5900-102 Annual Reporting Form for Gathering and Processing

OMB Control No. 2060-0328
Expires 09/30/2018

Company Information

Annual Report
2015

Company Name:
Contact:
Title:
Address:

City, State, Zip Code:
Telephone:
Fax:
E-mail:

Gathering and
Processing
Sector
Annual Report Summary
BMP 1: Convert gas pneumatics to instrument air systems
BMP 2: Install flash tank separators on glycol dehydrators
BMP 3: Directed inspection and maintenance at gas plants and booster stations
Partner Reported Opportunities (please specify):

Period covered by report:

From:

To:

Partner Signature Required:
I hereby certify the accuracy of the data contained in this report.____________________________________________________________
Date





Because the implementation of some technologies reduces emissions for multiple years, Natural Gas STAR allows certain activities to count
towards a company’s emission reductions beyond the initial year of implementation. Natural Gas STAR designates the maximum length of time
that these reductions may accrue as “sunset dates.” The Appendix lists these sunset dates. Companies can report the corresponding methane
emission reductions each year up to the allowable sunset date. Or, companies may wish to report reductions only once for the implementation
year, and have EPA automatically apply the sunset date and count those emissions for the allowable number of years.
In addition to reporting methane emissions reductions, you are welcome to include other information about your company’s participation in
Natural Gas STAR in the “Additional Program Accomplishments” section of this form. The Natural Gas STAR Program will use any information
entered in this section to recognize the efforts and accomplishments of outstanding partners.

EPA Form No. 5900-102

BMP 1: Convert Gas Pneumatics to Instrument Air Systems
Summary of Emission Reduction Activities
Please include aggregate information in this section for all locations. If multiple facilities/locations are
represented, additional detail by specific facility/location can be provided in the table below.
A. Facility/location identifier information:
(If only one location note here, otherwise use table below.)
B. Project summary:
Number of instrument air systems
installed:

systems

Total number of high-bleed devices in
systems converted to instrument air, if
known:

devices

Total number of low-bleed devices in
systems converted to instrument air,
if known:

devices

Percentage of facilities using
instrument air:

%

C. Cost summary:
Estimated cost of converting to instrument air (including equipment and labor):
D. Methane emissions reduction:

Mcf

$

/replacement

E. Are these emissions reductions a one-year reduction or a
multi-year reduction?
One-year
Multi-year
If Multi-year:
Partner will report this activity once and let EPA
automatically calculate future emission reductions based on
sunset date duration (BMP 1 has a sunset period of 10
years).
Partner will report this activity annually up to allowed sunset
date.

Please identify the basis for the emissions reduction estimate, using the space provided to show any calculations
Direct measurement

Other (please specify):

Total volume of gas used per year prior to
converting to instrument air:___________

Standard calculation
Methane emissions reduction = [Average high-bleed
device annual emissions (Mcf/yr)* x Number of highbleed devices converted to instrument air] + [Average
low-bleed device annual emissions (Mcf/yr)* x Number of
low-bleed devices converted to instrument air]

*If annual emissions are not
known, use default values of 138
Mcf/yr for high-bleed device
emissions and 14 Mcf/yr for lowbleed device emissions

Please specify your data source:

o Field measurement
o Manufacturer specifications
F. Total value of gas saved:
Total value of gas saved = Methane emissions
reduction (in Mcf) x Gas value (in $/Mcf) [If not
known, use default of $3.50/Mcf]

$

G. How many instrument air
replacements are planned for
next year?

installations

Optional: Additional details by location
Facility/Location
identifier Information

# Instrument Air
Systems Installed

Total Cost of
Installation
(incl. equipment and
labor) ($)

Estimated Reductions
(Mcf/yr)

BMP 1 Comments: Please use the back of the page for additional space if needed.

