˿ November 9, 2006

This report covers U.S. and Non-U.S. activities
U.S. Activities:
Nationwide (if operating in all 10 U.S. Census Regions)
Multiple States (if not nationwide, enter states using 2-letter abbreviations from Appendix B:
_________)
Single State (enter 2-letter abbreviation for state from Appendix B: _______________)
Foreign Activities: List all foreign countries in which reported activities occurred using the 3-digit
codes found in Appendix C, and the NAICS code that best corresponds to the primary activity in
that country from Appendix A:
Country
______
______
______
______

Primary NAICS code
______
______
______
______

10. Describe the Scope of the Emissions Inventory
Check the types of emission sources or sinks that are covered in the emissions inventory:
Stationary source combustion
Fugitive emissions from geologic reservoirs
Mobile source combustion
Indirect emissions from purchased energy
Industrial processes
Other indirect emissions
Agricultural sources
Terrestrial carbon fluxes and stocks
11. Describe the Entity Base Period
Indicate number of years in the Base Period: 1
2
3
4
Enter last year in Base Period: _____________
Check here if you are reporting subentities that use a different base period from the entity
12. Describe Any Entity Program Affiliation(s)
Domestic Voluntary Initiatives
List the voluntary GHG-reduction initiative(s) with which the entity has an affiliation
(see list of codes in Appendix D):
_____ ______ ______ ______ ______
Other, specify: ______________________
Domestic Registries and Exchanges
List the U.S. GHG registry(ies) and/or exchange(s) with which the entity has an affiliation
(see list of codes in Appendix D):
_____ ______ ______ ______ ______
Other, specify: ______________________
International Registries and Exchanges
List the non-U.S. GHG registry(ies) and/or exchange(s) with which the entity has an affiliation
(see list of codes in Appendix D):
_____ ______ ______ ______ ______
Other, specify: ______________________

Form EIA-1605 – Schedule I, Section 1. Entity Statement

DRAFT ˿ November 9, 2006

13. Request Confidentiality of Entity Information
Check box if applicable:
Requesting confidential treatment for the information reported on this form. (NOTE that you must
provide the specific reasons in the space below or attached sheets for DOE to consider your
request. Your reasons should explain that the information being reported is financial or
commercial information and why you claim it is confidential or privileged.)
________________________________________________________________________________
________________________________________________________________________________
________________________________________________________________________________
________________________________________________________________________________
________________________________________________________________________________
________________________________________________________________________________
________________________________________________________________________________
14. Enter Supplementary Information for Entity
Use this space (and attach additional sheets if necessary) to supply any supporting information you
feel helps explain your entity or report that is not accommodated directly in this reporting form.
________________________________________________________________________________
________________________________________________________________________________
________________________________________________________________________________
________________________________________________________________________________
________________________________________________________________________________
________________________________________________________________________________
________________________________________________________________________________

Form EIA-1605 – Schedule I, Section 1. Entity Statement

DRAFT ˿ November 9, 2006

SECTION 2. ENTITY EMISSIONS INVENTORY
Check box if all methods used to estimate emissions and sequestration have a B rating or higher. If checked, do not complete “Weighted
Rating” column of Parts A, B, C, and D, and skip Part E completely.
Part A. Aggregated Emissions by Gas (for independently verified reports only)
1. Enter Aggregated Domestic Emissions by Gas (for independently verified reports only)
1

Item
A
A1
A2
A3
A4
A5
A6
A7
B
C
D
E
F
G
H
I
I1
I2
I3
I4
I5
I6
I7

Source

Gas

Direct Emissions
Carbon Dioxide
Methane
Nitrous Oxide
Sulfur Hexafluoride
HFC (Specify)
PFC (Specify)
CFC (Specify)
Indirect Emissions from Purchased Energy
(Inventory)
Indirect Emissions from Purchased Energy
(Inventory)
Indirect Emissions from Purchased Energy
(Inventory)
Indirect Emissions from Purchased Energy
(Reductions)
Indirect Emissions from Purchased Energy
(Reductions)
Indirect Emissions from Purchased Energy
(Reductions)
Carbon Flux
Other Indirect Emissions
Carbon Dioxide
Methane
Nitrous Oxide
Sulfur Hexafluoride
HFC (Specify)
PFC (Specify)
CFC (Specify)

Units

Base Period Emissions or Carbon Flux
Base
Period
Average
Yr 1
Yr 2
Yr 3
Yr 4

Reporting
Year
Emissions or
Carbon Flux

Weighted
Rating

CO2
CH4
N2O
SF6

CO2
CH4
N2O
CO2
CH4
N2O
CO2
CO2
CH4
N2O
SF6

Form EIA-1605 – Schedule I, Section 2. Entity Emissions Inventory

DRAFT ˿ November 9, 2006

Item

Source

Gas

Captured CO2 Sequestered in an onsite
Geologic Reservoir

CO2

Captured CO2 Transferred to Another Entity
for Sequestration in a Geologic Reservoir

CO2

Units

Base Period Emissions or Carbon Flux
Base
Period
Yr 1
Yr 2
Yr 3
Yr 4
Average

Reporting
Year
Emissions or
Carbon Flux

Weighted
Rating

Reporting
Year
Emissions or
Carbon Flux

Weighted
Rating

2. Enter Aggregated Foreign Emissions by Gas (for independently verified reports only)
1

Item
A
A1
A2
A3
A4
A5
A6
A7
B
C
D
E
F
G
H
I
I1
I2
I3

Source

Gas

Units

Base Period Emissions or Carbon Flux
Base
Period
Yr 1
Yr 2
Yr 3
Yr 4
Average

CO2
CH4
N2O
SF6

CO2
CH4
N2O
CO2
CH4
N2O
CO2
CO2
CH4
N2O

Form EIA-1605 – Schedule I, Section 2. Entity Emissions Inventory

DRAFT ˿ November 9, 2006

Item
I4
I5
I6
I7
J
K

Source
Sulfur Hexafluoride
HFC (Specify)
PFC (Specify)
CFC (Specify)
Captured CO2 Sequestered in an onsite
Geologic Reservoir
Captured CO2 Transferred to Another Entity
for Sequestration in a Geologic Reservoir

Gas
SF6

Units

Base Period Emissions or Carbon Flux
Base
Period
Yr 1
Yr 2
Yr 3
Yr 4
Average

Reporting
Year
Emissions or
Carbon Flux

Weighted
Rating

CO2
CO2

Form EIA-1605 – Schedule I, Section 2. Entity Emissions Inventory

DRAFT ˿ November 9, 2006

Part B. Inventory of Domestic Emissions and Carbon Flux (optional for independently verified reports)
1. Enter Direct Emissions
a. Stationary Combustion (incorporate all emissions, including CO2 captured for geologic sequestration)
1

Yr 4

Base
Period
Average

Reporting
Year
Emissions

Estimation
Method

Rating

Base Period Emissions
Source
Fossil Fuel Combustion
Fossil Fuel Combustion
Fossil Fuel Combustion
Non-Standard Fuel
Combustion
Non-Standard Fuel
Combustion
Non-Standard Fuel
Combustion
Waste Fuels Combustion
Waste Fuels Combustion
Waste Fuels Combustion
Biomass Combustion
Biomass Combustion
Nonfuel Use of Fossil Fuels

Gas
CO2
CH4
N2O

Subtotal

CO2e

Units

Yr 1

Yr 2

Yr 3

CO2
CH4
N2O
CO2
CH4
N2O
CH4
N2O
CO2

Form EIA-1605 – Schedule I, Section 2. Entity Emissions Inventory

DRAFT ˿ November 9, 2006

b. Mobile Sources (incorporate all emissions, including CO2 captured for geologic sequestration)
1

Yr 4

Base
Period
Average

Reporting
Year
Emissions

Estimation
Method

Rating

Base Period Emissions
Source
Highway Vehicles

Off-Road Vehicles

Marine Vessels

Aircraft

Mobile Refrigeration and Air
Conditioning

Subtotal

Gas
CO2
CH4
N2O
CO2
CH4
N2O
CO2
CH4
N2O
CO2
CH4
N2O
HFC-134a

Units

Yr 1

Yr 2

Yr 3

CO2e

Form EIA-1605 – Schedule I, Section 2. Entity Emissions Inventory

DRAFT ˿ November 9, 2006

c. Sector-Specific Industrial Process Emissions (incorporate all emissions, including CO2 captured for geologic sequestration)
1

Yr 4

Base
Period
Average

Reporting
Year
Emissions

Estimation
Method

Rating

Base Period Emissions
Process/Fugitive
Emissions

Gas

Units

Yr 1

Yr 2

Yr 3

Industrial Processes
Adipic Acid production
Aluminum Production
(CO2 only)
Ammonia Production
Cement Production
Hydrogen Production
Iron and Steel
Production

N2O
CO2
CO2
CO2
CO2
CO2
CH4

Lime Production
Limestone and
Dolomite Use
Methanol Production
Nitric Acid Production
Soda Ash Production
and Use

CO2
CO2
CO2
N2O
CO2

Form EIA-1605 – Schedule I, Section 2. Entity Emissions Inventory

DRAFT ˿ November 9, 2006

c. Sector-Specific Industrial Process Emissions (continued)
1

Base
Period
Average

Reporting
Year
Emissions

Estimation
Method

Rating

Base Period Emissions
Process/Fugitive
Emissions

Gas

Units

Yr 1

Yr 2

Yr 3

Yr 4

Energy
Coal Mines
Oil and Natural Gas
Industries

CH4
CH4
CO2
N2O

Waste Handling
Domestic and Industrial
Wastewater Handling
Landfills

CH4
N2O
CH4

HCFC-22 Production
Aluminum Production
(specify gas)
Electricity Generation,
Transmission, and
Distribution
Magnesium Production

HFC-23

High GWP Gases

SF6
SF6
PFCs/HFCs

Semiconductor
Manufacture
SF6

Other Industrial Process Sources
Other

CO2
CH4
N2O
SF6
PFCs
HFCs

Subtotal

CO2e

Form EIA-1605 – Schedule I, Section 2. Entity Emissions Inventory

DRAFT ˿ November 9, 2006

d. Agricultural Sources (incorporate all emissions, including CO2 captured for geologic sequestration)
1

Yr 4

Base
Period
Average

Reporting
Year
Emissions

Estimation
Method

Rating

Base Period Emissions
Source

Gas

Enteric Fermentation

Units

Yr 1

Yr 2

Yr 3

CH4
CH4

Livestock Waste
N2O
N2O
Residue Burning
CH4
st

Rice Cultivation – 1
Harvest
nd
Rice Cultivation – 2
(“ratoon”) harvest
Agricultural Soils –
Nitrogen Application
Agricultural Soils – Organic
Soils

CH4
CH4
N2O
N2O

Lime Application

CO2

Cultivation of Organic Soils

CO2

Other: ________________
Subtotal

CO2e

Form EIA-1605 – Schedule I, Section 2. Entity Emissions Inventory

DRAFT ˿ November 9, 2006

e. Fugitive Emissions Associated With Geologic Reservoirs
1

Yr 4

Base
Period
Average

Reporting
Year

Estimation
Method

Rating

Base Period Emissions
Source
Fugitive Emissions From
the Extraction of Naturally
Occurring CO2
Fugitive Emissions From
the Extraction of CO2 From
Anthropogenic Sources
Fugitive Emissions During
Transport and Processing
Fugitive Emissions During
Injection and Extraction for
Enhanced Resource
Recovery
Post-Injection Seepage
From Permanent Geologic
Storage Reservoir

Gas

Units

Yr 1

Yr 2

Yr 3

CO2e

CO2e
CO2e

CO2e

f. Captured CO2 Emissions from Anthropogenic Sources (captured CO2 emissions should also be included as emissions in Questions 1a through
1d above).
1

Base Period Average Quantity
Source

Gas

Unit of Measure

1. Stationary Combustion

CO2e

metric tons

2. Sector-Specific Industrial Process Emissions

CO2e

metric tons

CO2e

metric tons

Onsite

Offsite

Total

Reporting Year Quantity
Onsite

Offsite

Total

3. Other

Subtotals

Form EIA-1605 – Schedule I, Section 2. Entity Emissions Inventory

DRAFT ˿ November 9, 2006

2. Enter Indirect Emissions From Purchased Energy
a. Physical Quantities of Energy Purchased
1

Reporting Year
Consumption

System
Type/Fuel Used
for Generation

Base Period Consumption
Source

Units

Yr 1

Yr 2

Yr 3

Yr 4

Base
Period
Average

Yr 4

Base
Period
Average

Reporting
Year
Emissions

Estimation
Method

Rating

Electricity
Steam
Hot Water
Chilled Water

b. Emissions from Purchased Energy for Emissions Inventory
1

Base Period Emissions
Source
Electricity (for emissions
inventory)
Steam

Hot Water

Chilled Water

Total

Gas
CO2
CH4
N2O
CO2
CH4
N2O
CO2
CH4
N2O
CO2
CH4
N2O
CO2e

Units

Yr 1

Yr 2

Yr 3

Form EIA-1605 – Schedule I, Section 2. Entity Emissions Inventory

DRAFT ˿ November 9, 2006

Emissions from Purchased Energy for Calculating Emissions Reductions in Addendum B (Not included in emissions inventory. Complete only
if calculating reductions at the entity-level using Addendum B1 or B2.)
1

Reporting
Year
Emissions

Estimation
Method

Rating

Base Period Emissions
Source
Electricity (for emissions
reductions)
Steam, Hot Water, and
Chilled Water*
Total

Gas
CO2
CH4
N2O
CO2
CH4
N2O
CO2e

Units

Yr 1

Yr 2

Yr 3

Yr 4

Base
Period
Average

Yr 4

Base
Period
Average

Reporting
Year
Emissions

Estimation
Method

Rating

*Sum emissions reported for these sources in Question 2b above.

3. Other Indirect Emissions*
1

Base Period Emissions
Source
Employee Commuting
Manufacture & Sale of
Energy Efficient Products
Consumption of Energyintensive Products
Other:

Gas

Subtotal

CO2e

Units

Yr 1

Yr 2

Yr 3

*Do not include in emission inventory.

