CAP – Full_v2023.06.pdf

Full Transcript

Association of Energy Engineers®

Certified Carbon Auditing Professional

CAP_v2023.06 1
 Safety and Housekeeping

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CAP_v2023.06 2
 One-Minute Introductions

Your Name Your Location Your Employer What You Want to Learn

And finally—what do you do for fun?

Lead Instructor: Kevin Vidmar
[email protected] / +1 401-965-7608

Certifications: CAP, CEA, CEM, CPEnMS (ANSI/ISO 50001)
AEE Fellow
Has taught many AEE classes online:
Energy Reduction Using Six Sigma, 5S, Treasure Hunts, and
Behavioral Change
Energy Reduction Using ISO 50001
Using Portable Data Loggers
Understanding, Making, and Using Energy Metrics
Trainer for many utilities on energy programs and reduction methods
Has visited over 1,000 locations worldwide for energy, water, and
environmental assistance
Also plays the fiddle

CAP_v2023.06 3
 Other Contributors

Dr. WL den Heijer Dr. Leonard Chow Mr. Rabih El Medawar
CEM, CAP AEE Fellow CEM, CWEP, CLEP, CAP,
CMVP, PCF, PMVA
[email protected] AEE Hall of Fame 2022
[email protected]
AEE Hong Kong Chapter
Course Manager
[email protected]

CAP – Simple View, Contents

WHY Global Trends, CSR, and Strategy

WHY Are You Required (Or Do You Wish) to Report/Reduce Emissions?

Process: Program Design, Auditing, Reporting, Verification,
WHAT
Reductions/Offsets, Trading, Financing, Selling

WHAT/HOW Emissions Terms and Guidance Documents

HOW Carbon Auditing, Measurement, Reporting, Verification

HOW Reduction, Offset, and “Project” Strategies

HOW Marketing/Financing/Selling

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 CAP Training – Day 1
Description Section Length Start End
Registration 0:30 8:30 9:00
Welcome, Course Outline, Exam Info 0:30 9:00 9:30
A
Global Greenhouse Gas (GHG) Trends 1:15 9:30 10:45
Break 0:15 10:45 11:00
Kyoto Protocol, GHG Legislative Requirements, Guidance B 1:15 11:00 12:15
Lunch 0:45 12:15 1:00
Carbon Footprint Measurement C 2:15 1:00 3:15
Break 0:15 3:15 3:30
Fleet Management D 0:45 3:30 4:15
Best Practices for GHG Auditors E 0:30 4:15 4:45
Break 0:15 4:45 5:00
Carbon Audit Exercise F 0:45 5:00 5:45
Wrap-Up/Questions 0:15 5:45 6:00

CAP Training – Day 2
Description Section Length Start End
Room Open 0:30 7:30 8:00
How to Reduce Energy/Carbon Footprint, Efficient Solutions G 1:15 8:00 9:15
Renewable Energy, Green Power, and Recycling H 1:00 9:15 10:15
Break 0:15 10:15 10:30
Carbon Trading I 1:00 10:30 11:30
Lunch 0:45 11:30 12:15
Review Airport Exercise F 1:30 12:15 1:45
Break 0:15 1:45 2:00
Time Value of Money J 1:00 2:00 3:00
Alternative Financing and Marketing K 0:45 3:00 3:45
Break 0:15 3:45 4:00
Body of Knowledge, Worked Example, Closing L, M 1:00 4:00 5:00

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 Examination Layout
Description Number of Questions
Understanding the Problem
History, Terminology, Policy, and Legislation 15
Carbon Audit 20
Emissions Reporting/Verification 15
Emissions Conversions 10
Solutions
Energy Efficiency Solutions 7
Renewable Energy Sources and Green Power 5
Fleet Management 5
Emissions Trading, Terminology, and Offsets 10
Recycling, Financing, and Marketing 13
Total 100

Eligibility and Certification

Applicants must meet at least one of the following eligibility criteria:

Education Experience
Four-year engineering or architectural degree
Four-year degree in business (or related field) AND Three-plus years’ related experience*
Two-year associate degree AND Five-plus years’ related experience*
NONE Eight-plus years’ related experience*
Current status of Certified Energy Manager (CEM®)

* Related experience in energy/carbon management.

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 Exam Instructions
Examinees must have the following available on their desks for the examination:

Identity Non-Wireless Scientific HB Pencil, Pencil Open-Book Materials*
Document/Passport Hand Calculator Sharpener, Eraser, Ruler

AEE examinations are open-book. Students cannot successfully complete the examinations without
bringing books, notebooks, charts, tables, and course files for reference.

Examination Room Rules

Open notes: bring any notes, materials in hard-copy form.
No wireless devices allowed.
Phones, laptops, electronic watches, and wireless devices must
be switched off and placed in a designated area away from
examinees.
Use only traditional calculator (non-wireless).
Absolute silence to maintained (no talking).
Retaking the exam only allowed after six months.
Bathroom breaks: one person at any time. Exam booklet and
answer sheet must be left face down on desk. You’re not
allowed to take anything with you.
Failure to comply with any of the above—automatic
disqualification.

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 Examination Room Rules (continued)

Scratch paper is provided. Do not write in the exam booklet.
Record answers to all questions on the answer sheet
provided. No credit will be given for answers written in the
exam booklet.
Scoring is based on the number of correct answers—no
penalty for wrong answers.
When you have finished the exam, turn in your exam
booklet, answer sheet, and all scratch paper to the proctor.

Remote Proctoring of Certification Exams
aeecenter.org/remoteproctoring

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 Remote Proctoring

We now offer remote proctoring for many AEE certification exams. You can take an online exam from
the comfort of your own home or office while an exam proctor monitors your progress using
a webcam and screensharing technology.

Reduce Exam Stress by Taking Your Exam Online
Flexible Schedule—You Pick the Date and Time
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Remote Proctoring

Review remote proctoring videos and links to confirm this is a good option for you:
Online Proctoring at ProctorU: What to Expect: Review the onboarding process and what to expect
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that the LogMeIn Rescue Applet works correctly.