Value of Gas
Saved ($)

BMP 2: Install Flash Tank Separators on Glycol Dehydrators
Summary of Emission Reduction Activities
Please include aggregate information in this section for all locations. If multiple facilities/locations are
represented, additional detail by specific facility/location can be provided in the table below.
A. Facility/location identifier information:
(If only one location note here, otherwise use table below.)
B. Project summary:
Number of flash tank separators
installed:

separators

Percent of dehydrators in system
equipped with flash tank separators:

C. Cost summary:
Estimated cost per flash tank
separator installation (including
equipment and labor):

$

/installation

%

D. Methane emissions reduction:

Mcf

E. Are these emissions reductions a one-year reduction
or a multi-year reduction?
One-year
Multi-year
If Multi-year:
Partner will report this activity once and let EPA
automatically calculate future emission reductions based
on sunset date duration (BMP 2 has a sunset period of 10
years).
Partner will report this activity annually up to allowed
sunset date.

Please identify the basis for the emissions reduction estimate, using the space provided to show any calculations
Standard calculation
Methane emissions reduction per flash tank
installation = [TEG circulation rate (in
gal/hr) x Methane entrainment rate (in scf/gal)*
x hours of operation (in hrs/yr) x 0.90] / 1,000
*If methane entrainment rate is not known, use a
default value of 3 scf/gal for energy exchange
pumps or 1 scf/gal for electric pumps

Calculation using default
Methane emissions reduction = [Average gas throughput (in MMcf/yr)
x 170 scf/MMcf x 0.90] / 1,000

Other (please specify):

Please specify your data source:

o Field measurement
o Manufacturer specifications
F. Total value of gas saved:

$

Total value of gas saved = Methane emissions
reduction (in Mcf) x Gas value (in $/Mcf) [If not
known, use default of $3.50/Mcf]

Optional: Additional details by location
Facility/Location
# Flash Tank
identifier Information
Separators Installed

G. How many flash tank
separators do you plan to
install next year?

Total Cost of
Installation
(incl. equipment and
labor) ($)

Estimated Reductions
(Mcf/yr)

BMP 2 Comments: Please use the back of the page for additional space if needed.

flash tank
separators

Value of Gas Saved
($)

BMP 3: Directed Inspection and Maintenance at Gas Plants and Booster Stations
Summary of Emission Reduction Activities
Please include aggregate information in this section for all locations. If multiple facilities/locations are
represented, additional detail by specific facility/location can be provided in the table below.
A. Facility/location identifier information:
(If only one location note here, otherwise use table below.)
B. Project summary:
Number of surveys conducted at this
facility for reporting period

surveys

Total number of leaks found:

leaks found

C. Cost summary:
Total cost of surveys conducted:

$

Total number of leaks repaired:

Total cost of leak repairs:
Mcf

D. Methane emissions reduction:

leaks repaired

$

*BMP 3 must be reported on an annual basis according to actual
survey activity.

Please identify the basis for the emissions reduction estimate, using the space provided to show any calculations
Actual field measurement

E. Total value of gas saved:

Other (please specify):

$

Total value of gas saved = Methane emissions
reduction (in Mcf) x Gas value (in $/Mcf) [If not
known, use default of $3.50Mcf]

Optional: Additional details by location
Facility/Location
Total Cost of Surveys
identifier Information
($)

F. Do you plan to survey this
facility/location next year?

Total Cost of Repairs
($)

Estimated Reductions
(Mcf/yr)

BMP 3 Comments: Please use the back of the page for additional space if needed.

(Yes/No)

Value of Gas
Saved ($)

Partner Reported Opportunities (PROs)
For more details on PROs, visit epa.gov/gasstar/tools/recommended.html

Summary of Emission Reduction Activities
Please include aggregate information in this section for all locations. If multiple facilities/locations are
represented, additional detail by specific facility/location can be provided in the table below.
A. Facility/location identifier information:
(If only one location note here, otherwise use table below.)
B. Project description: Please provide a separate PRO reporting form for each activity reported. If reporting a DI&M
activity, please use a separate page for each location/facility surveyed.
Please specify the technology or practice that was implemented
(choose from the list in the appendix or describe your own):

Please describe how your company implemented this
activity:

C. Level of implementation (check one):

D. Are emissions reductions a one-year reduction or a
______ units
______ times/year

Number of units installed:
Frequency of practice:

multi-year reduction?