Form EIA-1605 – Schedule I, Section 2. Entity Emissions Inventory

DRAFT ˿ November 9, 2006

4. Enter Terrestrial Carbon Fluxes and Stocks
a. Forestry Activities
1

Categories
Afforestation, Mine Land
Reclamation, and Forest
Restoration
Agroforestry
4
Forest Management
Short-rotation Biomass
Energy Plantations
Urban Forestry
5
Timber Harvesting
6
Other
Total
1

Gas

Units

Base
Period
Average

Carbon Stocks
Estimated
Carbon Stocks
Reporting
in Year Prior to Year Carbon
Reporting Year
Stocks

Reporting
Year Stock
Change or
Carbon
1,2
Flux

Estimation
3
Method

Rating

CO2
CO2
CO2
CO2
CO2
CO2
CO2
CO2

Carbon flux can be positive or negative; positive values indicate a net increase in terrestrial carbon stocks; negative values indicate a net loss of carbon to the atmosphere, i.e.,
emissions. Carbon flux may be calculated directly using flux based approaches or as the change in carbon stocks between the reporting year and the previous year.
2
Reporters using methods that estimate carbon flux only should enter a carbon flux value in the column “Reporting Year Stock Change or Carbon Flux” and leave columns blank for
Carbon Stock data.
3
Methods include lookup tables, models, measurement, or a combination of these methods. If using a model, please indicate the name.
4
Forest management includes management decisions taken at any stage of forest rotation. Forest preservation is a special case and is reported separately in Question 4c below.
5
Timber harvesting includes CO2 emissions from the harvest of timber. Activities such as thinning should be included under Forest Management.
6
“Other” includes activities not covered in the previous categories practiced by landowners that may result in changes in carbon fluxes or stocks.

Form EIA-1605 – Schedule I, Section 2. Entity Emissions Inventory

DRAFT ˿ November 9, 2006

b. Wood Products:
i
Method 1: Track and report emissions in year they occur.
1

Category
Wood Products
ii

Gas

Units

Estimated Carbon
Stocks in Harvested
Wood Products in Year
Prior to Reporting Year

Estimated
Carbon Stocks
in Harvested
Wood Products
in Reporting
Year

Reporting
Year Stock
Change

Estimation
Method

Rating

CO2

Method 2: Estimate and report residual carbon after 100 years in reporting year.
1

Category

Gas

Units

Stock of Carbon in Harvested
Wood

100 year Residual
Carbon Stock

Estimation
Method

Rating

Wood products
c.

CO2

Land Restoration and Forest Preservation

Entity certifies that it has restored native habitat on land and placed administrative restrictions on the land to ensure that human-caused
releases of carbon from the lands do not occur in the future.
1

Name/Description
of Tract of Land
1.
2.
3.
4.
Total

Type of Restriction (e.g.,
Easement, Deed Restrictions,
etc.)

Year
Protected

Area
(Acres)

Units

50% of Carbon
Stock
Accumulated in
50 Years from
Inception of
Preservation
Activity

Estimation
Method

Rating

Form EIA-1605 – Schedule I, Section 2. Entity Emissions Inventory

DRAFT ˿ November 9, 2006

d. Forest Land That Experiences Carbon Losses From Natural Disturbances
This table documents carbon stock changes on each tract of disturbed lands and should be used until carbon stocks reach pre-disturbance
levels.
1

Reporting
Year Carbon
Stocks

Loss

Estimation
Method

Rating

Carbon Stocks
Name/Description
Tract of Land
1.
2.
3.
4.
Total

Area
(Acres)

Type of
Disturbance

Year

Base Period
Average

Units

Carbon
Stocks in
Year Before
Disturbance

e. Sustainably Managed Forests
1

Name/Description of Tract of Land

Area
(Acres)

Has Sustainability
Been Verified by Third
Party Certifier (Y/N)

Identify System Used to
Determine Sustainability

1.
2.
3.
4.
Total
f.

Incidental Lands Excluded From Terrestrial Carbon Fluxes and Stocks in Question 4a
1

Name/Description of Tract of Land

Type of Land

Area (Acres)

1.
2.
3.
4.
Total

Form EIA-1605 – Schedule I, Section 2. Entity Emissions Inventory

DRAFT ˿ November 9, 2006

g. Other Terrestrial Carbon Fluxes
1

Estimated
Carbon Stock
in Reporting
Year

Reporting
Year Stock
Change or
Carbon
1,2
Flux

Estimation Method

Carbon Stocks

Categories
Crops on Mineral Soils
Pasture/Grazing
Land Use Change
Other:______________
Total
1

Gas
CO2
CO2
CO2
CO2
CO2

Units

Base
Period
Average

Estimated Carbon
Stocks in Year
Prior to Reporting
Year

Rating

h. Terrestrial Carbon Flux Summary
1

Categories
Forestry Activities
Wood Products Method 1
Wood Products Method 2
Land Restoration and Forest Preservation
Sustainably Managed Forests
Incidental Lands
Other Terrestrial Carbon Fluxes
Total Reporting Year Terrestrial Carbon Flux

Gas
CO2
CO2
CO2
CO2
CO2
CO2
CO2
CO2

Units

Reporting Year Stock Change or Carbon
Flux

Rating

Form EIA-1605 – Schedule I, Section 2. Entity Emissions Inventory

DRAFT ˿ November 9, 2006

5. Identify and Estimate De Minimis Emissions Sources
1

Emissions Type

TOTAL

Emissions
Source

Gas

Unit of Measure

Base Period
Average
Emissions

Reporting Year
Emissions

Year Last
Estimated

CO2e

metric tons

Form EIA-1605 – Schedule I, Section 2. Entity Emissions Inventory

DRAFT ˿ November 9, 2006

Part C. Inventory of Foreign Emissions and Carbon Flux (optional for independently verified reports)
Complete and attach one copy of Addendum A, Inventory of Foreign or Subentity Emissions.

Form EIA-1605 – Schedule I, Section 2. Entity Emissions Inventory

DRAFT ˿ November 9, 2006

Part D. Total Emissions and Carbon Flux
1. Enter Total Domestic Emissions and Carbon Flux
1

Base
Period
Average

Reporting Year
Emissions or
Carbon Flux

Base Period Emissions
Item
A
B
C
D

Gas/
Units

Source
Direct Emissions
Indirect Emissions from Purchased Energy for
Emissions Inventory
Indirect Emissions from Purchased Energy for
Calculation of Emission Reductions

Yr 2

Yr 3

Yr 4

Total Emissions (A + B)*

mtCO2e
mtCO2e
mtCO2e

Carbon Flux

mtCO2e

Captured CO2 Sequestered in an Onsite
Geologic Reservoir**

mtCO2e

Yr 1

mtCO2e

Total Inventory Emissions (D – E – F)

mtCO2e

Other Indirect Emissions**

mtCO2e

Captured CO2 Transferred to Another Entity for
Sequestration in a Geologic Reservoir

mtCO2e

mtCO2e = metric tons carbon dioxide equivalent
*Do not include Indirect Emissions from Purchased Energy for Calculation of Emission Reductions (Item C) in Total Emissions.
**Do not include CO2 extracted and captured from natural sources or CO2 recycled during enhanced resource recovery operations.

Form EIA-1605 – Schedule I, Section 2. Entity Emissions Inventory

DRAFT ˿ November 9, 2006

2. Enter Total Foreign Emissions and Carbon Flux
1

Base
Period
Average

Reporting Year
Emissions or
Carbon Flux

Base Period Emissions
Item
A
B
C
D

Gas/
Units

Source
Direct Emissions
Indirect Emissions from Purchased Energy for
Emissions Inventory
Indirect Emissions from Purchased Energy for
Calculation of Emission Reductions

Yr 2

Yr 3

Yr 4

Total Emissions (A + B)*

mtCO2e
mtCO2e
mtCO2e

Carbon Flux

mtCO2e

Captured CO2 Sequestered in an Onsite
Geologic Reservoir**

mtCO2e

Yr 1

mtCO2e

Total Inventory Emissions (D – E – F)

mtCO2e

Other Indirect Emissions**

mtCO2e

Captured CO2 Transferred to Another Entity for
Sequestration in a Geologic Reservoir

mtCO2e

Form EIA-1605 – Schedule I, Section 2. Entity Emissions Inventory

DRAFT ˿ November 9, 2006

Part E. Emissions Inventory Rating Summary
Do not complete Part E if all the methods used to estimate reductions were rated B or higher.
If this is a Start Year Report, complete Question 1 only.
If this is a Reporting Year Report, complete Question 2 for reporting year data; complete Question 1 only if you have submitted revised base
period emissions data.
1. Enter Base Period Data (include both domestic and foreign sources)
1

Rating
Category
A

Weighting
Factor
4

Direct
Emissions

Indirect Emissions
from Purchased
Energy

Carbon Flux

Total Emissions

Weighted Total
2
Emissions

1
3

Totals

Weighted
Average
4
Rating
1

Sum Columns 3, 4 and 5 and enter result in Column 6 to get Total Emissions by Rating Category.
Calculate Weighted Emissions by Rating Category by multiplying Column 2 by Column 6.
Sum values for Total Emissions (Column 6) and Weighted Total Emissions (Column 7) and enter in the Totals row.
4
Calculate Inventory Weighted Average Rating by dividing Weighted Total Emissions (Column 7) in the Totals row by Total Emissions (Column 6) in the Totals row.
2

Form EIA-1605 – Schedule I, Section 2. Entity Emissions Inventory

DRAFT ˿ November 9, 2006

2. Enter Reporting Year Data (include both domestic and foreign sources)
1

Rating
Category
A

Weighting
Factor
4

Direct
Emissions

Indirect Emissions
from Purchased
Energy

Carbon Flux

Total Emissions
1
and Carbon Flux

Weighted Total
Emissions and
2
Carbon Flux

1
3

Totals

Weighted
Average
4
Rating
1

Sum Columns 3, 4 and 5 and enter result in Column 6 to get Total Emissions by Rating Category.
Calculate Weighted Emissions and Carbon Flux by Rating Category by multiplying Column 2 by Column 6.
3
Sum values for Total Emissions (Column 6) and Weighted Total Emissions and Carbon Flux (Column 7) and enter in the Totals row.
4
Calculate Inventory Weighted Average Rating by dividing Weighted Total Emissions (Column 7) in the Totals row by Total Emissions (Column 6) in the Totals row.
2

Form EIA-1605 – Schedule I, Section 2. Entity Emissions Inventory

DRAFT ˿ November 9, 2006

SECTION 3. EMISSION OFFSETS
Complete one copy for each offset obtained or included in report
This Report Includes Offsets Obtained by Agreement With (check all that apply):
Other reporters to the Voluntary Reporting of Greenhouse Gases Program (complete Part A)
Non-reporters (complete Part B)
Part A. Offsets Obtained by Agreement with Other Reporters. (Offsets may only be registered or
reported but not registered in this part if the reporter has an agreement with the other reporting entity to
report the reduction.). Identify the entities from which you have obtained offsets and enter the quantity or
quantities of emission reductions obtained in metric tons CO2e.
1. Enter Information in the Table Below for Offsets Obtained From Other Reporters
1

Name of Other
Reporter

Name of Other
Reporter’s
Subentity
(If Applicable)

Domestic
or Foreign

Gas

Unit of
Measure

Quantity

Registered
by Other
Reporter?
(Y/N)

*If you are registering reductions, the offsets obtained from another reporter must have been registered by that other reporter.

Form EIA-1605 – Schedule I, Section 4. Entity-level Emission Reductions

DRAFT ˿ November 9, 2006

Part B. Offset Obtained by Agreement With a Non-Reporter. Complete and attach one copy of
Addendum A for each offset obtained by agreement with a non-reporter included in this report. Also
attach Schedules I, II (if applicable), and III completed by, or on behalf of, the non-reporter.
1. Enter Information in the Table Below for Offsets Obtained From Non-reporters
1

Name of
Non-reporter

Name of
Non-reporter’s
Subentity
(If Applicable)

Domestic
or
Foreign

Gas

Unit of
Measure

Quantity

Non-Reporter
Has Met
Requirements
for
Registration?*
(Y/N)

*If you are registering reductions, the non-reporters providing offsets must meet all the requirements for registering reductions.

Form EIA-1605 – Schedule I, Section 4. Entity-level Emission Reductions

DRAFT ˿ November 9, 2006

SECTION 4. ENTITY-LEVEL EMISSION REDUCTIONS
If you are estimating reductions for the entire entity or for just one portion of your entity, complete and
attach one copy of the appropriate addendum (Addendum B1-B16) for the method used to estimate the
reduction. If you are estimating reductions for two or more subentities, proceed to Schedule II.