CAP_v2023.06 9
 Remote Proctoring

NOTE: ProctorU does not proctor test on Chromebooks, Virtual Machines/Remote Desktop/VPN
Connections, phones, or tablets. You must test from a laptop or desktop computer. If you plan to
use a work/corporate computer, it is highly recommended that you provide this resource
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Remote Proctoring
Computer System Checklist

Strong high-speed internet connection
Working webcam (built-in or external)
Functioning microphone
Windows or Apple operating system
ProctorU Guardian Browser (available for download here).
NOTE: You must download and sign in through the Guardian Browser on exam day. Chrome
and Firefox are not compatible.
Guardian resource articles (available here)
Review client/port whitelist information (available here)

CAP_v2023.06 10
 Association of Energy Engineers
Copyright 2023, All Rights Reserved

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CAP_v2023.06 11
 The Need for Carbon Reduction and
Overview of Opportunity
Section A

Course “Compass”
Carbon Reduction Process Emissions Accounting Process

1
Understand the 1. Identify
Problem/Opportunity
2. Measure
Reduce, Reuse, Recycle, Energy
2 Management/Efficiency, etc.
3. Report
Get Green Power/Alternative
3 Energy Sources 4. Verify

4 Offset/Use Carbon
Credits/Carbon Trading

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 Is Climate Change Real?

Discussion: Your Views
How has it impacted you—thus far?
How might it impact you—in the future?

The Effects of Climate Change
Arctic Sea Ice – Comparison of Ice Levels in the Arctic

Source: https://www.epa.gov/climate-indicators/climate-change-indicators-arctic-sea-ice

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 The Effects of Climate Change

Comparison photos of the McCarty Glacier in A comparison of the landscape of the
Alaska. Image: 1909 by Ulysses Sherman Grant Blomstrandbreen glacier in Svalbard in 1918 and
and 2004 by Bruce F. Molnia 2002 (Photo: Greenpeace Magazine)

The Effects Closer to Home – CT/RI

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 What Is the Cause of Climate Change?
“There’s a more than 95 percent probability that human activities over the past 50 years have
warmed our planet. The industrial activities that our modern civilization depends upon have raised
atmospheric carbon dioxide levels from 280 parts per million to 400 parts per million in the last 150
years. The panel also concluded there’s a better than 95 percent probability that human-produced
greenhouse gases such as carbon dioxide, methane, and nitrous oxide have caused much of the
observed increase in Earth’s temperatures over the past 50 years.”
—NASA, IPCC with 1,300 independent scientists

Sources: NASA – Global Climate Change: https://climate.nasa.gov/causes/ | IPCC Sixth Assessment Report, 2022

Mapping the Impacts of Climate Change

Source: The Center for Global Development, http://www.cgdev.org/page/mapping-impacts-climate-change

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 Energy/Environmental/Economic Challenges

Air Quality Conflict and War Supply

NIMBY and Waste Global Warming Energy Costs

Potential Climate Change Impacts

Weather-related mortality Decreased crop yield Change in forest composition
Spread of infections diseases Increased irrigation demands Shift geographic range of forests
Air quality Forest health and productivity

Change in water supply and quality Erosion of beaches Shift in ecological zones
Increased competition for water Inundated costal lands Loss of habitat and species
Mitigation costs

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 The Jialing riverbed at the confluence with the Yangtze River is exposed
due to drought on August 18, 2022, in Chongqing, China.

Human Mobility and Climate Change

Source: https://www.odi.org/opinion/10470-infographics-climate-change-migration-and-displacement

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 Source: https://www.odi.org/opinion/10470-infographics-climate-change-migration-and-displacement

External Costs

From fires to floods to sea level rise to crop impact to…
Perhaps reduce by 11% or more of the global economy by 2050.
Poorer countries to be hit the worst.

Source: Swiss Re Institute, April 2021

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 How to View CO2e Emissions

Per capita Per country Over time

How to View Emissions
Per Capita

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 Source: Global Carbon Project

How to View Emissions
Per Country

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 How to View Emissions
Cumulative Over a Long Period of Time

Source: Global Carbon Project

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 How to View Emissions
Growth Over Time

What About All This Added CO2?

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 Strategic Weakness for Oil/Gasoline Fuels

Status – United States
US is heavily dependent on oil for
delivery of almost all goods, services,
and foods.
Like most countries, has little leverage
on oil pricing as it is a worldwide
commodity.

Strategic Weakness for Oil/Gasoline Fuels

Status – Other Countries
Demand in China and India is still growing or likely to grow
China imports about 60% of its oil.
India is the second net crude oil importer behind China, including USD 10 billion of oil from United
States per year
EU: 75% of “extra” oil from Russia, 9% from United States, then others.
South Africa imported ZAR 80.4 billion of crude oil in 2017.
Oil exporters have no incentive to increase their supply (or reduce price) of a dwindling resource on
which their economies depend.

Source: Eurostat

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 Energy Consumption by Fuel – US Only
In first half of 2022, renewables were 24% of total electrical generation

Source: US EIA | https://www.eia.gov/outlooks/aeo/pdf/AEO2021.pdf

Sources of Emissions – US, Overall

Source: EPA, 2010

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 US Sources of Emissions – Potential Breakdown

Source: EPA, 2010

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 EU – Energy Mix Oil is biggest energy source overall. Considerable variability by
country. For example:
In France, nuclear is 40% of total energy.
Sweden (chart) is about 50% renewable.
Germany is 26% natural gas.

Source: Eurostat, 2020

China – Energy Mix
Coal delivers 70% of electricity, more than 60% of total energy used

Source: World Energy Balances, 2022

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 China
Energy by Fuel Type (2019)

Petroleum and other
liquids
20%
Hydroelectricity
8%

Nuclear
2%
Other renewable
Coal
sources
58%
Natural gas 5%
8%

Source: researchgate.net/figure/China-total-primary-energy-consumption-by-fuel-type-2019-Environmental-Impact_fig4_356174303

India – Energy Mix

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 Example of Other Countries
South Africa – Eskom Generation Mix

Energy mix highly dependent on coal
Base load power stations
Variable/peaking power stations

Shown in infographic: production source

Source: Eskom

Eskom Generation – South Africa

14 coal-fired base load power stations
Installed capacity: 39,342 MW
1 nuclear base load power station
Installed capacity: 1,940 MW
2 Conventional hydroelectric + 3 hydro pumped storage
Installed capacity: 2,732 MW
2 QR Gas Turbine power stations – Diesel
2 OCGT power stations – Kerosene
Installed capacity: 2,426 MW
Other: IPP, imports, etc.
Total capacity: 47,201 MW
New build: 9,564 MW (not online)

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 Environmental Considerations
South Africa

Output Per MWh Generated
CO2 1.01 tons
Particulates 0.37 kg
SOx 8.25 kg
NOx 4.22 kg
Water 1.41 kL
Ash 155 kg

Eskom generated 220,166,000 MWh in 2017.