One-year

Multi-year

If Multi-year:
Partner will report this activity once and let EPA
automatically calculate future emission reductions based
on sunset date duration*.
Partner will report this activity annually up to allowed
sunset date.

E. Methane emissions reduction:

F. Cost summary: Estimated cost of implementing this
practice/activity (including equipment and labor): $

Mcf

Please identify the basis for the emissions reduction estimate, using the space provided to show any calculations
Actual field measurement

Other (please specify):

Calculation using manufacturer specifications/other source

-

G. Total value of gas saved:

$

Total value of gas saved = Methane emissions reduction (in Mcf) x Gas
value (in $/Mcf) [If not known, use default of $3.50/Mcf]

Optional: Additional details by location
Facility/Location identifier
Frequency of
Information
Practice/Activity/# of
Installations

H. To what extent do you expect to implement this
practice next year?

Total Cost of
Practice/Activity
(incl. equipment and
labor) ($)

Estimated
Reductions (Mcf/yr)

Value of Gas
Saved ($)

PRO Comments: Please use the back of the page for additional space if needed.
*Because the implementation of some technologies reduces emissions for multiple years, Natural Gas STAR allows certain activities to count towards a
company’s emission reductions beyond the initial year of implementation. Natural Gas STAR designates the maximum length of time that these reductions may
accrue as “sunset dates.” The Appendix lists these sunset dates. Companies can report the corresponding methane emission reductions each year up to the
allowable sunset date. Or, companies may wish to report reductions only once for the implementation year, and have EPA automatically apply the sunset date
and count those emissions for the allowable number of years.

Previous Years' Activities
Use the table below to report any past activities implemented, but not previously reported to the Natural Gas STAR Program
Year
BMP 1
# Units Replaced
Total Cost of
Estimated
Value of Gas
Gas Pneumatics to
Replacements
Reductions
Saved ($)
Instrument Air Systems
(incl. equipment
(Mcf/yr)
and labor) ($)

Year

BMP 2
Flash Tank Separators
on Glycol Dehydrators

# Flash Tank
Separators
Installed

Total Cost of
Installation
(incl. equipment
and labor) ($)

Estimated
Reductions
(Mcf/yr)

Value of Gas
Saved ($)

Year

BMP 3
DI&M at Gas Plants and
Booster Stations

# of Surveys

Total Cost of
Surveys/Repairs
($)

Estimated
Reductions
(Mcf/yr)

Value of Gas
Saved ($)

Year

PRO/Activity

Frequency of
Practice/Activity or
# of Installations

Total Cost of
Practice/Activity
(incl. equipment
and labor) ($)

Estimated
Reductions
(Mcf/yr)

Value of Gas
Saved ($)

OMB Control No. 2060-0328
Expires 09/30/2015

Additional Program Accomplishments
The Natural Gas STAR Program will use any information entered here to recognize the efforts and achievements of
outstanding partners.
Please include any additional information you would like to share about your company’s participation in Natural Gas
STAR. Examples may include:


Activities to strengthen your program (e.g., training/education, innovative technologies or activities, pilot
projects, employee incentive programs).



Efforts to communicate your participation and successes (e.g., internal newsletters, press releases,
company website).



Participation in Natural Gas STAR program activities (e.g., contributions to case studies, presentation at
annual workshop).

Additional Accomplishments:

Additional Accomplishments Comments: Please use the back of the page for additional space if needed.