Form EIA-1605 – Schedule I, Section 4. Entity-level Emission Reductions

DRAFT ˿ November 9, 2006

SCHEDULE II. SUBENTITY INFORMATION
SECTION 1. SUBENTITY STATEMENT
1. Enter the Subentity Identification:
Subentity Name:
___________________________________________________
Description:
___________________________________________________
Relationship to Entity (describe): ____________________________________________
2. Enter the Reason for Delineation of Subentity (please check all that apply and explain below):
Distinct Estimation Method; indicate method employed (check only one)
Changes in Emissions Intensity
Changes in Absolute Emissions
Changes in Carbon Storage
Changes in Avoided Emissions
Action-Specific Emission Reductions
Emission Reductions from Energy Generation and Distribution
Distinct Output Metric (for intensity calculation), indicate Metric used: _________________
Foreign Country Operations, specify country(ies): ____________________________
Distinct Base Period from Other Subentities (for new or acquired operations)
Emission Reduction Calculation Method Changed
Not Practicable to Assess Change in Net Emissions for the Following Reasons:
_____________________________________________________________________________
_____________________________________________________________________________
3. Enter Any Significant Changes to Previous Subentity Statement (if applicable):
The subentity has not undergone significant change since the last Voluntary Reporting of
Greenhouse Gases report.
The subentity was not included in the previous report
The subentity's primary activity is new
The subentity's primary activity existed prior to this report
The subentity was not included in any other entity's previous reports
The subentity was included in another entity's previous reports, please explain:
_______________________________________________________________
The subentity was included in the previous report, but has undergone significant changes, as
follows:
Data are being resubmitted for previous baseline years
New baseline year(s) have been selected.
Briefly describe the significant changes since the most recent Voluntary Reporting of
Greenhouse Gases Program report filed:
_______________________________________________________________________
_______________________________________________________________________
4. Describe the Subentity’s Primary Economic Activities (NAICS Code):
Enter the primary (and secondary, if applicable) 3-digit North American Industrial Classification
System (NAICS) code for the subentity (A list of NAICS codes is provided in Appendix A):
Primary NAICS: __ __ __
Secondary NAICS: __ __ __
5. Describe the Organizational Boundaries of Subentity:
________________________________________________________________________________
________________________________________________________________________________
________________________________________________________________________________

Form EIA-1605 – Schedule II, Section 1. Subentity Statement

DRAFT ˿ November 9, 2006

6. Describe the Scope of the Emissions Inventory
Check the types of emission sources or sinks that are covered in the emissions inventory:
Stationary Source Combustion Fugitive Emissions from Geologic Reservoirs
Mobile Source Combustion
Indirect Emissions from Purchased Energy
Industrial Processes
Other Indirect Emissions
Agricultural Sources
Terrestrial Carbon Fluxes and Stocks
7. Describe the Geographic Scope of Activities (check the applicable box)
This report covers U.S. activities only
Nationwide (if operating in all 10 U.S. Census Regions)
Multiple States (if not nationwide, select state codes from Appendix B:
______________________________)
Single State (select state code from Appendix B:___________________)
This subentity covers only non-U.S. activities
(Required, if applicable) List the foreign country in which reported activities occurred, using the 3digit codes found in Appendix C: ___________

8. Indicate the Inclusion of Emission Reductions
Are emission reductions included in this year's subentity report?
Yes
No, please explain: _____________________________________________________________
_____________________________________________________________________________
9. Define the Subentity Base Period
Indicate number of years in the Base Period: 1 2
Enter last year in Base Period: ____________

10. Enter Any Supplementary Information for the Subentity
Use this space (and attach additional sheets if necessary) to supply any supporting informationyou
feel helps explain your entity or report that isn’t accommodated directly in this reporting form.
________________________________________________________________________________
________________________________________________________________________________
________________________________________________________________________________
________________________________________________________________________________
________________________________________________________________________________

Form EIA-1605 – Schedule II, Section 1. Subentity Statement

DRAFT ˿ November 9, 2006

SECTION 2. SUBENTITY EMISSIONS INVENTORY
Complete and attach Addendum A, Inventory of Foreign or Subentity Emissions.

Form EIA-1605 – Schedule II, Section 2. Subentity Emissions Inventory

DRAFT ˿ November 9, 2006

SECTION 3. SUMMARY OF EMISSION REDUCTIONS FROM SUBENTITIES
Complete and attach the appropriate form from Addendum B1-B16 for each subentity.

Form EIA-1605 – Schedule II, Section 3. Subentity Emission Reductions

DRAFT ˿ November 9, 2006

SCHEDULE III. EMISSION REDUCTIONS
SECTION 1. REGISTERED EMISSION REDUCTIONS
Part A. Enter Domestic Net Entity-Level Registered Reductions and Carbon Storage (metric tons
CO2e)
1

Emission Reductions

Item
A

Method/Source
Direct

Indirect from Purchased Energy
Direct

Indirect from Purchased Energy
Changes in Carbon Storage

Changes in Avoided Emissions

Energy Generation and Distribution

Coal Mine Methane Gas Recovery

Landfill Methane Recovery

Geologic Sequestration

Transmission and Distribution Improvements

Capture of Methane from Anaerobic Digestion at
Wastewater Treatment Facilities

Capture of Methane from Anaerobic Digestion of
Animal Waste

Recycling of Fly Ash

Demand-Side Management or Other Emission
Reduction Programs

Combined Heat and Power

Other Action-specific Methods

Direct

Indirect from Purchased Energy
Subtotal (Sum rows A1 through O)

P
Q

Offsets

Offsets Obtained from Other Reporters

Offsets Obtained from Non-reporters

R
S

(Subtract
column 3 from
column 2)

Changes in Absolute Emissions

B1
C

Net
Registered
Reductions

Changes in Emissions Intensity

A1
B

Gross
Registered
Reductions

Registered
Reductions
Distributed
to Other
Reporters

Subtotal (Sum rows P through Q2)
Reduction Deficits Carried Over from Last Year’s
Report (From Schedule III, Section 1, Part A, Item
T in Last Year’s Report. If negative, enter value. If
zero or positive, enter zero.)
TOTAL (Add row R to row S)

Form EIA-1605 – Schedule III. Emission Reductions Summary

DRAFT ˿ November 9, 2006

Part B. Enter Foreign Net Entity-Level Registered Reductions and Carbon Storage (metric tons
CO2e)
1

Emission Reductions

Item
A

Method/Source
Direct

Indirect from Purchased Energy
Direct

Indirect from Purchased Energy
Changes in Carbon Storage

Changes in Avoided Emissions

Energy Generation and Distribution

Coal Mine Methane Gas Recovery

Landfill Methane Recovery

Geologic Sequestration

Transmission and Distribution Improvements

Capture of Methane from Anaerobic Digestion at
Wastewater Treatment Facilities

Capture of Methane from Anaerobic Digestion of
Animal Waste

Recycling of Fly Ash

Demand-Side Management or Other Emission
Reduction Programs

Combined Heat and Power

Other Action-specific Methods

Direct

Indirect from Purchased Energy
Subtotal (Sum rows A1 through O)

P
Q

Offsets

Offsets Obtained from Other Reporters

Offsets Obtained from Non-reporters

R
S

(Subtract
column 3 from
column 2)

Changes in Absolute Emissions

B1
C

Net
Registered
Reductions

Changes in Emissions Intensity

A1
B

Gross
Registered
Reductions

Registered
Reductions
Distributed
to Other
Reporters

Subtotal (Sum rows P through Q2)
Reduction Deficits Carried Over from Last Year’s
Report (From Schedule III, Section 1, Part B, Item
T in Last Year’s Report. If negative, enter value. If
zero or positive, enter zero.)
TOTAL (Add row R to row S)

Form EIA-1605 – Schedule III. Emission Reductions Summary

DRAFT ˿ November 9, 2006

SECTION 2. REPORTED BUT NOT REGISTERED EMISSION REDUCTIONS
Part A. Enter Domestic Net Entity-Level Reported but not Registered Reductions and Carbon
Storage
1

Emission Reductions
Net
Reported
Reported
Reductions
Reductions
Gross
Distributed
(Subtract
Reported
to Other
column 3 from
Item
Method/Source
Reporters
Reductions
column 2)
Carbon Dioxide, Methane, Nitrous Oxide, Hydrofluorocarbons, Perfluorocarbons, and Sulfur
Hexafluoride (metric tons CO2e)
A

Changes in Emissions Intensity

Direct

Indirect from Purchased Energy

Other Indirect

Changes in Absolute Emissions

Direct

Indirect from Purchased Energy

Other Indirect

Changes in Carbon Storage

Changes in Avoided Emissions

Energy Generation and Distribution

Coal Mine Methane Gas Recovery

Landfill Methane Recovery

Geologic Sequestration

Transmission and Distribution Improvements

Capture of Methane from Anaerobic Digestion at
Wastewater Treatment Facilities

Capture of Methane from Anaerobic Digestion of
Animal Waste

Recycling of Fly Ash

Demand-Side Management or Other Emission
Reduction Programs

Combined Heat and Power

Other Action-specific Methods

Direct

Indirect from Purchased Energy

Other Indirect

Subtotal (Sum rows A1 through O)

Form EIA-1605 – Schedule III. Emission Reductions Summary

DRAFT ˿ November 9, 2006

Emission Reductions
Net
Reported
Reported
Reductions
Reductions
Distributed
Gross
(Subtract
to Other
Reported
column 3 from
Item
Method/Source
Reductions
Reporters
column 2)
Carbon Dioxide, Methane, Nitrous Oxide, Hydrofluorocarbons, Perfluorocarbons, and Sulfur
Hexafluoride (metric tons CO2e)
Q

Offsets

Offsets Obtained from Other Reporters

Offsets Obtained from Non-reporters

T
U

Subtotal (Sum rows P through Q2)
Reduction Deficits Carried Over from Last Year’s
Report (From Schedule III, Section 2, Part A, Item
T in Last Year’s Report. If negative, enter value. If
zero or positive, enter zero.)
TOTAL (Add row R to row S)
Emission Reductions Also Registered as Emission
Intensity Reductions

Chlorofluorocarbons (CFCs) (Kilograms of native gas) Attach additional copies of Part C if reporting
reductions in domestic emissions of more than one CFC.
V

Destruction of CFCs. Specify CFC: ___________

Reduction Deficit for this CFC Carried Over from
Last Year’s Report (From Schedule III, Section 2,
Part A, Item X in Last Year’s Report. If negative,
enter value. If zero or positive, enter zero.)

TOTAL (Add row V to row W)

Form EIA-1605 – Schedule III. Emission Reductions Summary

DRAFT ˿ November 9, 2006

Part B. Enter Foreign Net Entity-Level Reported but not Registered Reductions and Carbon
Storage
1

Emission Reductions
Net
Reported
Reported
Reductions
Reductions
Distributed
Gross
(Subtract
Reported
to Other
column 3 from
Item
Method/Source
Reductions
Reporters
column 2)
Carbon Dioxide, Methane, Nitrous Oxide, Hydrofluorocarbons, Perfluorocarbons, and Sulfur
Hexafluoride (metric tons CO2e)
A

Changes in Emissions Intensity

Direct

Indirect from Purchased Energy

Other Indirect

Changes in Absolute Emissions

Direct

Indirect from Purchased Energy

Other Indirect

Changes in Carbon Storage

Changes in Avoided Emissions

Energy Generation and Distribution

Coal Mine Methane Gas Recovery

Landfill Methane Recovery

Geologic Sequestration

Transmission and Distribution Improvements

Capture of Methane from Anaerobic Digestion at
Wastewater Treatment Facilities

Capture of Methane from Anaerobic Digestion of
Animal Waste

Recycling of Fly Ash

Demand-Side Management or Other Emission
Reduction Programs

Combined Heat and Power

Other Action-specific Methods

Direct

Indirect from Purchased Energy

Other Indirect

Subtotal (Sum rows A1 through O)

Form EIA-1605 – Schedule III. Emission Reductions Summary

DRAFT ˿ November 9, 2006

Offsets

Offsets Obtained from Other Reporters

Offsets Obtained from Non-reporters

R
S
T
U

Subtotal (Sum rows P through Q2)
Reduction Deficits Carried Over from Last Year’s
Report (From Schedule III, Section 2, Part B, Item
T in Last Year’s Report. If negative, enter value. If
zero or positive, enter zero.)
TOTAL (Add row R to row S)
Emission Reductions Also Registered as Emission
Intensity Reductions

Chlorofluorocarbons (CFCs) (Kilograms of native gas) Attach additional copies of Part C if reporting
reductions in foreign emissions of more than one CFC.
V

Destruction of CFCs. Specify CFC: ___________

Reduction Deficit for this CFC Carried Over from
Last Year’s Report (From Schedule III, Section 2,
Part B, Item X in Last Year’s Report. If negative,
enter value. If zero or positive, enter zero.)

TOTAL (Add row V to row W)

Form EIA-1605 – Schedule III. Emission Reductions Summary

DRAFT ˿ November 9, 2006

SCHEDULE IV. VERIFICATION AND CERTIFICATION
SECTION 1. INDEPENDENT VERIFICATION
If your report has been independently verified by a qualified auditor in accord with Section 300.11 of 10
CFR Part 300, Guidelines for Voluntary Greenhouse Gas Reporting, that auditor must complete Schedule
IV, Section 1. Otherwise, please skip to Section 2 of Schedule IV, Reporter Self Certification.
1. Enter the Name of Entity Report Independently Verified
Name of Entity: ___________________________________________
2. Describe the Identity of the Independent Verifier
Name of Verifying Company:_________________________________________
Street:____________________________________________
P.O. Box: ________
City: _____________________________________ State: _________ Zip: ________
Contact Name:______________________________
Contact Title: _______________________________
Telephone: (_______) _____ - ____________ Fax: (____) _____ - ___________
E-Mail Address: ___________________________
3. Define the Independent Verifier’s Qualifications
a. Corporate Accreditation(s) (check all that apply):
California Climate Action Registry
American National Standards Institute and Registrar Accreditation Board (ANSI_RAB)
CDM Executive Board
United Kingdom Accreditation Scheme
International Standards Organization (ISO)
Other, please specify: _______________________________________
b. Independent Verifier Personnel Accreditation(s):

Name

Title

Relevant
Degree

Accreditation

Lead Verifier

Meets Requirements of
§300.11(b) of 10 CFR
Part 300
Yes

Yes

Independent Verification Approach (check all that apply)
The independent verification of data on this form included the following activities:
Strategic Review and Assessment
Assurance that all sources have been included
Review of greenhouse gas data management systems
Review of greenhouse gas inventory training procedures
Review of data collection quality assurance/quality control procedures
Confirmation of required records maintenance
Desk Audit
Review for accuracy, completeness, and consistency with DOE guidelines of entity
statements
Assessment of any significant changes in entity boundaries
Review for arithmetic accuracy, internal consistency and plausibility
Independent review of activity data for a sample of sources
Independent review of activity data for all sources

Form EIA-1605 – Schedule IV. Verification and Certification

DRAFT ˿ November 9, 2006

Field Audit
Independent measurements at a sample of sources
Independent measurement for all sources
4. Include the Certification of Independent Verification
We are an independent auditor of _________[reporting entity]_________’s emissions report. We do
not hold any financial interest in the outcome of this audit. We are not owned in whole or in part by
_________[reporting entity]_________ nor do we provide any ongoing operational, support, or
consulting services to _________[reporting entity]_________ except services consistent with
independent financial accounting or independent certification of compliance with government or
private standards.
This is to certify that ________[reporting entity]_________has had its greenhouse gas emissions
to __________ verified according to the Voluntary
report covering the period
Reporting of Greenhouse Gases Guidelines found in 10 CFR Part 300.11(d). We have found that
the report meets the requirements of 10 CFR 300.11(e), including the following:
•

The information reported on this form is accurate and complete;

•

The information reported on this form has been compiled in accordance with the Voluntary
Reporting of Greenhouse Gases Guidelines found in 10 CFR Part 300;

•

The information reported on this form is consistent with information submitted in prior years, if
any, or any inconsistencies with prior year’s information are documented and explained in
Schedule I, Entity Statement;

•

The reporting entity has taken due diligence to ensure that emissions, emission reductions, or
sequestration reported in this EIA-1605(b) report are not double counted in this report, or
reported by any other entity;

•

For any emissions, emission reductions, or sequestration included in this report that were
achieved by a third-party entity, there exists a written agreement with each third party
indicating that it has agreed that the reporting entity should be recognized as the entity
entitled to report these emissions, emission reductions, or sequestration;

•

None of the emissions, emission reductions, or sequestration reported was produced by
shifting emissions to other entities or to non-reporting parts of the entity;

•

None of any reported changes in avoided emissions associated with the sale of electricity,
steam, hot or chilled water generated from non-emitting or low-emitting sources are
attributable to the acquisition of a generating facility that has been previously operated,
unless the base year generation values are derived from records of the facility’s operation
prior to its acquisition; and

•

The reporting entity will maintain sufficient records to document the analysis and calculations
underpinning this verification for a period of no less than three years.