Characteristics of Greenhouse Gases

Greenhouse Gas Source Sinks Importance for Climate

Burning of fossil fuel
Carbon Dioxide Ocean uptake Absorbs infrared radiation
Land-use change
(CO2) Plant photosynthesis Affects stratospheric O3
(deforestation)

Biomass burning Reactions with OH Absorbs infrared radiation
Methane
Enteric fermentation Microorganism uptake by Affects stratospheric O3
(CH4)
Rice paddies soils and H2O; produces CO2

Biomass burning Removal by soils
Nitrous Oxide Absorbs infrared radiation
Fossil-fuel combustion Stratospheric photolysis
(N2O) Affects stratospheric O3
Fertilizers and reaction with O

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 Source: WRI | https://www.wri.org/publication/navigating-numbers
Sankey Diagram

Major Contributing Greenhouse Effect Gases

Carbon dioxide (CO2)
Methane (CH4)
Nitrous oxide (N2O)
Hydrofluorocarbons (HFCs)
Perfluorocarbons (PFCs)
Sulfur hexafluoride (SF6)
Nitrogen trifluoride (NF3)

Source: NASA – Global Climate Change | https://climate.nasa.gov/causes/

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 GHG Global Warming Potential (GWP)

GWP values describe the radiative forcing impact of one unit of a given
GHG relative to one unit of CO2.
GWP values convert GHG emissions data for non-CO2 gases into units of
carbon dioxide equivalent (CO2e).
Radiative forcing is a function of the concentration of GHGs in the
atmosphere, and because the methodology to calculate GWP continues
to evolve, GWP factors are reassessed every few years in the IPCC
Assessment Reports.
A GHG’s GWP value depends on the time horizon over which the
potential has been calculated.
IPCC Assessment Reports express GWPs over 20-, 100-, and 500-year
time horizons.
Under UNFCCC/Kyoto Protocol requirements, national inventories must
use 100-year values from the Second Assessment Report.

GHG Global Warming Potential(s)

Source: The Climate Registry

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 Emissions Factors for US Federal Facilities (2016)

Source: https://www.sustainability.gov/pdfs/federal_ghg%20accounting_reporting-guidance.pdf

MOST PEOPLE ONLY CARE WHEN THE
ENVIRONMENT AFFECTS THEM.

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 How Does It Affect Them? Money?

How Can It Affect You or Your Organization?

Directly—e.g., carbon tax, with this added to “energy” cost.
Counties with a carbon tax (as of June 2022): Argentina, Canada, Chile, China, Colombia, Denmark,
European Union, Japan, Kazakhstan, Mexico, New Zealand, Norway, Singapore, South Africa, South
Korea, Sweden, UK, and Ukraine.
Countries considering a carbon tax: Brazil, Brunei, Indonesia, Pakistan, Russia, Serbia, Thailand,
Turkey, and Vietnam.
Countries with the highest carbon tax: (in USD per metric ton of CO2e: Sweden (137), Switzerland
(101), Liechtenstein (101), Norway (69), Finland (62), and France (52).

Source: https://www.gccfintax.com/articles/what-countries-have-a-carbon-tax--4100.asp

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 National and Subnational Carbon Pricing Initiatives

What About the US?

Despite being one of the world’s biggest CO2 emitters, the US currently doesn’t have a carbon tax at a
national level. But several states, including California, Oregon, Washington, Hawaii, Pennsylvania, and
Massachusetts, have introduced carbon pricing schemes that cover emissions within their territory. President
Biden has pledged to cut emissions by 50% by 2030 and achieve net-zero by 2050. But the concept of a
carbon tax is regarded by his administration as politically risky and difficult to get passed in the US Congress.

Source: World Economic Forum, July 8, 2022

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 Carbon Pricing Policies in the US
Nothing at the National Level

RGGI = Regional Greenhouse Gas Initiative

Source: Center for Climate and Energy Solutions (C2ES)

Compared to command-and-control regulations, carbon pricing is a market-based mechanism that
creates financial incentives to reduce greenhouse gas (GHG) emissions. Twelve states that are home to
over a quarter of the US population and account for a third of US GDP have active carbon-pricing
programs and are successfully reducing emissions. Those states are California and the eleven
Northeast states—Connecticut, Delaware, Maine, Maryland, Massachusetts, New Hampshire, New
Jersey, New York, Rhode Island, Vermont, and Virginia—that make up the Regional Greenhouse Gas
Initiative (RGGI). RGGI is the first mandatory cap-and-trade program in the United States to limit
carbon dioxide emissions from the power sector. California’s program was the first multi-sector cap-
and-trade program in North America.
Massachusetts has also implemented regulations to establish an additional cap-and-trade program for
its power sector that runs in parallel with RGGI but extends out to 2050. Washington state recently
enacted new cap-and-invest legislation to take effect beginning in 2023.

Source: https://www.c2es.org/document/us-state-carbon-pricing-policies/

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 What About China?

New rules to report carbon emissions
and total power output from 2019 and
2020 from roughly 2,225 power plants.
This determined “allowances.”
July 2021: trading of allowances started.
2021 closed at 43.85 yuan (roughly USD
6.89) per metric ton.

Source: https://chinadialogue.net/en/climate/the-first-year-of-chinas-national-carbon-market-reviewed/

What About India?

India contributes roughly 7% of the world’s CO2 emissions, making it the third-highest in the world
after China and the US. It does not tax carbon emissions directly but has placed a tax on both
imported and domestically produced coal since 2010. Coal powers more than half of the country’s
electricity generation.

Source: World Economic Forum, July 8, 2022

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 South Africa – 12L Tax Incentives

Tax incentive of 95 c/kWh
Effective rate: 26.6 c/kWh (28% nominal tax rate)
Proven energy savings
All energy sources
Must be independently M&V’d by SANAS-accredited M&V team
Only claimable until January 1, 2020

The Penalty: South African Carbon Tax

South Africa's commitment to the UN and COP
Reduce greenhouse gas (GHG) emissions by:
34% by 2020
42% by 2025 against a “business as usual” curve
Businesses and companies
Commenced January 2020
R120 per ton of CO2e
All energy sources: electricity, coal, fuel oils, etc.

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 How Can Climate Change and Its Regulations Affect
You or Your Organization?
Extra cost—with tax revenue going back to…
Could be a positive image—goodwill.
Giving employees what they want Forbes, October 31, 2021
Giving investors what they want
Giving communities what they want

What is your green image?
Marketing-oriented motivators

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 Marketing Ideas

What could energy, water, and environmental benefits be worth when you consider:
Annual report to shareholders,
Community morale and “green image”
Productivity improvements, cost-competitiveness
Avoided capital/avoided costs/op. savings
Legal risk reduction, avoided penalties
LEED points, white certificates, recs
FREE public press (political/strategic)
Joint ventures (organizations too), business reciprocation, etc.