Appendix
Methane Emission Reduction Technologies & Practices—
Gathering and Processing Sector
The list below describes a variety of methane emission reduction technologies that Natural Gas STAR partners in the gathering and
processing sector have implemented and reported to Natural Gas STAR. You may use this list as a guide when completing your
annual report. Sunset dates (i.e., the length of time a technology or practice can continue to accrue emission reductions after
implemented) are one year in duration unless otherwise noted in parentheses. An asterisk (*) indicates that a technical
document related to the technology or practice is available online at epa.gov/gasstar/tools/recommended.html.
Compressors/Engines










Eliminate unnecessary equipment and/or systems*
Install automated air/fuel ratio controls (10 years)*
Install electric compressors (10 years)*
Install electric motor starters (10 years)*
Redesign blowdown/alter ESD practices*
Reduce emissions when taking compressors offline*
Replace compressor rod packing systems*
Replace gas starters with air or nitrogen (10 years)*

Dehydrators

 Convert pneumatics to mechanical controls







(10 years)*
Install condensers on glycol dehydrators (10 years)
Install flash tank separators on glycol dehydrators
(10 years)*
Reduce glycol circulation rates in dehydrators*
Replace glycol dehydration units with methanol
injection (10 years)*
Reroute dehydrator/tank vents to flare or station
suction (10 years)*
Reroute glycol skimmer gas*

Directed Inspection and Maintenance

 DI&M: aerial leak detection using laser and/or







infrared technology*
DI&M at compressor stations*
DI&M at gas plants and booster stations*
DI&M: inspect/repair compressor station blowdown
valves*
DI&M: leak detection using IR camera/optical
imaging*
DI&M: leak detection using ultrasound*
Improve measurement systems to track gas loss

Pipelines

 Pipeline replacement and repair
 Recover gas from pipeline pigging operations*
 Revise pigging schedule to reduce methane
emissions

 Use composite wrap repair*
 Use hot taps for in-service pipeline connections*

 Use inert gases and pigs to perform pipeline purges*
 Use of improved protective coating at pipeline canal


crossings (10 years)
Use pipeline pump-down techniques to lower gas
line pressure before maintenance*

Pneumatics/Controls

 Capture and use waste heat to reduce gas usage
and emissions

 Convert gas pneumatic controls to instrument air
systems (10 years)*

 Install back-up power at booster sites to prevent
venting (10 years)

 Install no bleed controllers (10 years)
 Use add-on controls to reduce emissions from
pneumatics (10 years)
Tanks

 Direct liquids at compressor suction to pipeline








(10 years)
Install hydrocarbon liquid stabilizer (10 years)
Install pressurized storage of condensate (10 years)*
Install vapor recovery units (VRUs) on storage tanks
(10 years)*
Install VRUs on pipeline liquid/condensate tanks
(10 years)
Reduce excess blanket gas blow-by to the
atmosphere
Reduce vapors vented out of drip tanks
Route inlet flash vapors to station suction (10 years)

Valves

 Convert gas operated valves to hydraulic operation
(10 years)

 Heat tracing to prevent control valves from freezing
open

 Rupture pin shutoff device to reduce venting
(10 years)

 Test and repair pressure safety valves*
 Test gate station pressure relief valves with nitrogen

Appendix (Continued)
Other






Convert natural gas-fired generator to solar power (10 years)
Nitrogen rejection unit optimization*
Process/re-route acid gas to reduce venting
Install flares (10 years)*

Mailing Information:
Standard Mail:
The Natural Gas STAR Program
U.S. EPA (6207J)
1200 Pennsylvania Ave, NW
Washington, DC 20460
U.S.A.
Express/Overnight Mail:
The Natural Gas STAR Program
U.S. EPA (6207J)
1310 L Street, NW
Washington, DC 20005
U.S.A.

The public reporting and recordkeeping burden for this collection of information is estimated to average 87 hours for each response.
Send comments on the Agency's need for this information, the accuracy of the provided burden estimates, and any suggested methods
for minimizing respondent burden, including through the use of automated collection techniques to the Director, Collection Strategies
Division, U.S. Environmental Protection Agency (2822T), 1200 Pennsylvania Ave., NW, Washington, D.C. 20460. Include the OMB
control number in any correspondence. Do not send the completed form to this address.