Form EIA-1605 – Schedule IV. Verification and Certification

DRAFT ˿ November 9, 2006

Lead Certifier of Verifying Firm
(Print Name)

Lead Certifier of Verifying Firm
(Signature)

Date

Corporate Officer of Verifying Firm
(Print Name)

Corporate Officer of Verifying Firm
(Signature)

Date

Form EIA-1605 – Schedule IV. Verification and Certification

DRAFT ˿ November 9, 2006

SECTION 2. REPORTER SELF-CERTIFICATION
1. Enter the Status of Independent Verification
The information reported on this form has been independently verified: Yes

2. Certification
I certify to the best of my knowledge and belief that:
This form meets the following three requirements for reporting reductions.
•

The information reported on this form is accurate and complete;

•

The information reported on this form has been compiled in accordance with the Voluntary
Reporting of Greenhouse Gases Guidelines found in 10 CFR Part 300; and

•

The information reported on this form is consistent with information submitted in prior years
under the revised guidelines, if any, or any inconsistencies with prior year’s information are
documented and explained in Schedule I, Entity Statement.

This form meets the above three requirements for reporting reductions and the five additional
requirements for registering reductions listed below.
•

Reasonable steps have been taken to ensure that direct emissions, direct emission
reduction, or sequestration reported in this EIA-1605(b) report are neither double counted nor
included in the 1605(b) report of any other entity for the same calendar year;

•

Any emissions, emission reductions, or sequestration reported in this Form EIA-1605
achieved by another entity are included in this report under agreement with the other entity;

•

None of the emissions, emission reductions, or sequestration reported in this EIA-1605(b)
report are a product of shifting emissions to non-reporting parts of the entity;

•

Our entity will maintain sufficient records to document the analysis and calculations
underpinning the data reported on this form for a period of no less than three years.

Certifying Official’s Name: _________________________________________________________
Title: __________________________________________________________________________
Mailing Address:
Street or P.O. Box__________________________________________________________
City: ______________________________________ State: _____ Zip Code: __________
Telephone: ( ____ ) _____ - ____________
E-Mail: ___________________________________________
Signature:

_______________________________________

Date:

_______________________________________

Form EIA-1605 – Schedule IV. Verification and Certification

Addendum A
Inventory of Foreign or Subentity Emissions

DRAFT ˿ November 9, 2006

Addendum A. Inventory of Foreign or Subentity Emissions
This emissions inventory is for:
Entity-wide foreign operations
A domestic or foreign subentity. Enter Name of Subentity: ___________________________________________________
Complete part A if an independent third party has verified this report. Otherwise, complete part B.
Part A. Aggregated Emissions by Gas (for independently verified reports only)
1. Enter Aggregated Emissions by Gas (for independently verified reports only)
1

Item
A

Source

Gas

Carbon Dioxide

CO2

Methane

CH4

Nitrous Oxide

N2O

Sulfur Hexafluoride

SF6

HFC (Specify)

PFC (Specify)

B
C
D
E
F
G
H

Units

Base Period Emissions or Carbon Flux
Base
Period
Average
Yr 1
Yr 2
Yr 3
Yr 4

Reporting
Year
Emissions or
Carbon Flux

Weighted
Rating

Direct Emissions

CFC (Specify)
Indirect Emissions from Purchased Energy
(Inventory)
Indirect Emissions from Purchased Energy
(Inventory)
Indirect Emissions from Purchased Energy
(Inventory)
Indirect Emissions from Purchased Energy
(Reductions)
Indirect Emissions from Purchased Energy
(Reductions)
Indirect Emissions from Purchased Energy
(Reductions)
Carbon Flux

CO2
CH4
N2O
CO2
CH4
N2O
CO2

Addendum A. Subentity Emissions Inventory

DRAFT ˿ November 9, 2006

Item
I

Source

Gas

Units

Base Period Emissions or Carbon Flux
Base
Period
Yr 1
Yr 2
Yr 3
Yr 4
Average

Reporting
Year
Emissions or
Carbon Flux

Weighted
Rating

Other Indirect Emissions
I1

Carbon Dioxide

CO2

Methane

CH4

Nitrous Oxide

N2O

Sulfur Hexafluoride

SF6

HFC (Specify)

PFC (Specify)

CFC (Specify)

Captured CO2 Sequestered in an onsite
Geologic Reservoir

CO2

Captured CO2 Transferred to Another Entity
for Sequestration in a Geologic Reservoir

CO2

Addendum A. Subentity Emissions Inventory

DRAFT ˿ November 9, 2006

Yr 4

Base
Period
Average

Reporting
Year
Emissions

Estimation
Method

Rating

Gas
CO2
CH4
N2O

Subtotal

CO2e

Units

Yr 1

Yr 2

Yr 3

CO2
CH4
N2O
CO2
CH4
N2O
CH4
N2O
CO2

Addendum A. Subentity Emissions Inventory

DRAFT ˿ November 9, 2006

b. Mobile Sources (incorporate all emissions, including CO2 captured for geologic sequestration)
1

Yr 4

Base
Period
Average

Reporting
Year
Emissions

Estimation
Method

Rating

Base Period Emissions
Source
Highway Vehicles

Off-Road Vehicles

Marine Vessels

Aircraft

Mobile Refrigeration and Air
Conditioning

Subtotal

Gas
CO2
CH4
N2O
CO2
CH4
N2O
CO2
CH4
N2O
CO2
CH4
N2O
HFC-134a

Units

Yr 1

Yr 2

Yr 3

CO2e

Addendum A. Subentity Emissions Inventory

DRAFT ˿ November 9, 2006

c. Sector-Specific Industrial Process Emissions (incorporate all emissions, including CO2 captured for geologic sequestration)
1

Yr 4

Base
Period
Average

Reporting
Year
Emissions

Estimation
Method

Rating

Base Period Emissions
Process/Fugitive
Emissions

Gas

Units

Yr 1

Yr 2

Yr 3

Industrial Processes
Adipic Acid production
Aluminum Production
(CO2 only)
Ammonia Production
Cement Production
Hydrogen Production
Iron and Steel
Production

N2O
CO2
CO2
CO2
CO2
CO2
CH4

Lime Production
Limestone and
Dolomite Use
Methanol Production
Nitric Acid Production
Soda Ash Production
and Use

CO2
CO2
CO2
N2O
CO2

Addendum A. Subentity Emissions Inventory

DRAFT ˿ November 9, 2006

c. Sector-Specific Industrial Process Emissions (continued)
1

Base
Period
Average

Reporting
Year
Emissions

Estimation
Method

Rating

Base Period Emissions
Process/Fugitive
Emissions

Gas

Units

Yr 1

Yr 2

Yr 3

Yr 4

Energy
Coal Mines
Oil and Natural Gas
Industries

CH4
CH4
CO2
N2O

Waste Handling
Domestic and Industrial
Wastewater Handling
Landfills

CH4
N2O
CH4

HCFC-22 Production
Aluminum Production
(specify gas)
Electricity Generation,
Transmission, and
Distributions
Magnesium Production

HFC-23

High GWP Gases

SF6
SF6
PFCs/HFCs

Semiconductor
Manufacture
SF6

Other Industrial Process Sources
Other

CO2
CH4
N2O
SF6
PFCs
HFCs

Subtotal

CO2e

Addendum A. Subentity Emissions Inventory

DRAFT ˿ November 9, 2006

d. Agricultural Sources (incorporate all emissions, including CO2 captured for geologic sequestration)
1

Yr 4

Base
Period
Average

Reporting
Year
Emissions

Estimation
Method

Rating

Base Period Emissions
Source

Gas

Enteric Fermentation

Units

Yr 1

Yr 2

Yr 3

CH4
CH4

Livestock Waste
N2O
N2O
Residue Burning
CH4
st

Rice Cultivation – 1
Harvest
nd
Rice Cultivation – 2
(“ratoon”) harvest
Agricultural Soils –
Nitrogen Application
Agricultural Soils – Organic
Soils

CH4
CH4
N2O
N2O

Lime Application

CO2

Cultivation of Organic Soils

CO2

Other: ________________
Subtotal

CO2e

Addendum A. Subentity Emissions Inventory

DRAFT ˿ November 9, 2006

e. Fugitive Emissions Associated With Geologic Reservoirs
1

Yr 4

Base
Period
Average

Reporting
Year

Estimation
Method

Rating

Gas

Units

Yr 1

Yr 2

Yr 3

CO2e

CO2e
CO2e

CO2e

f. Captured CO2 Emissions from Anthropogenic Sources (captured CO2 emissions should also be included as emissions in Questions 1a through
1d above).
1

Base Period Average Quantity
Source

Gas

Unit of Measure

1. Stationary Combustion

CO2e

metric tons

2. Sector-Specific Industrial Process Emissions

CO2e

metric tons

CO2e

metric tons

Onsite

Offsite

Total

Reporting Year Quantity
Onsite

Offsite

Total

3. Other

Subtotals

Addendum A. Subentity Emissions Inventory

DRAFT ˿ November 9, 2006

2. Enter Indirect Emissions From Purchased Energy*
a. Physical Quantities of Energy Purchased
1

Reporting Year
Consumption

System
Type/Fuel Used
for Generation

Base Period Consumption
Source

Units

Yr 1

Yr 2

Yr 3

Yr 4

Base
Period
Average

Yr 4

Base
Period
Average

Reporting
Year
Emissions

Estimation
Method

Rating

Electricity
Steam
Hot Water
Chilled Water

b. Emissions from Purchased Energy for Emissions Inventory
1

Base Period Emissions
Source
Electricity (for emissions
inventory)
Steam

Hot Water

Chilled Water

Total

Gas
CO2
CH4
N2O
CO2
CH4
N2O
CO2
CH4
N2O
CO2
CH4
N2O
CO2e

Units

Yr 1

Yr 2

Yr 3

Addendum A. Subentity Emissions Inventory

DRAFT ˿ November 9, 2006

Emissions from Purchased Energy for Calculating Emissions Reductions in Addendum A (Not included in emissions inventory. Complete only
if calculating reductions at the entity-level using Addendum B1 or B2.)
1

Reporting
Year
Emissions

Estimation
Method

Rating

Base Period Emissions
Source
Electricity (for emissions
reductions)
Steam, Hot Water, and
Chilled Water*
Total

Gas
CO2
CH4
N2O
CO2
CH4
N2O
CO2e

Units

Yr 1

Yr 2

Yr 3

Yr 4

Base
Period
Average

Yr 4

Base
Period
Average

Reporting
Year
Emissions

Estimation
Method

Rating

*Sum emissions reported for these sources in Question 2b above.

3. Other Indirect Emissions*
1

Base Period Emissions
Source
Employee Commuting
Manufacture & Sale of
Energy Efficient Products
Consumption of Energyintensive Products
Other:

Gas

Subtotal

CO2e

Units

Yr 1

Yr 2

Yr 3

*Do not include in emission inventory.

Addendum A. Subentity Emissions Inventory

A10

DRAFT ˿ November 9, 2006

4. Enter Terrestrial Carbon Fluxes and Stocks
a. Forestry Activities
1

Categories
Afforestation, Mine Land
Reclamation, and Forest
Restoration
Agroforestry
4
Forest Management
Short-rotation Biomass
Energy Plantations
Urban Forestry
5
Timber Harvesting
6
Other
Total
1

Gas

Units

Base
Period
Average

Carbon Stocks
Estimated
Carbon Stocks
Reporting
in Year Prior to Year Carbon
Reporting Year
Stocks

Reporting
Year Stock
Change or
Carbon
1,2
Flux

Estimation
3
Method

Rating

CO2
CO2
CO2
CO2
CO2
CO2
CO2
CO2

Addendum A. Subentity Emissions Inventory

A11

DRAFT ˿ November 9, 2006

b. Wood Products:
i
Method 1: Track and report emissions in year they occur.
1

Category
Wood Products
ii

Gas

Units

Estimated Carbon
Stocks in Harvested
Wood Products in Year
Prior to Reporting Year

Estimated
Carbon Stocks
in Harvested
Wood Products
in Reporting
Year

Reporting
Year Stock
Change

Estimation
Method

Rating

CO2

Method 2: Estimate and report residual carbon after 100 years in reporting year.
1

Categories

Forestry Activities

Wood Products – Method 1

Wood Products – Method 2

Land Restoration and Forest Preservation

Sustainably Managed Forests

Incidental Lands

Other Terrestrial Carbon Fluxes

Total Reporting Year Terrestrial Carbon Flux

Units of
Measure
metric tons
CO2e
metric tons
CO2e
metric tons
CO2e
metric tons
CO2e
metric tons
CO2e
metric tons
CO2e
metric tons
CO2e
metric tons
CO2e

Reporting Year
Stock Change or
Carbon Flux*

*From Schedule I, Section 2, Part B, Question 4, if reporting for entity only. From Addendum A, Part B, Question 4, if reporting for a
subentity.