College Sustainability Report Cards

Climate change is part of this formally. But other issues
have crossover impact (e.g., green buildings).

CAP_v2023.06 39
 Examples – Harvard, 2021

CDP – Carbon Disclosure Project – Cities

Number of cities (over 1,100) using CDP,
with the number of times they have
reported (2020)

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 CDP – Carbon Disclosure Project –
Cities with 70% or More Renewable Energy

Source: https://www.cdp.net/en/cities/world-renewable-energy-cities

The CDP A List 2017

The Climate A List was
established in 2011 and
introduced for water and
forests in 2015 and 2016,
respectively. Due to the more
established nature of CDP’s
climate program, it has
proportionately more
responding companies and
therefore more companies
achieve an A score in climate.
A significantly smaller pool of
organizations are asked to
respond on forests and water.
Where relevant, we encourage
companies to disclose to all
programs to achieve double
or triple A status.

CAP_v2023.06 41
 Airlines – Examples of Different Carriers

What impacts CO2e from airlines?

What Can You Do About Climate Change?
Driving

In 2020 American drove 2.83 trillion miles.
Don’t idle your car (next slide).
Drive more slowly!
Drive sensibly—but still “hit the gas as needed”
to merge.
Lighten the load (empty the trunk)
Reduce drag—roof racks, clean car, wax car, etc.
Combine errands
Telecommute, carpool, public transport
Bike or e-bike—or walk!
More!

Source: https://www.energy.gov/energysaver/saving-money-gas

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 What Can You Do About Climate Change?
Idling of Cars and Trucks

Twenty-second rule (ten?)
Not at traffic lights (even though newer EU cars do this
automatically)
Don’t use drive-through windows—go inside!
Don’t idle while waiting for someone
You can still use your car’s battery when off—typically without
problems
Removing USA idling in cars and trucks could reduce greatly—or
perhaps even eliminate—the need for Keystone XL
Keystone XL was to move 830,000 barrels of Alberta tar sands oil per
day to refineries on the Gulf Coast of Texas.

Course “Compass”
Carbon Reduction Process Emissions Accounting Process

1
Understand the 1. Identify
Problem/Opportunity
2. Measure
Reduce, Reuse, Recycle, Energy
2 Management/Efficiency, etc.
3. Report
Get Green Power/Alternative
3 Energy Sources 4. Verify

4 Offset/Use Carbon
Credits/Carbon Trading

CAP_v2023.06 43
 So Far, We’ve Discussed…
Next Up
Specifics about this course—next two days Present Regulatory Frameworks and Guidance
The CAP examination
The climate change problem
Opportunities presented by climate change
Who has carbon tax schemes
Some carbon emission “equivalents”
Simple things that can be done—individually
→ We’ll keep coming back to this.

CAP_v2023.06 44
 Introduction to Kyoto (and Other Agreements)
and Basic Agreement Principles
Section B

Course “Compass”
Carbon Reduction Process Emissions Accounting Process

1
Understand the 1. Identify
Problem/Opportunity
2. Measure
Reduce, Reuse, Recycle, Energy
2 Management/Efficiency, etc.
3. Report
Get Green Power/Alternative
3 Energy Sources 4. Verify

4 Offset/Use Carbon
Credits/Carbon Trading

CAP_v2023.06 45
 Why Did Kyoto Pick Seven Types of Gases?

The Kyoto Protocol to the Convention commits its These have the greatest impact on global
parties to binding targets for a “basket” of GHGs, warming and have long “active” lifetimes.
including:
Example: Sulfur dioxide (causes acid rain) only
Carbon dioxide (CO2) stays active in the atmosphere for 30 to 60 days,
Methane (CH4) versus GHGs, which can last for decades.
Nitrous oxide (N2O) Now—let’s break down these into emissions
types: Scope 1, 2, and 3.
Hydrofluorocarbons (HFCs)
Perfluorocarbons (PFCs)
Sulfur hexafluoride (SF6)
Nitrogen trifluoride (NF3)*

*NF was added to reporting after the COP18 meeting in Doha, 2012.
3

What Are Scope 1, 2, and 3 Emissions?

Scope 1 Scope 2 Scope 3
Direct GHG emissions that Indirect GHG emissions Indirect GHG emissions that
occur from sources controlled associated with the purchase are the result of activities from
or owned by an of electricity, steam, heat, or assets not owned or
organization (e.g., emissions cooling. controlled by the reporting
associated with fuel organization, but that the
combustion in boilers, organization indirectly
furnaces, vehicles). impacts in its value chain.

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 What to Report On – TCR

Anthropogenic: From human activity | Biogenic: Produced or brought about by other living organisms

Emissions Terminology – Diagram

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 Emissions Terminology within Reporting Scope/Boundary

Scope Check: 1, 2, or 3?

On-site natural gas use in boiler to create steam Fuel used in company delivery fleet

On-site biofuel use in boiler to create steam Employee commuting

Purchased steam from town/city Free steam from neighboring sulfuric acid generation site

Purchased chilled water from neighboring site Emissions from a site’s HVAC systems

Purchased electricity from supplier/utility Emissions from a site’s fire suppression systems

Electricity generated by on-site oil boiler Electricity generated on-site by solar field

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 Scope Check: 1, 2, or 3?

1 On-site natural gas use in boiler to create steam Fuel used in company delivery fleet 1

1 On-site biofuel use in boiler to create steam Employee commuting 3

2 Purchased steam from town/city Free steam from neighboring sulfuric acid generation site 2

2 Purchased chilled water from neighboring site Emissions from a site’s HVAC systems 1

2 Purchased electricity from supplier/utility Emissions from a site’s fire suppression systems 1

1 Electricity generated by on-site oil boiler Electricity generated on-site by solar field –

International Mechanisms to Reduce GHG Emissions
Protocol Overview and Terminology

1992 – Rio Earth Summit 1997 – Kyoto Protocol
International negotiators adopted the United Nations Came into force in 2005.
Framework Convention on Climate Change (UNFCCC).
Set binding GHG emissions reduction targets for a
The UNFCCC itself set no mandatory limits on GHG group of industrialized countries.
emissions for individual countries and contains no
enforcement mechanisms. Reduce GHGs by 5.2% relative to 1990 emissions.

UNFCCC provides for updates (“Protocols”) that set Annex 1 countries could purchase offsets from two
mandatory emission limits. schemes (the Clean Development Mechanism and
Joint Implementation).
Commitment period 1: 2008–2012
All Parties to the UNFCCC are required to compile
national inventories of the emissions and removals of Commitment period 2: 2013–2020
the GHGs that are not controlled by the Montreal
Protocol on Substances That Deplete the Ozone Layer Over 190 countries have ratified the UNFCCC and its
(Montreal Protocol). Kyoto Protocol.