2. Identify Types of Actions That Were the Likely Cause of the Reductions Achieved [Enter codes from
Appendix M]

3. Describe the Actions That Were the Likely Causes of the Reductions Achieved:

4. Identify the Cause(s) of the Emission Reduction(s) (check all that apply):
Voluntary action
Plant closing
Government requirement
Federal requirement
State requirement
Local requirement

Form EIA-1605 − Addendum B3. Changes in Carbon Storage

DRAFT ˿ November 9, 2006

5. Summarize Benefits and Costs of the Actions Taken to Reduce Greenhouse Gas Emissions
(optional):

Part B. Distribution of Emission Reductions to Other 1605(b) Reporters
1. Where Applicable, Enter Emission Reductions Distributed to Other 1605(b) Reporters (metric tons
CO2e)
1

Name of Recipient

Gas
CO2e
CO2e
CO2e
CO2e
CO2e

Units
metric tons
metric tons
metric tons
metric tons
metric tons

Amount

TOTAL

Form EIA-1605 − Addendum B3. Changes in Carbon Storage

DRAFT ˿ November 9, 2006

Addendum B4. Changes in Avoided Emissions
If Reporting Subentities, Enter Name of Subentity: ___________________________________
Complete one copy of Addendum B4 for each energy product sold.
Part A. Generated Energy Source and Characteristics
1. Did the Entity or Subentity Emit Greenhouse Gases in the Base Period (including any capacity
acquired since the Base Period)?
Yes (If Yes, you must estimate reductions using Addendum B5, Emission Reductions from
Energy Generation and Distribution)
No
2. Has the Entity or Subentity Acquired or Divested Generation Capacity Since the Base Period?
Yes (Go to Question 3)
No (Go to Question 4)
3. Was the Acquired or Divested Capacity Operational During the Base Period for the Entity or
Subentity?
Yes (If Yes, you must adjust Base Period generation to reflect any capacity that was acquired or
divested)
No
4. Identify Energy Product Type Sold (check one)
Electricity
Steam
Hot water
Chilled water
Part B. Energy Generation, Emissions, and Emission Reductions
1. Enter Activity Data, Emission Coefficients, Conversion Factors, and Emission Reductions
1

Item
A
B
C
D
E
F
G
H

Description
Base Period Energy Sold
Reporting Year Total Emissions
Reporting Year Energy Generated
Reporting Year Emissions Intensity (B/C)
Reporting Year Energy Sold
Reporting Year Incremental Energy Sold (E-A)
Avoided Emissions Intensity Benchmark
Emission Reduction ((G - D) * F)

Units of Measure

Quantity

metric tons CO2e

2. Identify Types of Actions That Were the Likely Cause of the Reductions Achieved [Enter codes from
Appendix M]

Form EIA-1605 − Addendum B4. Changes in Avoided Emissions

DRAFT ˿ November 9, 2006

3. Describe Actions That Were the Likely Causes of the Reductions Achieved:

4. Identify the Cause(s) of the Emission Reduction(s) (check all that apply):
Voluntary
Plant closing
Government requirement
Federal requirement
State requirement
Local requirement
5. Summarize Benefits and Costs of the Actions Taken to Reduce Greenhouse Gas Emissions
(optional):

Part C. Distribution of Emission Reductions to Other 1605(b) Reporters
1. Where Applicable, Enter Emission Reductions Distributed to Other 1605(b) Reporters (metric tons
CO2e)
1

Name of Recipient

Gas
CO2e
CO2e
CO2e
CO2e
CO2e

Units
metric tons
metric tons
metric tons
metric tons
metric tons

Amount

TOTAL

Form EIA-1605 − Addendum B4. Changes in Avoided Emissions

B10

DRAFT ˿ November 9, 2006

Addendum B5. Emission Reductions from Energy Generation and Distribution
If Reporting Subentities, Enter Name of Subentity: ___________________________________
Complete one copy of Addendum B5 for each energy product sold.
Part A. Energy Generation and Emissions
1. Energy Product Type Exported (check one)
Electricity
Steam
Hot water
Chilled water
2. Emissions, Energy Generation, and Emissions Intensity
Item

Description

Units of Measure

Quantity

Base Period Emissions

metric tons CO2e

Base Period Exported Energy

Base Period Emissions Intensity (A/B)

Reporting Year Emissions

Reporting Year Exported Energy

Reporting Year Emissions Intensity (D/E)

Reporting Year Incremental Exported Energy (E - B)

Avoided Emissions Benchmark

MWh or MMBtu

Metric tons CO2e
MWh or MMBtu

MWh or MMBtu

Part B. Emission Reductions
1. Calculate and Enter Emission Reductions
1

Item
I
J
K

Description
Emission Reductions from Improvements in Historical
Emissions Intensity [(C - F) * B]
Emission Reductions from Incremental Exported Energy
[(H - F) * G]
Total Emission Reductions from Energy Generation and
Exports (I + J)

Units of Measure

Quantity

metric tons CO2e
metric tons CO2e
metric tons CO2e

2. Identify Types of Actions That Were the Likely Cause(s) of the Reductions Achieved [Enter codes
from Appendix M]

Form EIA-1605 − Addendum B5. Emission Reductions from Energy Generation and Distribution

B11

DRAFT ˿ November 9, 2006

3. Describe the Actions That Were the Likely Causes of the Reductions Achieved:

Part C. Distribution of Emission Reductions to Other 1605(b) Reporters
1. Where Applicable, Enter Emission Reductions Distributed to Other 1605(b) Reporters (metric tons
CO2e)
1

Name of Recipient

Gas
CO2e
CO2e
CO2e
CO2e
CO2e

Units
metric tons
metric tons
metric tons
metric tons
metric tons

Amount

TOTAL

Form EIA-1605 − Addendum B5. Emission Reductions from Energy Generation and Distribution

B12

DRAFT ˿ November 9, 2006

Addendum B6. Reductions from Coal Mine Methane Recovery
If Reporting Subentities, Enter Name of Subentity:_______________________________________
Part A. Action Identification
1. Enter Location of Coal Mine(s):
1

Name
City

2. Enter Date Methane Recovery Began:

Location
State
(if domestic
subentity)

Month_________

Country
(if foreign
subentity)

Year_____________

3. Describe Action: __________________________________________________________________
________________________________________________________________________________
________________________________________________________________________________
________________________________________________________________________________
4. Was the Action Reported Last Year?
Yes
No
Part B. Action Quantification
1. Enter Action Characteristics
1

Coal Mine Name

Seam Affected

Month Cut
Through

Year Cut
Through

Form EIA-1605 − Addendum B6. Reductions from Coal Mine Methane Recovery

B13

DRAFT ˿ November 9, 2006

2. Enter Volume of Gas Captured by Source and Disposition (Mscf)
1

Year 4

Base
Period
Average

Reporting
Year

Year 4

Base
Period
Average

Reporting
Year

Base Period

Source and Disposition

Year 1

Year 2

Year 3

DEGASIFICATION DURING MINING
Ventilation Systems
Flared
Electricity used onsite
Electricity sold to grid
Injected into pipeline
Direct use onsite
Total Ventilation Systems
Other Degasification Methods
Flared
Electricity used onsite
Electricity sold to grid
Injected into pipeline
Direct use onsite
Total Other Degasification
PRE-MINING DEGASIFICATION
Flared
Electricity used onsite
Electricity sold to grid
Injected into pipeline
Direct use onsite
Total Pre-Mining Degasification
Total All Methods

3. Enter Average Heat Content of Gas Captured (Btu/scf)
1

Base Period

Source and Disposition

Year 1

Year 2

Year 3

DEGASIFICATION DURING MINING
Ventilation Systems
Flared
Electricity used onsite
Electricity sold to grid
Injected into pipeline
Direct use onsite
Other Degasification Methods
Flared
Electricity used onsite
Electricity sold to grid
Injected into pipeline
Direct use onsite
PRE-MINING DEGASIFICATION
Flared
Electricity used onsite
Electricity sold to grid
Injected into pipeline
Direct use onsite

Form EIA-1605 − Addendum B6. Reductions from Coal Mine Methane Recovery

B14

DRAFT ˿ November 9, 2006

4. Enter Total Energy Content of Gas Captured and Combusted (MMBtu)
1

Year 4

Base
Period
Average

Reporting
Year

Year 4

Base
Period
Average

Reporting
Year

Base Period

Source and Disposition

Year 1

Year 2

Year 3

5. Enter Mass of Methane Captured (metric tons CO2e)
1

Base Period

Source and Disposition
Total Methane Captured

Year 1

Year 2

Year 3

Part C. Emission Reductions
1. Calculate Changes in Methane Capture
1

Item
A
B
C

Description
Average Annual Quantity of Methane Captured in Base
Period
Methane Captured in Reporting Year
Change in Methane Captured (B – A)

Units of Measure

Quantity

metric tons CO2e
metric tons CO2e
metric tons CO2e

2. Calculate Changes in Disposition of Electricity Generation from Captured Methane (MWh)
1

Year 4

Base
Period
Average

Reporting
Year

Base Period

Item

D
E
F

Disposition
Electricity Used Onsite
Electricity Sales
Total Generation

Year 1

Year 2

Year 3

Form EIA-1605 − Addendum B6. Reductions from Coal Mine Methane Recovery

B15

DRAFT ˿ November 9, 2006

3. Calculate Carbon Dioxide Displaced from Electricity Used Onsite (avoided emissions)
1

Item
G
H
I
J
K

Description
Base Period Average Electricity Used Onsite
Reporting Year Electricity Used Onsite
Reporting Year Incremental Electricity Used Onsite (H –
G)
Reporting Year Total Emissions from Electricity Used
Onsite*
Reporting Year Emissions Intensity of Electricity Used
Onsite (J/H)

Avoided Emissions Benchmark

Emission Reductions ((L - K) * I)

Units of Measure
MWh
MWh

Quantity

MWh
metric tons CO2e
metric tons CO2e
/MWh
metric tons CO2e
/MWh
metric tons CO2e

*Include emissions from supplemental fossil fuel use only.

4. Calculate Carbon Dioxide Displaced from Electricity Sales (avoided emissions)
1

Item
N
O
P
Q
R

Description
Base Period Average Electricity Sold
Reporting Year Electricity Sold
Reporting Year Incremental Electricity Sold (O – N)
Reporting Year Total Emissions from Electricity Sold
Reporting Year Emissions Intensity of Electricity Sold
(Q/O)

Avoided Emissions Benchmark

Emission Reductions ((S- R) * P)

Units of Measure
MWh
MWh
MWh
metric tons CO2e
metric tons CO2e
/MWh
metric tons CO2e
/MWh
metric tons CO2e

Quantity

5. Calculate Carbon Dioxide Emissions from Flaring
1

Item
U
V
W
X

Description
Base Period Average Methane Flared
Reporting Year Methane Flared
Incremental Methane Flared (V-U)
Change in Carbon Dioxide Emissions from Flaring

Units of Measure
MMBTU
MMBTU
MMBTU
metric tons CO2e

Quantity

6. Summarize Emission Reductions
1

Item
Y
Z
AA
BB
CC

Description
Change in Methane Captured and
Combusted
Carbon Dioxide Displaced from
Electricity Used Onsite
Carbon Dioxide Displaced from
Electricity Sales
Carbon Dioxide Emissions from
Flaring
Net Change in Carbon Dioxide (Y + Z
+ AA –BB)

Units of
Measure
metric tons
CO2e
metric tons
CO2e
metric tons
CO2e
metric tons
CO2e
metric tons
CO2e

Emission Reductions
Direct
Avoided
TOTAL

Form EIA-1605 − Addendum B6. Reductions from Coal Mine Methane Recovery

B16

DRAFT ˿ November 9, 2006

7. Identify Types of Actions That Were the Likely Cause of the Reductions Achieved [Enter codes from
Appendix M]

8. Describe Actions That Were the Likely Causes of the Reductions Achieved:

9. Identify Cause(s) of the Emission Reduction(s) (check all that apply):
Voluntary action
Plant closing
Government requirement
Federal requirement
State requirement
Local requirement
10. Summarize Benefits and Costs of the Actions Taken to Reduce Greenhouse Gas Emissions
(optional):

Part D. Distribution of Emission Reductions to Other 1605(b) Reporters
1. Where Applicable, Enter Emission Reductions Distributed to Other 1605(b) Reporters (metric tons
CO2e)
1

Name of Recipient

Gas
CO2e
CO2e
CO2e
CO2e
CO2e

Units
metric tons
metric tons
metric tons
metric tons
metric tons

Amount

TOTAL

Form EIA-1605 − Addendum B6. Reductions from Coal Mine Methane Recovery

B17

DRAFT ˿ November 9, 2006

Addendum B7. Landfill Methane Recovery
If Reporting Subentities, Enter Name of Subentity:

____ ____________________________________

Part A. Action Identification
1. Enter Location of Landfill(s):
1

Name

City

2. Enter Date Methane Recovery Began:

Location
State
(if domestic
subentity)

Month_________

Country
(if foreign
subentity)

Year_____________

Name of Landfill
Affected

Year Opened

Year
Closed

Year Gas
Recovery
Installed

Waste in Place (MMT)

Form EIA-1605 − Addendum B7. Landfill Methane Recovery

B18

DRAFT ˿ November 9, 2006

2. Enter Volume of Landfill Gas Captured by Disposition (Mscf)
1

Year 4

Base
Period
Average

Reporting
Year

Year 4

Base
Period
Average

Reporting
Year

Base Period

Source and Disposition
Flared
Electricity used onsite
Electricity sold offsite
Injected into pipeline
Direct use onsite
Direct use offsite
Total

Year 1

Year 3

Year 2

3. Enter Average Heat Content of Gas Captured (Btu/scf)
1

Base Period

Source and Disposition
Flared
Electricity used onsite
Electricity sold offsite
Injected into pipeline
Direct use onsite
Direct use offsite

Year 1

Year 2

Year 3

4. Enter Total Energy Content of Gas Captured and Combusted (MMBtu)
1

Year 3

Year 4

Base
Period
Average

Reporting
Year

Year 4

Base
Period
Average

Reporting
Year

Base Period

Source and Disposition
Flared
Electricity used onsite
Electricity sold offsite
Injected into pipeline
Direct use onsite
Direct use offsite
Total

Year 1

Year 2

5. Enter Mass of Methane Captured (metric tons CO2e)
1

Base Period

Source and Disposition
Flared
Electricity used onsite
Electricity sold offsite
Injected into pipeline
Direct use onsite
Direct use offsite
Total

Year 1

Year 2

Year 3

Form EIA-1605 − Addendum B7. Landfill Methane Recovery

B19

DRAFT ˿ November 9, 2006

Part C. Emission Reductions
1. Calculate Changes in Methane Capture
1

Item
A
B
C

Description
Average Annual Quantity of Methane Captured in Base
Period
Methane Captured in Reporting Year
Change in Methane Captured (B – A)

Units of Measure
metric tons CO2e

Quantity

metric tons CO2e
metric tons CO2e

2. Calculate Changes in Disposition of Electricity Generation from Captured Methane (MWh)
1

Year 4

Base
Period
Average

Reporting
Year

Base Period
Item
D
E
F

Source and Disposition
Electricity Used Onsite
Electricity Sales
Total Generation

Year 1

Year 2

Year 3

3. Calculate Carbon Dioxide Displaced from Electricity Used Onsite (avoided emissions)
1

Item
G
H
I
J
K

Description
Base Period Average Electricity Used Onsite
Reporting Year Electricity Used Onsite
Reporting Year Incremental Electricity Used Onsite (H –
G)
Reporting Year Total Emissions from Electricity Used
Onsite *
Reporting Year Emissions Intensity of Electricity Used
Onsite (J/H)

Avoided Emissions Benchmark

Emission Reductions ((L - K) * I)

Units of Measure
MWh
MWh

Quantity

MWh
metric tons CO2e
metric tons CO2e
/MWh
metric tons CO2e
/MWh
metric tons CO2e

*Include emissions from supplemental fossil fuel use only.

4. Calculate Carbon Dioxide Displaced from Electricity Sales (avoided emissions)
1

Item
N
O
P
Q
R

Description
Base Period Average Electricity Sold
Reporting Year Electricity Sold
Reporting Year Incremental Electricity Sold (O – N)
Reporting Year Total Emissions from Electricity Sold*
Reporting Year Emissions Intensity of Electricity Sold
(Q/O)

Avoided Emissions Benchmark

Emission Reductions ((S - R) * P)

Units of Measure
MWh
MWh
MWh
metric tons CO2e
metric tons CO2e
/MWh
metric tons CO2e
/MWh
metric tons CO2e

Quantity

*Include emissions from supplemental fossil fuel use only

Form EIA-1605 − Addendum B7. Landfill Methane Recovery

B20

DRAFT ˿ November 9, 2006

5. Summarize Emission Reductions
Item
U
V
W
X

Description
Change in Methane Captured and
Combusted
Carbon Dioxide Displaced from
Electricity Used Onsite
Carbon Dioxide Displaced from
Electricity Sales
Net Change in Carbon Dioxide (U + V
+ W)

Units of
Measure
metric tons
CO2e
metric tons
CO2e
metric tons
CO2e
metric tons
CO2e

Emission Reductions
Direct
Avoided
TOTAL

6. Identify Types of Actions that Were the Likely Cause of the Reductions Achieved [Enter codes from
Appendix M]

7. Describe the Actions that Were the Likely Causes of the Reductions Achieved:

8. Identify the Cause(s) of the Emission Reduction(s) (check all that apply):
Voluntary action
Plant closing
Government requirement
Federal requirement
State requirement
Local requirement
9. Summarize Benefits and Costs of the Actions Taken to Reduce Greenhouse Gas Emissions
(optional):

Form EIA-1605 − Addendum B7. Landfill Methane Recovery

B21

DRAFT ˿ November 9, 2006

Part D. Distribution of Emission Reductions to Other 1605(b) Reporters
1. Where Applicable, Enter Emission Reductions Distributed to Other 1605(b) Reporters (metric tons
CO2e)
1

Name of Recipient

Gas
CO2e
CO2e
CO2e
CO2e
CO2e

Units
metric tons
metric tons
metric tons
metric tons
metric tons

Amount

TOTAL

Form EIA-1605 − Addendum B7. Landfill Methane Recovery

B22

DRAFT ˿ November 9, 2006

Addendum B8. Geologic Sequestration
If Reporting Subentities, Enter Name of Subentity: __________________________________________
Part A. Action Identification
1. Enter Name and Location of CO2 Injection Project:
1

If Onsite,
Agreement?

Wells
Sealed
or Plan
to Seal
Wells?

Location

Name

City

State
or Country

2. Enter the Date CO2 Injection Began: Month_________

Storage
Onsite?
(Y/N)

Year_____________

3. Describe the Action: _________________________________________________________________
____________________________________________________________________________________
____________________________________________________________________________________
____________________________________________________________________________________
____________________________________________________________________________________
4. Was the Action Reported Last Year?
Yes
No
5. Is the Reporting Entity Responsible for the Injection of CO2 Into a Permanent Storage Reservoir?
Yes
No
6. If the Answer to Question 5 is No, Does the Reporter Have a Written Agreement With the
Sequestering Party Allowing the Reporter to Claim the Reductions?
Yes
No
Not-applicable, explain: ______________________________________
__________________________________________________________
__________________________________________________________
__________________________________________________________
__________________________________________________________

Form EIA-1605 − Addendum B8. Geologic Sequestration

B23

DRAFT ˿ November 9, 2006

Part B. Action Quantification
1. Enter Source of Carbon Dioxide Sequestered in Current Reporting Year (metric tons CO2e)

Item
A
B
C
D
E
F

Name of Source

Location of Source

3
CO2
Extracted/
Captured

4
CO2 Acquired
Via Transfer
or Purchase

5
Total CO2
Captured or
Acquired

6
Name of
Storage Site

Totals (sum of items A-E)

2. Enter Amount Sequestered in Current Reporting Year (metric tons CO2e)
1

Ite
m

Name of
Storage
Site

Post-Injection Leakage/Seepage
During Current Reporting Year

Location
of
Storage
Site

Enhanced
CO2 Injected in
Resource
Current
Monitoring
Recovery?
Reporting Year
Method
CO2 Sequestered by Reporting Entity
Yes/No
Yes/No
Yes/No
CO2 Sequestered by Third Party
Yes/No
Yes/No
Yes/No
Totals (sum of items G-L)

G
H
I
J
K
L
M

Quantity

Total CO2
Sequestered in
Current Reporting
Year

3. Enter Amount Sequestered in Base Year (metric tons CO2e)
1

Item
N
O
P
Q
R
S
T

Name of
Storage
Site

Location
of Storage
Site

Post-Injection Leakage/Seepage
During Base Year

Enhanced
Resource
Amount Injected
Monitoring
Recovery?
in Base Year
Method
CO2 Sequestered by Reporting Entity
Yes/No
Yes/No
Yes/No
CO2 Sequestered by Third Party
Yes/No
Yes/No
Yes/No

Quantity

Total CO2
Sequestered in
Base Year

Totals (sum of items N-S)

Part C. Emission Reductions
1. Calculate Emission Reductions
1
Item

Description
Emission Reductions (M7-T7)

Unit of Measure
metric tons CO2e

Quantity

2. Identify Types of Actions That Were the Likely Cause of the Reductions Achieved [Enter codes from
Appendix M]

Form EIA-1605 − Addendum B8. Geologic Sequestration

B24

DRAFT ˿ November 9, 2006

3. Describe Actions That Were the Likely Causes of the Reductions Achieved:

4. Identify the Cause(s) of the Emission Reduction(s) (check all that apply):
Voluntary action
Plant closing
Government requirement
Federal requirement
State requirement
Local requirement
5. Summarize Benefits and Costs of the Actions Taken to Reduce Greenhouse Gas Emissions
(optional):

Part D. Distribution of Emission Reductions to Other 1605(b) Reporters
1. Where Applicable, Enter Emission Reductions Distributed to Other 1605(b) Reporters (metric tons
CO2e)
1

Name of Recipient

Gas
CO2e
CO2e
CO2e
CO2e
CO2e

Units
metric tons
metric tons
metric tons
metric tons
metric tons

Amount

TOTAL

Form EIA-1605 − Addendum B8. Geologic Sequestration

B25

DRAFT ˿ November 9, 2006

Addendum B9. Electricity Transmission and Distribution Improvements
If Reporting Subentities, Enter Name of Subentity: ___________________________________
Part A. Action Identification
1. Date Action Was Initiated:

Month_________

Year_____________

2. Did You Report Transmission and Distribution Improvements Last Year?
Yes
No
3. Are You Reporting as a Control Area or as a Member of a Control Area?
Yes
No
Part B. Activity Data
1. Enter Activity Data

Item
A
B
C
D
E
F
G
H
I
J
K
L
M
N
O

Description

Units of
Measure
(kWh or kVAh)

Quantity

Base Period
Electricity Entering T&D System From Own Generation
Electricity Delivered Through T&D System to End Users
(NOTE: Should Equal Total Wholesale and Retail Sales)
Electricity Imported into T&D System
Electricity Exported from T&D System
Net Imports of Electricity (C-D)
Actual Net Interchange (ANI) If Reporting on Control
Area Basis
Loss Ratio (A + E – B)/(A + E) or (A – (B + F))/(A – F)Ϯ
Reporting Year
Electricity Entering T&D System from Own Generation
Electricity Delivered Through T&D System to End Users
(NOTE: Should Equal Total Wholesale and Retail Sales)
Electricity Imported into T&D System
Electricity Exported from T&D System
Net Imports of Electricity (J-K)
Actual Net Interchange (ANI) If Reporting on Control
Area Basis
Loss Ratio (H + L – I)/(H + L) or (H – (I + M))/(H – M)Ϯ
Change In Loss Intensity (G – N) * (H + L) or (G – N) * (H
– M)Ϯ

kWh or kVAh

ϮUse second equation if reporting on a control area basis

Form EIA-1605 − Addendum B9. Electricity Transmission and Distribution Improvements

B26

DRAFT ˿ November 9, 2006

Part C. Emission Reductions
1. Calculate Emission Reductions
1

Item
P
Q
R
S
T

Description
U.S. Avoided Emissions Benchmark for Electricity
System Power Factor (If Loss Intensity Calculated In
kVAh)
Total Emission Reductions [(O * P) / 1000] or [(O * (P *
Q))/1000]ϯ
Direct Emission Reductions [R * (I/(I + L))]
Avoided Emissions (from Avoided Electricity Imports) [R *
(L/(I + L))]

Units of
Measure
metric tons
CO2e/MWh

Quantity

metric tons CO2e
metric tons CO2e
metric tons CO2e

ϮUse second equation if calculating losses in kVAh

2. Identify Types of Actions that Were the Likely Cause of the Reductions Achieved [Enter codes from
Appendix M]

3. Describe the Actions That Were the Likely Causes of the Reductions Achieved:

Form EIA-1605 − Addendum B9. Electricity Transmission and Distribution Improvements

B27

DRAFT ˿ November 9, 2006

Part D. Distribution of Emission Reductions to Other 1605(b) Reporters
1. Where Applicable, Enter Emission Reductions Distributed to Other 1605(b) Reporters (metric tons
CO2e)
1

Name of Recipient

Gas
CO2e
CO2e
CO2e
CO2e
CO2e

Units
metric tons
metric tons
metric tons
metric tons
metric tons

Amount

TOTAL

Form EIA-1605 − Addendum B9. Electricity Transmission and Distribution Improvements

B28

DRAFT ˿ November 9, 2006

Addendum B10. Capture of Methane from Anaerobic Digestion at Wastewater
Treatment Facilities
If Reporting Subentities, Enter Name of Subentity: ___________________________________
Part A. Action Identification
1. Enter Locations of Wastewater Treatment Facilities:
1

Name

City

Location
State
(if domestic
subentity)

2. Enter Date Anaerobic Digester Use Began: Month_________

Country
(if foreign
subentity)

Year_____________

3. Describe Action: ___________________________________________________________________
____________________________________________________________________________________
____________________________________________________________________________________
____________________________________________________________________________________
____________________________________________________________________________________
4. Was the Action Reported Last Year?
Yes
No

Form EIA-1605 − Addendum B10. Capture of Methane from Anaerobic Digestion at Wastewater Treatment Facilities

B29

DRAFT ˿ November 9, 2006

Part B. Action Quantification
1. Enter Volume of Gas Captured and Disposition (Mscf)
1

Year 4

Base
Period
Average

Reporting
Year

Base Period

Source and Disposition
Flared
Electricity generation
Injected into pipeline/sale to
supply network
Direct use onsite
Direct use offsite
Total

Year 1

Year 2

Year 3

2. Enter Average Heat Content of Gas Captured and Utilized (Btu/scf)
1

Year 4

Base
Period
Average

Reporting
Year

Base Period

Source and Disposition
Flared
Electricity generation
Injected into pipeline/sale to
supply network
Direct use onsite
Direct use offsite

Year 1

Year 2

Year 3

3. Enter Total Energy Content of Gas Captured and Utilized (MMBtu)
1

Year 4

Base
Period
Average

Reporting
Year

Base Period

Source and Disposition
Flared
Electricity generation
Injected into pipeline/sale to
supply network
Direct use onsite
Direct use offsite
Total

Year 1

Year 2

Year 3

4. Enter Mass of Methane Captured and Utilized (metric tons CO2e)
1

Year 4

Base
Period
Average

Reporting
Year

Base Period

Source and Disposition
Total Methane Captured

Year 1

Year 2

Year 3

Form EIA-1605 − Addendum B10. Capture of Methane from Anaerobic Digestion at Wastewater Treatment Facilities

B30

DRAFT ˿ November 9, 2006

5. Enter Nitrous Oxide Emissions From Aerobic Conditions During the Base Period and Reporting Year
(metric tons CO2e)
1

Year 4

Base
Period
Average

Reporting
Year

Base Period
Unit of
Measure

Year 1

Year 2

Year 3

Part C. Emission Reductions
1. Calculate Changes in Methane Captured and Utilized
1

Item
A
B
C

Description
Base Period Average Annual Quantity of Methane
Captured
Reporting Year Methane Captured
Change in Methane Captured (B – A)

Units of Measure

Quantity

metric tons CO2e
metric tons CO2e
metric tons CO2e

2. Calculate Changes in Disposition of Electricity Generation from Captured Methane (MWh)
1

Year 4

Base
Period
Average

Reporting
Year

Base Period
Item
D
E
F

Source and Disposition
Electricity Used Onsite
Electricity Sold
Total Generation

Year 1

Year 2

Year 3

3. Calculate Carbon Dioxide Displaced from Electricity Used Onsite (avoided emissions)
1

Item
G
H
I
J
K

Description
Base Period Average Electricity Used Onsite
Reporting Year Electricity Used Onsite
Reporting Year Incremental Electricity Used Onsite (H –
G)
Reporting Year Total Emissions from Electricity Used
Onsite *
Reporting Year Emissions Intensity of Electricity Used
Onsite (J/H)

Avoided Emissions Benchmark

Emission Reductions ((L – K) * I)

Units of Measure
MWh
MWh

Quantity

MWh
metric tons CO2e
metric tons CO2e
/MWh
metric tons CO2e
/MWh
metric tons CO2e

*Include emissions from supplemental fossil fuel use only. If biogas was co-combusted with fossil fuels in Base Period, use
Addendum B5 (Emission Reductions from Energy Generation and Distribution) to report/register reduction associated with exported
electricity.