CAP_v2023.06 49
 More Kyoto Definitions

Annex I Countries: industrialized
countries
Annex II Countries: developed
countries that pay for costs of
developing countries
Developing Countries
China, India, and South Africa are
classified as a developing countries
for the purposes of the UNFCCC and
the Clean Development Mechanism
(CDM).

Kyoto – More Definitions

Annex I countries: agree to reduce their emissions below their 1990 emissions levels. If they cannot
do so, they must buy emission credits or invest in conservation.
Annex II countries: must provide financial resources for the developing countries, are a sub-group of
the annex I countries consisting of the OECD (Organization for Economic Co-operation and
Development) members, without those that were with transition economy in 1992.

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 Annex I and Annex II Countries ( )

Kyoto – More Definitions, Understanding

Developing countries have no immediate restrictions under the UNFCCC. This serves three purposes:
Avoids restrictions on growth, because pollution is strongly linked to industrial growth, and
developing economies can potentially grow very fast.
Cannot sell emissions credits to industrialized nations to permit those nations to over-pollute.
Get money and technologies from the developed countries in Annex I.

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 Kyoto – Example: South Africa

Developing Country
It can attract capital for projects that assist in the shift to a more prosperous but less carbon-
intensive economy.
It encourages and permits the active participation of private and public sectors.
It can be an effective tool of technology transfer if investment is channelled into projects that
replace old and inefficient fossil fuel technology or create new industries in environmentally
sustainable technologies.
It can help developing countries define investment priorities in projects that meet their
sustainable development goals.
360 CDM projects submitted to the DNA—220 Project Idea Notes (PINs) and 140 Project Design
Documents (PDDs). Out of 140 PDDs, 90 have been registered by the CDM Executive Board as CDM
projects (15 Issued with CERs), and 48 are at different stages of the project cycle.

Mechanisms to Reduce GHG Emissions

All parties to the UNFCCC are required to compile national inventories of the emissions and removals of the GHGs
that are not controlled by the Montreal Protocol on Substances That Deplete the Ozone Layer (Montreal Protocol).
CFCs and HCFCs are GHGs, also potent ozone-depleting substances, and are not covered by the UNFCCC.
When compiling national inventories, all parties use a methodological framework provided by the
Intergovernmental Panel on Climate Change (IPCC).
Technical body established by the United Nations to provide a clear scientific summary of the physical basis for
the climate system and climate change.
This summary is periodically updated and published in IPCC Assessment Reports.
Fifth Assessment Report published in 2013–2014.
The UK emissions trading scheme (ETS) was the world’s first economy-wide GHG trading platform. Started in 2002.

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 Some History of Global Climate Change Action

Source: Energetics, Global carbon offset markets analysis, July 2017

Other Agreements to Reduce GHG Emissions
Protocol Overview and Terminology

2012 – Doha Conference of Parties
Global governments agreed to work toward a new climate agreement.

2015 – Paris Agreement (COP21)
Paris Agreement was adopted in 2015.
Now forms the basis of global emissions reductions moving forward.
Paris Agreement became the fastest-ever UN agreement to come into force.
Countries have committed to maintaining levels of warming to 2°C and agreed in principle to aim to limit warming
to 1.5°C above pre-industrial levels.
Parties to the agreement must set targets: Nationally Determined Contributions (NDCs)
Review every five years.
President Trump announced that the US would withdraw from the Paris Agreement (July 2017), but now back in
under President Biden.
Despite the US withdrawal, the agreement continues to stand as long as it covers 55 countries with more than 55%
of global emissions.

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 Paris Agreement – More Specifics

Legally binding international treaty on climate change.
Adopted by 196 parties in 2015, in force November 2016.
Set to limit global warming to below 2 C (3.6 F), but hopefully 1.5 C (2.7 F), compared to pre-industrial levels.
Each country made initial Nationally Determined Contributions (NDC: actions to reduce CO2e, actions for resilience).
Provides that $100 billion in public and private funds will be needed each year to finance projects to adapt to
impacts or reduce emissions.
By 2020, countries were to communicate their plans to each other—with their updated NDCs.
Framework of support for countries needing it with financial, technical, and capacity-building support.
By 2024, countries report on actions actually taken.
Nothing “legal” if NDC not met—basically “name and shame.”

Source: https://www.diplomatie.gouv.fr/en/french-foreign-policy/climate-and-environment/the-fight-against-
climate-change/2015-paris-climate-conference-cop21/cop21-the-paris-agreement-in-four-key-points/

Adequacy of Initial
Country Pledges
Source: Energetics, Global carbon offset
markets analysis, July 2017

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 Nationally Determined Contributions Registry
For Latest NDCs

Source: https://unfccc.int/NDCREG

Paris Agreement – United States

US formally withdrew on November 4, 2020. On first day in office, January 20, 2021, President Biden signed
US up again. Formally rejoined on February 19, 2021. To rejoin, the US submitted new NDC—more ambitious
than the last. New NDC submitted April 2021.
Goal: Reduce net GHG emissions by 50–52% below 2005 levels in 2030. Mentioned are:
Electricity (about 1/3 of GHG): 100% carbon pollution free by 2035.
Transportation (about 1/3 of GHG) – Tailpipe and efficiency standards, incentives for zero-emission
vehicles.
Buildings: efficient electric heat, energy codes
Industry: develop low/zero carbon processes, hydrogen
Agriculture: reforestation, smart agricultural practices, more
Non-CO2 GHG plan

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 Paris Agreement – India

India sent updated NDC on August 26, 2022—two years after
deadline and two months before COP27.
Committing to reduce “emissions” intensity of its GDP to 45%
below 2005 levels by 2030. (Was 33% in past NDC.)
Note: There is no globally agreed-upon benchmark to
measure this type of target.
Half of installed electrical generating capacity will be non-
fossil fuel by 2030 (conditional on transfer of technology and
finance from others).

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 Paris Agreement – European Union (EU)

Goal is first climate-neutral economy and society by Climate law enacted in June 2021—legally binding
2050. countries
Reduce emissions by 55% compared to 1990 levels. “Fit for 55 package”: plan to turn goals into EU law,
with rules on energy, transport, emissions trading,
All EU countries ratified the Paris Agreement. and land use and forestry.
Goal is to spend 30% of overall budget for 2021–
2027 on tacking climate change and its effects
Proposals
20% was spent between 2014 and 2020.
Improving green finance standards
Strengthening EU emissions trading system
Spurring climate-friendly innovation
Ensuring fairness and cost-effectiveness

Paris Agreement – China

Two days before COP26, China submitted updated 2030 pledge and new long-term strategy.
Looking to peak CO2 emissions by 2030 and achieve net-zero emissions before 2060.
NDC specifics—enhancements:
Cut CO2 emissions per unit of GDP by 65% or more from 2005 levels.
Increase share of non-fossil energy to around 25%.
Raise forest stock volumes.
Bring installed capacity of wind and solar to more than 1,200 gigawatts (new from 2016).

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 China NDC Comparison – 2016 and 2021

Paris Agreement – South Africa

Source: climateactiontracker.org

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 Hong Kong – Climate Action Plan 2050 (2021)

Review past efforts
Push toward targets for 2050 and action plans to
meet targets
Includes sections on
Challenges
Targets
Mitigation measures (both sides—supply
and demand)
Adaption
Resilience

Sources: https://www.climateready.gov.hk/ | https://www.info.gov.hk/gia/general/202110/08/P2021100800588.htm

COP27: November 6–19, 2022, Egypt

27th conference of parties (COP) to the UN Framework Convention on Climate Change (UNFCCC)
COP is an annual meeting. First held in Berlin in 1995.
COP27 is about follow-through on COP26, held in Glasgow in 2021 (goals set).
To now work on how to achieve goals and how to pay for climate actions:
Goal: 1.5 degree C rise (2.7 degrees F)

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 COP27 – Results

Generally mixed results.
Agreement for wealthy countries to compensate low-income countries for “loss and damage.” Damage
includes:
Acute (e.g., weather events)
Chronic/slow moving (e.g., sea level rise)
Some/many details still to be worked out
24 countries to “operationalize” this arrangement—results to be delivered at COP28 in Dubai in
2023.
Limited progress on new plans for reducing GHG
Some focus on Global Methane Pledge from COP26
20 methane-related events at COP27

Global Methane Pledge

Pushed by US, EU in September 2021
Launched internationally at COP 26 in Glasgow
(November 2021)
120+ countries have now signed
Goal: Reduce methane by at least 30% by 2030
compared to 2020
Applies especially to oil and gas sector (e.g.,
flaring, venting, fugitive emissions)

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 Can International Conferences and Agreements Work?

Yes.

Vienna Convention – on the law of treaties (1969).
LRTAP – long-range transboundary air-pollution convention (1979).
Particulate emissions dropped by 40% or more, sulfur by 30–40%.
Montreal Protocol (1987), Kigali Agreement (2016) – a closer look.

Success Story – Montreal Protocol

Montreal Protocol (signed in 1987, effective in 1989).
Goal: To mitigate the “ozone hole” in atmosphere by reducing CFCs.
Phasing out the production and consumption of ozone-depleting substances (ODS) –
hydrochlorofluorocarbons (HCFCs) and chlorofluorocarbons (CFCs).
Signed by 160 countries (now 197 member parties).
1994: Ozone depleting emissions peaked and have been declining
2006: recovery 22% complete.
2017: successfully curbed 98% of the production of CFC and other ODSs
Expect near complete recovery of the ozone layer by the middle of the 21st century.

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 Success Story – Kigali Amendment (October 15, 2016)

Parties to the Montreal Protocol adopted the Kigali amendment
(adopted by 197 nations) to phase down production and
consumption of hydrofluorocarbons (HFCs) worldwide.
Legally binding
Came into effect on January 1, 2019 (developing countries: 2024)
Strengthens the Paris Agreement, which sets an ambitious target of
restricting the rise in global temperature below 2 degrees Celsius,
compared to preindustrial levels.
Unlike Paris Agreement, it gives clear, concrete, and mandatory
targets with fixed timelines.
It would prevent the emission of HFCs equivalent to 70 billion tons
of CO2.
United States signed up in September 2022.

Who Must Report GHG Emissions?

Depends on…
The country, what it has signed up for, and its specific rules
Timing, updates, changes
National politics
(In the United States) the current presidential administration

The following slides will provide an overview of conditions as of late 2022—from a country
perspective, at least.

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 Reporting Requirements/Schemes Change Often
Example from 2000 to 2012 Only

European Union
Reporting Requirements

As parties to the UNFCCC, its Kyoto Protocol, and the Paris Agreement, the EU and its member
countries are required to report to the UN:
annually on their greenhouse gas emissions (“greenhouse gas inventories”);
regularly on their climate policies and measures and progress toward the targets (“biennial reports”
and “national communications”).

CAP_v2023.06 63
 European Union
Reporting Requirements

European Union
DRAFT Results

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 China
Reporting Guidance/Requirements

Nothing yet in terms of requirements, but…
March 26, 2021: PR of China published “Guidelines for Verification of Corporate GHG Emission Report.”
Will apply to coal-fired power providers, steel mills, and oil and gas producers—those with 26,000
metric tons of CO2e or above.
These sites will need to develop GHG monitoring plans by the end of 2022.
This data will them be used for trading, allowance, etc.

Source: https://www.mee.gov.cn/xxgk2018/xxgk/xxgk06/202103/t20210329_826480.html

Hong Kong
Reporting Guidelines (2010)

For residential and commercial buildings (90% of electricity, 54% of overall GHG)
For schools, universities, community centers, sports complexes
Not intended for industrial buildings
Same GHGs except SF6 (not typical in building types)
Scope 1 – emissions and sinks (uses of CO2)
Provides emission factors and GWP to use

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 India
Reporting Requirements

The India GHG Program is a voluntary initiative to standardize measurement and management of GHG
emissions in India. No mandatory reporting.
Established in 2012 with goal of helping companies monitor their progress toward voluntary reduction
goals.

United States
Legislation/Requirements

Renewable portfolio standards (RPS)
Environmental Protection Agency (EPA)
Executive orders for US federal facilities
Securities and Exchange Commission (SEC)
Local context: state, county, city, etc.

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 US Renewable Portfolio Standards (RPS)

Regulation that requires the increased production of energy from renewable energy sources, such as wind,
solar, biomass, and geothermal.
Electricity supply companies obligated to produce a specified portion of their electricity from renewable
energy sources.
Certified renewable energy generators earn certificates for every unit of electricity produced and can sell
these along with their electricity to supply companies.
Supply companies then pass the certificates to some form of regulatory body to demonstrate their
compliance with their regulatory obligations.
In jurisdictions such as California, minimum RPS requirements are legislated. (October 2015 requires retail
sellers and publicly owned utilities to procure 50 percent of their electricity from eligible renewable energy
resources by 2030.)
RPS-type mechanisms have been adopted in several countries, including the United Kingdom, Italy, Poland,
Sweden, Belgium, and Chile, as well as in 29 of 50 US states and the District of Columbia.