Form EIA-1605 − Addendum B10. Capture of Methane from Anaerobic Digestion at Wastewater Treatment Facilities

B31

DRAFT ˿ November 9, 2006

4. Calculate Carbon Dioxide Displaced from Electricity Sales (avoided emissions)
1

Item
N
O
P
Q
R

Description
Base Period Average Electricity Sold
Reporting Year Electricity Sold
Reporting Year Incremental Electricity Sold (O – N)
Reporting Year Total Emissions from Electricity Sold*
Reporting Year Emissions Intensity of Electricity Sold
(Q/O)

Avoided Emissions Benchmark

Emission Reductions ((S – R) * P)

Units of Measure
MWh
MWh
MWh
metric tons CO2e
metric tons CO2e
/MWh
metric tons CO2e
/MWh
metric tons CO2e

Quantity

5. Calculate Changes in Nitrous Oxide Emissions from Use of Anaerobic Digester
1

Item
U
V
W

Description
Base Period Average Annual Nitrous Oxide Emissions
Reporting Year Quantity of Nitrous Oxide Emissions
Change in Nitrous Oxide Emissions (V – U)

Units of Measure
metric tons CO2e
metric tons CO2e
metric tons CO2e

Quantity

6. Summarize Emission Reductions
1

Item
X
Y
Z

Description
Increase in Methane Captured and
Utilized
Carbon Dioxide Displaced from
Electricity Used Onsite
Carbon Dioxide Displaced from
Electricity Sales

Change in Nitrous Oxide Emissions

Net Change in Emissions (X + Y + Z
– AA)

Units of
Measure
metric tons
CO2e
metric tons
CO2e
metric tons
CO2e
metric tons
CO2e
metric tons
CO2e

Emission Reductions
Direct

Avoided

TOTAL

7. Identify Types of Actions That Were the Likely Cause of the Reductions Achieved [Enter codes from
Appendix M]

8. Describe the Actions That Were the Likely Causes of the Reductions Achieved:

Form EIA-1605 − Addendum B10. Capture of Methane from Anaerobic Digestion at Wastewater Treatment Facilities

B32

DRAFT ˿ November 9, 2006

9. Identify the Cause(s) of the Emission Reduction(s) (check all that apply):
Voluntary action
Plant closing
Government requirement
Federal requirement
State requirement
Local requirement
10. Summarize Benefits and Costs of the Actions Taken to Reduce Greenhouse Gas Emissions
(optional):

Part D. Distribution of Emission Reductions to Other 1605(b) Reporters
1. Where Applicable, Enter Emission Reductions Distributed to Other 1605(b) Reporters (metric tons
CO2e)
1

Name of Recipient

Gas
CO2e
CO2e
CO2e
CO2e
CO2e

Units
metric tons
metric tons
metric tons
metric tons
metric tons

Amount

TOTAL

Form EIA-1605 − Addendum B10. Capture of Methane from Anaerobic Digestion at Wastewater Treatment Facilities

B33

DRAFT ˿ November 9, 2006

Addendum B11. Capture of Methane from Anaerobic Digestion of Animal Waste
If Reporting Subentities, Enter Name of Subentity: ___________________________________
Part A. Action Identification
1. Enter Location of Livestock Management Facilities:
1

Name

City

2. Date Anaerobic Digester Use Began: Month_________

Location
State
(if domestic
subentity)

Country
(if foreign
subentity)

Year_____________

3. Describe Action: ________________________________________________________________
________________________________________________________________________________
________________________________________________________________________________
________________________________________________________________________________
________________________________________________________________________________
4. Was the Action Reported Last Year?
Yes
No

Form EIA-1605 − Addendum B11. Capture of Methane from Anaerobic Digestion of Animal Waste

B34

DRAFT ˿ November 9, 2006

Part B. Action Quantification
1. Enter Action Characteristics
1

Name of Facility

Species of Animals
Producing Waste Handled
by the Digester

No. of Animals
of the Species

2. Enter Volume of Gas Captured and Disposition (Mscf)
1

Year 4

Base
Period
Average

Reporting
Year

Base Period

Source and Disposition
Flared
Electricity generation
Injected into pipeline/sale to
supply network
Direct use onsite
Direct use offsite
Total

Year 1

Year 2

Year 3

3. Enter Average Heat Content of Gas Captured and Utilized (Btu/scf)
1

Year 4

Base
Period
Average

Reporting
Year

Base Period

Source and Disposition
Flared
Electricity generation
Injected into pipeline/sale to
supply network
Direct use onsite
Direct use offsite

Year 1

Year 2

Year 3

4. Enter Total Energy Content of Gas Captured and Utilized (MMBtu)
1

Year 4

Base
Period
Average

Reporting
Year

Base Period

Source and Disposition
Flared
Electricity generation
Injected into pipeline/sale to
supply network
Direct use onsite
Direct use offsite
Total

Year 1

Year 2

Year 3

Form EIA-1605 − Addendum B11. Capture of Methane from Anaerobic Digestion of Animal Waste

B35

DRAFT ˿ November 9, 2006

5. Enter Mass of Methane Captured and Utilized (metric tons CO2e)
1

Year 4

Base
Period
Average

Reporting
Year

Base Period

Source and Disposition
Total Methane Captured

Year 1

Year 2

Year 3

6. Enter Nitrous Oxide Emissions From Aerobic Conditions During the Base Period and Reporting Year
(metric tons CO2e)
1

Year 4

Base
Period
Average

Reporting
Year

Base Period
Unit of
Measure

Year 1

Year 2

Year 3

Part C. Emission Reductions
1. Calculate Changes in Methane Capture
1

Item
A
B
C

Description
Average Annual Quantity of Methane Captured in Base
Period
Methane Captured in Reporting Year
Change in Methane Captured (B – A)

Units of Measure
metric tons CO2e

Quantity

metric tons CO2e
metric tons CO2e

2. Calculate Changes in Disposition of Electricity Generation from Captured Methane (MWh)
1

Year 4

Base
Period
Average

Reporting
Year

Base Period

Item
D
E
F

Source and Disposition
Electricity Used Onsite
Electricity Sales
Total Generation

Year 1

Year 2

Year 3

3. Calculate Carbon Dioxide Displaced From Electricity Used Onsite (avoided emissions)
Item
G
H
I
J
K

Description
Base Period Average Electricity Used Onsite
Reporting Year Electricity Used Onsite
Reporting Year Incremental Electricity Used Onsite (H – G)
Reporting Year Total Emissions from Electricity Used Onsite *
Reporting Year Emissions Intensity of Electricity Used Onsite
(J/H)

Units of Measure
MWh
MWh
MWh
metric tons CO2e
metric tons CO2e
/MWh
metric tons CO2e
/MWh
metric tons CO2e

Quantity

Avoided Emissions Benchmark

Emission Reductions ((L – K) * I)

Form EIA-1605 − Addendum B11. Capture of Methane from Anaerobic Digestion of Animal Waste

B36

DRAFT ˿ November 9, 2006

4. Calculate Carbon Dioxide Displaced From Electricity Sales (avoided emissions)
1

Item
N
O
P
Q
R
S
T

Description
Base Period Average Electricity Sold
Reporting Year Electricity Sold
Reporting Year Incremental Electricity Sold (O – N)
Reporting Year Total Emissions from Electricity Sold*
Reporting Year Emissions Intensity of Electricity Sold (Q/O)
Avoided Emissions Benchmark
Emission Reductions ((S – R) * P)

Units of Measure
MWh
MWh
MWh
metric tons CO2e
metric tons CO2e
/MWh
metric tons CO2e
/MWh
metric tons CO2e

Quantity

*Include emissions from supplemental fossil fuel use only.

5. Calculate Changes in Nitrous Oxide Emissions From Use of Anaerobic Digester
1

Item
U
V
W

Description
Base Period Average Annual Nitrous Oxide Emissions
Reporting Year Quantity of Nitrous Oxide Emissions
Change in Nitrous Oxide Emissions (V – U)

Units of Measure
metric tons CO2e
metric tons CO2e
metric tons CO2e

Quantity

6. Summarize Emission Reductions
1

Item
X
Y
Z
AA
BB

Description
Increase in Methane Captured and
Utilized
Carbon Dioxide Displaced from
Electricity Used Onsite
Carbon Dioxide Displaced from
Electricity Sales
Change in Nitrous Oxide Emissions
Net Change in Emissions (X + Y + Z –
AA)

Units of
Measure
metric tons
CO2e
metric tons
CO2e
metric tons
CO2e
metric tons
CO2e
metric tons
CO2e

Emission Reductions
Direct

Avoided

TOTAL

7. Identify Types of Actions That Were the Likely Cause of the Reductions Achieved [Enter codes from
Appendix M]

8. Describe the Actions That Were the Likely Causes of the Reductions Achieved:

Form EIA-1605 − Addendum B11. Capture of Methane from Anaerobic Digestion of Animal Waste

B37

DRAFT ˿ November 9, 2006

Part D. Distribution of Emission Reductions to Other 1605(b) Reporters
1. Where Applicable, Enter Emission Reductions Distributed to Other 1605(b) Reporters (metric tons
CO2e)
1

Name of Recipient

Gas
CO2e
CO2e
CO2e
CO2e
CO2e

Units
metric tons
metric tons
metric tons
metric tons
metric tons

Amount

TOTAL

Form EIA-1605 − Addendum B11. Capture of Methane from Anaerobic Digestion of Animal Waste

B38

DRAFT ˿ November 9, 2006

Addendum B12. Recycling of Fly Ash
If Reporting Subentities, Enter Name of Subentity: ___________________________________
Part A. Action Identification
1. Enter Name and Location of Concrete Manufacturing Facilities Where Fly Ash Was Recycled:
1

Name

Location
State
(if domestic
subentity)

City

2. Enter Date Fly Ash Recycling Began: Month_________

Country
(if foreign
subentity)

Year_____________

3. Describe Action: __________________________________________________________________
________________________________________________________________________________
________________________________________________________________________________
________________________________________________________________________________
________________________________________________________________________________
4. Was the Action Reported Last Year?
Yes
No
Part B. Action Quantification
1. Enter Total Quantity of Fly Ash Used in Concrete for Base Period and Reporting Year
1

Item
A

Unit of
Measure
metric
tons

Avg.

Reporting
Year
Quantity

Base Period Quantity
Yr 1

Yr 2

Yr 3

Yr 4

Form EIA-1605 − Addendum B12. Recycling of Fly Ash

B39

DRAFT ˿ November 9, 2006

2. Enter Emission Coefficient and Calculate Emissions
1

Item
B
C
D

Description
Coefficient for Net Emission Reductions*
Displaced CO2 Emissions from Using Fly Ash in
Concrete in Base Period (A6*B)
Displaced CO2 Emissions from Using Fly Ash in
Concrete in the Reporting Year (A7*B)

Unit of Measure

Quantity

metric tons CO2e
metric tons CO2e

*1.00 metric tons CO2e/metric ton fly ash or 0.91 metric tons CO2e/short ton fly ash (Table 2.3, Technical Guidelines)

Part C. Emission Reductions
1. Calculate Reduction in Indirect Emissions
1

Item
E

Description
Indirect Emission Reductions (D-C)

Unit of Measure
metric tons CO2e

Quantity

2. Identify Types of Actions That Were the Likely Cause of the Reductions Achieved [Enter codes from
Appendix M]

3. Describe the Actions That Were the Likely Causes of the Reductions Achieved:

Form EIA-1605 − Addendum B12. Recycling of Fly Ash

B40

DRAFT ˿ November 9, 2006

Part D. Distribution of Emission Reductions to Other 1605(b) Reporters
1. Where Applicable, Enter Emission Reductions Distributed to Other 1605(b) Reporters (metric tons
CO2e)
1

Name of Recipient

Gas
CO2e
CO2e
CO2e
CO2e
CO2e

Units
metric tons
metric tons
metric tons
metric tons
metric tons

Amount

TOTAL

Form EIA-1605 − Addendum B12. Recycling of Fly Ash

B41

DRAFT ˿ November 9, 2006

Addendum B13. Demand-Side Management and Other Reduction Programs
If Reporting Subentities, Enter Name of Subentity: ___________________________________
Part A. Action Identification
If you are reporting more than one program, copy Part A and complete for each program.
1. Enter Name of Program:
2. Enter Location of Demand-Side Management Program
City: ___________________ State (if domestic subentity): ____ Country (if foreign subentity): _____
3. Enter Date Program Began: Month_________

Year_____________

4. Provide Summary Description of Program: __________________________________________
_____________________________________________________________________________
_____________________________________________________________________________
_____________________________________________________________________________
_____________________________________________________________________________
_____________________________________________________________________________
5. Check the Applicable Box(es) to Indicate What the Program Provides to Very Small Emitters
(entities that typically emit below 500 tons of CO2e per year):
Information or other technical assistance
Financial incentives
Direct installation or investment
Other non-commercial services
6. Identify Sector(s) of Very Small Emitters Targeted (please check all that apply)
Residential
Small industrial
Commercial
Other, specify: _________________________________
7. Describe Program Evaluation Method:
rd

8. Enter Name and Describe Qualifications of 3 Party Verifier
Name: ______________________________________________________________________
Qualifications: ________________________________________________________________
____________________________________________________________________________
9. Enter Annual Energy Usage Reductions in Reporting Year (if not applicable, go to Question 10)
Unit _______________ Quantity _______________
10. Enter Greenhouse Gas Emission Reductions in Reporting Year (metric tons CO2e)
_______________
11. Do the Reductions Qualify for Registration? Yes No
To register reductions, the DSM or other program must meet all of the following criteria:
•
The DSM or other program must be funded by the reporting entity.
•
The estimated effects reported must first occur after the entity's start year and must cause a
reduction of the total emissions of residential or other very small emitters.
•
The qualifying program must provide information or other technical assistance, financial incentives,
direct installation or investment, or other non-commercial services to very small emitters to assist
them achieving emission reductions recognized by these guidelines.
•
Program evaluations must be performed and/or certified by an independent and qualified third party
verifier. The third party must certify that the estimated annual energy usage or emission reductions
were estimated in accordance with these guidelines.