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 United States
EPA Mandatory Reporting Requirements

US Environmental Protection Agency (EPA) published a rule for the mandatory reporting of
greenhouse gases (GHG) from sources that in general emit 25,000 metric tons or more of carbon
dioxide equivalent per year in the United States (October 30, 2009).
Greenhouse Gas Reporting Program (GHGRP)
85–90% of the total US GHG emissions from over 8,000 facilities are covered by GHGRP.
Commenced with 2010 calendar year.
Reports are submitted annually and provide data collected during the previous calendar year (i.e., the
reporting year). Reports are due on March 31 for emissions.
Applies to utilities and 41 categories (refineries, chemical, pulp and paper, etc.).
See 98 FR for categories/subparts.

Source: EPA | https://www.epa.gov/energy/greenhouse-gas-equivalencies-calculator

Source: EPA | https://www.epa.gov/ghgreporting

United States
EPA GHGRP

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 United States
EPA Electronic GHG Reporting Tool (e-GGRT)

E-GGRT supports facility
and supplier reporting for
the EPA Greenhouse Gas
Reporting Program. The
rule requires electronic
reporting of greenhouse
gas (GHG) emissions from
large sources and suppliers
in the United States.

United States
2021 GHG Emissions – Large Facilities

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 Federal Buildings Executive Order
March 19, 2015

Overall: 40% reduction in GHGs

Some Specifics
By 2025:
Require 30% of building electricity to be from renewable sources.
Reduce GHG emissions from fleets by 30% from 2014 levels.
Reduce energy intensity by 2.5% per year (2015–2025).
Reduce water intensity by 2% per year (2015–2025).

Source: https://www.whitehouse.gov/the-press-office/2015/03/19/executive-order-planning-federal-sustainability-next-decade

OK, We Have Data—Now What?

First step to manage any problem: define the Basically: Deming Cycle PDCA (PDSA)
problem (size, extent, area, and more).
Must be good data! One reason for this course!
Next/second step—do something to reduce the size
of the problem.
Set Goals
Make a plan to achieve goals
Execute the plan
Check (study) to see how you’re doing
Revise as needed

CAP_v2023.06 70
 What Can Be Done? Some Possibilities

Switch to renewables: no or low CO2e
Buy carbon offsets (e.g., tree planting, low carbon solutions)
Reduce usages (and hence emissions) as much as possible
Global policies, treaties, regulations (e.g., Global Methane Pledge)
National policies and/or regulations
Local policies
Local action (that means you!)—driving, thermostat, etc.
Make it “harder” for carbon emissions to occur:
Cap and trade
We’ll cover many of these in more detail later in the training!

United States
Inflation Reduction Act of 2022

Signed August 16, 2022
Includes $369 billion to bring the US closer to goal of
cutting CO2e by 40% or more from 2005 levels by 2030.
Under Paris Agreement, USA to lower emissions by
50%)

Areas of Focus
Clean trucks and buses (e.g., United States Postal Service
and its 200,000 vehicles).
Methane emission reduction program will charge oil and
gas for wasteful emissions (starting at $900 per ton).
Production tax credits (e.g., solar)
Home, consumers: tax credits

CAP_v2023.06 71
 South Africa

The Paris Agreement was adopted by consensus on 12 December 2015 by 196 countries, including South Africa.
South Africa ratified the agreement in November 2016—bound to reduce its national greenhouse gas emissions.
South Africa’s Nationally Determined Contribution (NDC): emissions will range between 398 and 614 MTCO2e
between 2025 and 2030, after which emissions will continue to decline.
South Africa’s national greenhouse gas emissions amounted 468 MTCO2e (2016), ranking 13th among the world’s
biggest GHG emitters.
The objectives of the National Greenhouse Gas Emission Reporting Regulations are to:
Establish a system for South Africa to capture information on its national carbon footprint;
So that South Africa can report on its progress in terms of achieving its national greenhouse gas emissions
reductions target; and
Inform further formulation and implementation of climate change related legislation and policy.

South Africa

The Intergovernmental Panel on Climate Change (IPCC) has
developed guidelines for establishing National Greenhouse Gas
Inventories.
Department of Environmental Affairs adopted Technical Guidelines
for Monitoring Reporting and Verification of Emissions by Industry.
Support the National Greenhouse Gas Emission Reporting
Regulations
National Environmental Management: Air Quality Act
National Atmospheric Emissions Inventory System (NAEIS).
Companies and entities that emit more than 100,000 tons of
GHGs annually or that consume electricity that results in more
than 100,000 tons of emissions from the electricity sector will be
required to report.
31 March 2021!

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 South Africa

The greenhouse gas (GHG) emissions reported
by companies will be used as the basis for the
carbon tax calculations. Companies, in control of
certain GHG emitting activities and with an
associated capacity exceeding a predetermined
threshold, will be required to submit GHG
emission data in a format prescribed by the
Regulations. The calculations of the emissions
must be done in line with Technical Guidelines
that were published with the Regulations.
Companies should note that the calculation
methodologies in these Technical Guidelines
differ from the conventional corporate
calculation methodologies as GHG Protocol
Corporate Standard and IS014064.

Source: https://www.gao.gov/products/GAO-18-188

Recap

Regulatory frameworks and international Who must report—various country examples.
agreements:
Start discussion: what to do once you have the
Kyoto Protocol data?
Paris Agreement
Montreal Agreement
Kigali Protocol
Global Methane Pledge
COP27
NDCs

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 Carbon Footprint Measurement and
Reporting
Section C

Course “Compass”
Carbon Reduction Process Emissions Accounting Process

1
Understand the 1. Identify
Problem/Opportunity
2. Measure
Reduce, Reuse, Recycle, Energy
2 Management/Efficiency, etc.
3. Report
Get Green Power/Alternative
3 Energy Sources 4. Verify

4 Offset/Use Carbon
Credits/Carbon Trading

CAP_v2023.06 74
 Session Agenda

Guidance Documents, Processes and Tools
Carbon Footprint Measurement
Software
Some Local Regulations/Specifics

Various Emissions Reporting Guidelines

CAP_v2023.06 75
 GHG Reporting Programs/Guidance
Greenhouse Gas Protocol: http://ghgprotocol.org
Early Basic Guidance, Revised and Expanded Since

ISO: https://www.iso.org/home.html
Short Legal Requirements

Carbon Disclosure Project: https://www.cdp.net/en
Investor’s Risk

The Climate Registry: https://www.theclimateregistry.org
Guidance with Examples, Software, Registry Repository

EPA: https://www.epa.gov
Climate Leaders, Mandatory Reporting 2010 Onward

Greenhouse Gas Protocol

Source: http://ghgprotocol.org/standards

CAP_v2023.06 76
 International Organization for Standardization

Source: https://www.iso.org/home.html

CAP_v2023.06 77
 International Organization for Standardization

ISO 14064-1:2018 ISO 14065:2020
Greenhouse gases – Part 1: Specification with Greenhouse gases – general principles and
guidance at the organization level for requirements for bodies that undertake validation
quantification and reporting of greenhouse gas and verification of environmental information
emissions and removals
ISO 14067:2018
ISO 14064-2:2019 Greenhouse gases – Carbon footprint of products
Greenhouse gases – Part 2: Specification with – Requirements and guidelines for quantification
guidance at the project level for quantification,
monitoring and reporting of greenhouse gas ISO 14080:2018
emission reductions or removal enhancements Greenhouse gas management and related
activities – Framework and principles for
ISO 14064-3:2019 methodologies on climate actions
Greenhouse gases – Part 3: Specification with
guidance for the validation and verification of
greenhouse gas statements

Source: https://www.iso.org/home.html

CAP_v2023.06 78
 The Climate Registry (TCR)

Let’s drill into TCR specifics as an
example of typical systems and
reporting in general.

Source: https://www.iso.org/home.html

CAP_v2023.06 79
 Modules and Descriptions

Designed to be used as a set.
Modules mirror the chronology of the reporting process.
Always look for updates.

CAP_v2023.06 80
 Section B
Inventory Boundaries

Defining Operations
The greenhouse gas (GHG) emitting activities within an inventory are based on the intersection of the
selected organizational boundary and reporting boundary as defined below.
While an organizational boundary encompasses all an organization’s business activities, organizations
may define their own reporting boundary to include all activities (matching the organizational
boundary), or a subset of activities

Section B
Inventory Boundaries

Organizational Boundaries
Businesses, government agencies and non-profits can utilize a range of organizational structures to
define the degree of ownership or control they exert over different activities.
Some examples of these structures include wholly owned operations, divisions, subsidiaries and joint
ventures.
When added together, the activities within these structures define the organizational boundary
GHG emissions inventories can be constructed to reflect three different views of an organizational
boundary:
Operational control
Financial control
Equity share

CAP_v2023.06 81
 Section B
Inventory Boundaries

Operational Control
Reflects the activities where the organization or its subsidiaries has the full authority to introduce and implement
operating policies.
The organization that holds the operating license for an activity typically has operational control.
Operational control is the authority to develop and carry out the operating or health, safety, and environmental
(HSE) policies of an activity. One or more of the following conditions establishes operational control:
Wholly owning and controlling an activity, operation, facility, or source; or,
Having the full authority to introduce and implement operational and HSE (including both GHG- and non
GHG related policies).
It should be noted that an organization need not control all aspects of an activity to have operational control. For
instance, an organization with operational control may not have the authority to make decisions on major capital
investments without the approval of other parties in a joint venture.

Section B
Inventory Boundaries

Financial Control
Reflects activities where the organization has the ability to direct the financial policies of the activity with an interest
in gaining economic benefits from the activity.
An organization has financial control over an activity if the activity is fully consolidated in the organization’s
financial accounts.
Financial control is the ability to dictate or direct the financial policies of an activity with the ability to gain the
economic rewards from the activity. One or more of the following conditions establishes financial control:
Wholly owning an activity, operation, facility, or source;
Considering an activity to be, for the purposes of financial accounting, a group company or subsidiary, and
consolidating its financial accounts in an organization's financial statements
Governing the financial policies of a joint venture under a statute, agreement or contract; or,
Retaining the rights to the majority of the economic benefits and/or financial risks from an activity or facility
that is part of a joint venture or partnership (incorporated or unincorporated), however these rights are
conveyed

CAP_v2023.06 82
 Section B
Inventory Boundaries

Equity Share
Reflects activities that are wholly owned and partially owned according to the organization’s equity share in each.
Under the equity share approach, an organization accounts for GHG emissions from activities according to its share
of equity in each activity.
The equity share reflects economic interest, which is the extent of rights an organization has to the risks and
rewards flowing from an activity.
Typically, the share of economic risks and rewards in an activity is aligned with the organization’s ownership
percentage of that activity, and equity share will normally be the same as the ownership percentage.
Where this is not the case, the economic substance of the relationship the organization has with the activity always
overrides the legal ownership form to ensure that equity share reflects the percentage of economic interest.

CAP_v2023.06 83
 Similar to Greenhouse
Gas Protocol
Equity share approach
Control approach
For joint operations, boundaries and resulting
emissions may differ depending upon approach
used.
Be careful not to double count.
Contracts might exist that spell out who, etc.
Much more discussion in:
https://ghgprotocol.org/sites/default/files/
standards/ghg-protocol-revised.pdf

CAP_v2023.06 84
 Section B
Gases to Report

Section B
Reporting Emissions in Carbon Dioxide Equivalents (CO2e)

In addition to reporting GHG emissions by gas, organizations must also report emissions from non
CO2 gases in units of carbon dioxide equivalent (CO2 e). Converting emissions of non-CO2 gases to
units of CO2 e allows the ability of each GHG to trap heat in the atmosphere to be compared on a
common basis.
Tables 5.1 and 5.2 include the Global Warming Potential (GWP) of each GHG, which is used to calculate
the carbon dioxide equivalent of the individual gases.
GWP factors represent how much heat each GHG is able to trap in the atmosphere relative to the heat
trapping ability of CO2

CAP_v2023.06 85
 Section B
Reporting Emissions in Carbon Dioxide Equivalents (CO2e)

GWP defaults are published by the Intergovernmental Panel on Climate Change (IPCC). As part of its
activities, the IPCC revisits and updates these defaults in periodic assessment reports.
Organizations may use GWPs from the assessment report most relevant to their operations provided
that the following conditions are met:
All GWPs must be 100-year values.
Where possible within an inventory, all GWPs must come from a single assessment report. If a
GWP for a particular gas is not provided in the chosen assessment report, organizations must
select the more recent GWP for that gas.
The source of all GWP values must be disclosed publicly.
It is best practice to use GWP values from the most recent assessment report. However, when a base
year has been set, it is best practice to use the same GWP values for the current inventory and the base
year inventory.

Section B
GHG Sources

CAP_v2023.06