Addendum B13. Demand-Side Management and Other Reduction Programs

B42

DRAFT ˿ November 9, 2006

Part B. Emission Reductions
1. Summarize Energy Savings and Greenhouse Gas Emission Reductions by Program:
1

Program Name

Total Energy Savings
Unit
Amount

Total Emission Reductions
(CO2e)
Unit
Amount

Total Emission Reductions

2. Identify Types of Actions That Were the Likely Cause of the Reductions Achieved [Enter codes from
Appendix M]

3. Describe the Actions That Were the Likely Causes of the Reductions Achieved:

Addendum B13. Demand-Side Management and Other Reduction Programs

B43

DRAFT ˿ November 9, 2006

Part C. Distribution of Emission Reductions to Other 1605(b) Reporters
1. Where Applicable, Enter Emission Reductions Distributed to Other 1605(b) Reporters (metric tons
CO2e)
1

Name of Recipient

Gas
CO2e
CO2e
CO2e
CO2e
CO2e

Units
metric tons
metric tons
metric tons
metric tons
metric tons

Amount

TOTAL

Addendum B13. Demand-Side Management and Other Reduction Programs

B44

DRAFT ˿ November 9, 2006

Addendum B14. Combined Heat and Power
If Reporting Subentities, Enter Name of Subentity: ___________________________________
Part A. Action Quantification
1. Enter Activity Data
1

Item

Description
Base Period Average

A
B
C
D
E

Total Fuel Use
Total Thermal Generation
Total Electrical Generation
Thermal Exports
Electricity Exports

F
G
H
I
J

Total Fuel Use
Total Thermal Generation
Total Electrical Generation
Thermal Exports
Electricity Exports

Thermal Avoided Emissions Benchmark

Electricity Avoided Emissions Benchmark

Units of Measure

Quantity

MMBtu
MMBtu
MWh
MMBtu
MWh
Reporting Year
MMBtu
MMBtu
MWh
MMBtu
MWh
metric tons CO2e
/MMBtu
metric tons CO2e
/MWh

2. Allocate Fuel Use to Each Generation Stream
1

Item

Description

EfficiencyThermal*

Fuel Use
(MMBtu)

Base Period
M
N

Thermal Fuel Use = B / EfficiencyThermal
Electrical Fuel Use = A – (B / EfficiencyThermal)
Reporting Year
O
Thermal Fuel Use = G / EfficiencyThermal
P
Electrical Fuel Use = F – (G / EfficiencyThermal)
*If the efficiency of the thermal energy generation (EfficiencyThermal) is unknown, reporters may use a
default value of 0.8.
3. Calculate Emissions*
1

Item
Q
R
S
T

Description
Base Period
Total Thermal Generation Emissions
Total Electricity Generation Emissions
Reporting Year
Total Thermal Generation Emissions
Total Electricity Generation Emissions

Emissions
(metric tons CO2e)

*Derive from fuel use values M through P using the methods in Chapter 1, Part C of the Technical Guidelines (Stationary
Combustion).

Form EIA-1605 − Addendum B14. Combined Heat and Power

B45

DRAFT ˿ November 9, 2006

Calculate Emissions Associated With Thermal and Electrical Energy Exported and Used Onsite

Item

Description

Units of Measure

Emissions

Base Period
Exported Thermal Generation Emissions ((D / B) * Q)
Exported Electrical Generation Emissions ((E / C) * R)
Onsite Thermal Generation Emissions (Q – U)
Onsite Electrical Generation Emissions (R – V)
Reporting Year
Exported Thermal Generation Emissions ((I / G) * S)
Exported Electrical Generation Emissions ((J / H) * T)
Onsite Thermal Generation Emissions (S – Y)
Onsite Electrical Generation Emissions (T – Z)

U
V
W
X
Y
Z
AA
BB

metric tons CO2e
metric tons CO2e
metric tons CO2e
metric tons CO2e
metric tons CO2e
metric tons CO2e
metric tons CO2e
metric tons CO2e

Part B. Emission Reductions
1. Calculate Direct Emission Reductions From Onsite Energy Use (Note: Reductions can be calculated
using either the Changes in Emissions Intensity method or the Changes in Absolute Emissions
method. Reporters should select one method, and use the appropriate formulas provided)
a. Calculate Changes in Emissions Intensity From Energy Used Onsite
1

Item
CC
DD

Description
Emission Reductions from Thermal Generation Used Onsite
((Q / B) – (S / G)) * (G – I)
Emission Reductions from Electrical Generation Used Onsite
((R / C) – (T / H)) * (H – J)

Units of
Measure
metric tons
CO2e
metric tons
CO2e

Direct
Emissions

b. Calculate Absolute Changes in Emissions From Energy Used Onsite
1

Item
EE
FF

Description
Emission Reductions from Thermal Generation Used Onsite
(W – AA)
Emission Reductions from Electrical Generation Used Onsite
(X – BB)

Units of
Measure
metric tons
CO2e
metric tons
CO2e

Direct
Emissions

2. Calculate Emission Reductions Associated With Energy Exports
a. Calculate Thermal Energy Emission Reductions Due to Improvements in Historical Emissions
Intensity
1

Item
GG

Description
Emission Reductions
(((Q / B) – (S / G)) * D)

Units of
Measure

Emission
Reductions

metric tons CO2e

Form EIA-1605 − Addendum B14. Combined Heat and Power

B46

DRAFT ˿ November 9, 2006

b. Calculate Thermal Energy Emission Reductions Due to Incremental Changes in Generation
Item

Description

Units of
Measure

Emission
Reductions

Emission Reductions
(K – (S / G)) * (I – D))

HH
c.

metric tons CO2e

Calculate Electricity Emission Reductions Due to Improvements in Historical Emissions Intensity
1

Item
II

Description
Emission Reductions
(((R / C) – (T / H)) * E)

Units of
Measure

Emission
Reductions

metric tons CO2e

d. Calculate Electricity Emission Reductions Due to Incremental Changes in Generation
Item
JJ

Description

Units of
Measure

Emission
Reductions

Emission Reductions
(L – (T / H)) * (J – E))

metric tons CO2e

3. Summarize Emission Reductions
1

Item
KK
LL
MM

Description
Reductions Associated with Onsite Energy Use
(CC + DD) or (EE + FF)
Total Emission Reductions from Energy Generation and
Exports (GG + HH + II + JJ)
Total Emission Reductions ( KK + LL)

Units of
Measure

Quantity

metric tons CO2e
metric tons CO2e
metric tons CO2e

4. Identify Types of Actions That Were the Likely Cause of the Reductions Achieved [Enter codes from
Appendix M]

5. Describe Actions That Were the Likely Causes of the Reductions Achieved:

6. Identify the Cause(s) of the Emission Reduction(s) (check all that apply):
Voluntary action
Plant closing
Government requirement
Federal requirement
State requirement
Local requirement

Form EIA-1605 − Addendum B14. Combined Heat and Power

B47

DRAFT ˿ November 9, 2006

7. Summarize Benefits and Costs of the Actions Taken to Reduce Greenhouse Gas Emissions
(optional):

Part C. Distribution of Emission Reductions to Other 1605(b) Reporters
1. Where Applicable, Enter Emission Reductions Distributed to Other 1605(b) Reporters (metric tons
CO2e)
1

Name of Recipient

Gas
CO2e
CO2e
CO2e
CO2e
CO2e

Units
metric tons
metric tons
metric tons
metric tons
metric tons

Amount

TOTAL

Form EIA-1605 − Addendum B14. Combined Heat and Power

B48

DRAFT ˿ November 9, 2006

Addendum B15. Other Action-specific Reductions
If Reporting Subentities, Enter Name of Subentity: ___________________________________
Part A. Action Identification
1. Explain Why It Is Not Possible to Use Any of The Methods in Addendum B1-B14

2. Enter Date Action Was Initiated:

Month_________

Year_____________

3. Was the Action Reported Last Year?
Yes
No
4. Identify Activities Affected by the Action:

5. Identify Equipment Affected by the Action:

6. Identify the Emission Sources Affected by the Action:

Form EIA-1605 − Addendum B15. Other Action-specific Reductions

B49

DRAFT ˿ November 9, 2006

Part B. Emission Reductions Computation
1. Enter Activity Data, Emission Coefficients, and Conversion Factors
Item
A
B
C
D
E
F
G
H
I
J

Description

Units of Measure

Quantity

2. Enter Equation(s) Used to Calculate Emissions and Emission Reductions in Question 3:

3. Calculate Emission Reductions
1

Item

Description

Base Period Emissions

Reporting Year Emissions

M
N

Registered Emission Reductions
(K - L)
Reported Emission Reductions (K
- L)

Units of
Measure
metric tons
CO2e
metric tons
CO2e
metric tons
CO2e
metric tons
CO2e

Source of Emissions Affected
Indirect
Emissions
from
Other
Direct
Purchased
Indirect
Emissions
Energy
Emissions

4. Identify Types of Actions That Were the Likely Cause of the Reductions Achieved [Enter codes from
Appendix M]

Form EIA-1605 − Addendum B15. Other Action-specific Reductions

B50

DRAFT ˿ November 9, 2006

5. Describe the Actions That Were the Likely Causes of the Reductions Achieved:

6. Identify the Cause(s) of the Emission Reduction(s) (check all that apply):
Voluntary action
Plant closing
Government requirement
Federal requirement
State requirement
Local requirement
7. Summarize Benefits and Costs of the Actions Taken to Reduce Greenhouse Gas Emissions
(optional):

Part C. Distribution of Emission Reductions to Other 1605(b) Reporters
1. Where Applicable, Enter Emission Reductions Distributed to Other 1605(b) Reporters (metric tons
CO2e)
1

Name of Recipient

Emissions Type*

Gas
CO2e

Units
metric
tons
metric
tons
metric
tons
metric
tons
metric
tons
metric
tons
metric
tons

Amount

CO2e
CO2e
CO2e
Total Direct Emission Reductions
Total Indirect Emission Reductions from
Purchased Energy
Total Other Indirect Emission
Reductions

CO2e
CO2e
CO2e

*Direct, Indirect from Purchased Energy, Other Indirect.

Form EIA-1605 − Addendum B15. Other Action-specific Reductions

B51

DRAFT ˿ November 9, 2006

Addendum B16. Destruction of Chlorofluorocarbons
If Reporting Subentities, Enter Name of Subentity: ___________________________________
Part A. Action Identification
1. Enter Name and Location of Facility Where CFCs were Destroyed:
1

Name

Location
State
(if domestic
subentity)

City

2. Enter Date CFC Destruction Began: Month_________

Country
(if foreign
subentity)

Year_____________

3. Describe Action: __________________________________________________________________
________________________________________________________________________________
________________________________________________________________________________
________________________________________________________________________________
________________________________________________________________________________
4. Was the Action Reported Last Year?
Yes
No
Part B. Emission Reductions
1. Enter Type and Quantity of CFCs Destroyed
1

CFC Gas Type

Unit

Amount

Did you Transfer the Reduction to Another
Reporting Entity? (Y/N)
(if yes, complete Part C)

Form EIA-1605 − Addendum B16. Destruction of Chlorofluorocarbons

B52

DRAFT ˿ November 9, 2006

2. Identify Types of Actions That Were the Likely Cause of the Reductions Achieved [Enter codes from
Appendix M]

3. Describe the Actions That Were the Likely Causes of the Reductions Achieved:

Part C. Distribution of Emission Reductions to Other 1605(b) Reporters
1. Where Applicable, Enter Emission Reductions Distributed to Other 1605(b) Reporters (kilograms)
1

Name of Recipient

Gas

Units
kilograms
kilograms
kilograms
kilograms
kilograms

Form EIA-1605 − Addendum B16. Destruction of Chlorofluorocarbons

Amount

B53

Addendum C
Country-specific Factors Used to
Estimate Emissions from Foreign Sources

DRAFT ˿ November 9, 2006

Addendum C. Country-specific Factors Used to Estimate Emissions from Foreign
Sources
1. Enter Information on Emission Factors Used to Estimate Emissions for Foreign Subentities
1

Emissions
Type

Emissions
Source

Gas

Unit of
Measure

Factor
Value

Countries/ Regions

Factor
Source

2. Identify Publications and Other Sources for Factors Used to Estimate Foreign Emissions
Item
Source of Factors
A
B
C
D
E
F
G
H
I
J
K
L
M
N
O
P
Q
R
S

Addendum C. Country-specific Factors Used to Estimate Emissions from Foreign Sources

DRAFT ˿ November 9, 2006

3. Document Reporter-defined Emission Factors.

Addendum C. Country-specific Factors Used to Estimate Emissions from Foreign Sources

File Type	application/pdf
File Modified	2006-11-08
File Created	2006-11-08