Basics of Carbon Credits 070621

Information about Basics of Carbon Credits 070621

Published on January 22, 2008

Author: Candelora

Source: authorstream.com

Content

Carbon Sequestration:  Carbon Sequestration Carbon sequestration can be defined as the capture and secure storage of carbon that would otherwise be emitted to or remain in the atmosphere. What are Carbon Credits? Carbon credits encompass two ideas: (1) Prevention/reduction of carbon emissions produced by human activities from reaching the atmosphere by capturing and diverting them to secure storage. (2) Removal of carbon from the atmosphere by various means and securely storing it. Greenhouse Gases:  Greenhouse Gases Carbon Dioxide (CO2) Methane (CH4) Nitrous Oxide (N2O) Sulfur Hexafluoride (SF6) Perfluorocarbons (PFCs) Hydrofluorocarbons (HFCs) 6.9 billion metric tons CO2e total 545 million metric tons from CH4 ~40 million metric tons from manure management alone Greenhouse Effect:  Greenhouse Effect The “greenhouse effect” refers to the temperature regulation effect that certain atmospheric gases have on the earth. The temperature-regulating gases, called “greenhouse gases” or GHGs, form a blanket around the earth that traps some heat from the sun within the earth’s atmosphere, keeping the planet warm and habitable. Carbon Storage:  Carbon Storage Carbon is continuously cycled between land and sea, in inorganic and organic form. Most of the carbon stored in organic matter is nonliving, occurring either in soil humus or dissolved organic carbon (DOC) in seawater. The atmosphere, in addition to comprising a major carbon reservoir, plays a critical role as a medium for rapid global exchange of CO2 and other bioactive elements. Modeling Carbon in the Soil:  Modeling Carbon in the Soil Loss of Soil Carbon:  Loss of Soil Carbon Shifting Land Use Grass or trees to crops or development Cultivation Increased aeration Increased soil temperature Soil Erosion Carbon Transport Lower Productivity SOIL CARBON DYNAMICS IN RESPONSE TO TILLAGE:  SOIL CARBON DYNAMICS IN RESPONSE TO TILLAGE SOIL CARBON (% OF ORIGINIAL) IN RESPONSE TO CULTIVATION 1 50 SOIL CARBON 0 100 PLOWING PERENNIAL VEGETATION years CONSERVATION TILLAGE 50 Increasing Carbon Pools:  Increasing Carbon Pools Soil Pool Increase organic matter inputs, roots, litter Reduce cultivation, aeration Improve crop yields Improve water management Improved carbon management in agricultural soils improves soil quality. Value of Increasing SOM:  Value of Increasing SOM Improves soil structure Decreases erosivity Increases infiltration Increases soil water holding capacity Increases cation exchange capacity Decreases the energy requirement for cultural operations Soil Carbon Sequestration:  Soil Carbon Sequestration Carbon sequestration rates, with a change from conventional tillage to no-till, can be expected to peak in 5-10 yr with SOC reaching a new equilibrium in 15-20 yr. Following initiation of an enhancement in rotation complexity, SOC may reach a new equilibrium in approximately 40-60 yr. The Chicago Climate Exchange:  The Chicago Climate Exchange The Chicago Climate Exchange®:  The Chicago Climate Exchange® The Chicago Climate Exchange® (CCX®) is a greenhouse gas (GHG) emission reduction and trading pilot program for emission sources and offset projects in the United States and for offset projects undertaken in Brazil and other countries. CCX® is a self-regulatory, rules-based exchange designed and governed by CCX® Members. These members made a voluntary, legally binding commitment to reduce their emissions of greenhouse gases by four percent below the average of their 1998-2001 baseline by 2006 and a six percent reduction by 2010. Carbon Credit Program:  Carbon Credit Program Greenhouse Gas Emission Reductions Carbon Credit Program Eligibility Assessment Protocol Development Monitoring Reporting Verification Registration Carbon Credits (certified, tradable, $$) Chicago Climate Exchange protocols Achieved via qualifying GHG emission reduction projects Sell on CCX through an aggregator CCX Reduction Timetable:  CCX Reduction Timetable 2003-2006: Reduce emissions to 1%, 2%, 3%, 4% below 1998-2001 baseline 2006 – 2010: Reduce emissions to 6% below 98-01 baseline Meeting CCX Reductions:  Meeting CCX Reductions Allowances (x% less than baseline) Own reductions Industry credits from excess reductions Offsets (no more than 50% of reduction requirement) Soil Offsets No-till New Grass Rangeland Forestry New Plantings Enhanced Working Forest Ag Methane Industrial Fuel Switching Biofuels Landfill Methane Carbon Offset Prices 2004 - 2006:  Carbon Offset Prices 2004 - 2006 Price forecasts for US carbon credits:  Price forecasts for US carbon credits Figure 1. Projected price curves for US carbon credits ($US per metric ton). Sources: Carbon Finance, August 2004; EIA/DOE 2004. Analysis of S. 1844, the Clear Skies Act of 2003; S. 843, the Clean Air Planning Act of 2003; and S. 366, the Clean Power Act of 2003. Energy Information Administration, USDOE, SR/OIAF/2004-05, May 2004; EIA/DOE 2005. Impacts of Modeled Recommendations of the National Commission on Energy Policy. Energy Information Administration, USDOE, SR/OIAF/2005-02, April 2005; AEP 2004. An assessment of AEP’s actions to mitigate the economic impacts of emissions policies. American Electric Power, August 31 2004 Slide21:  HOW OUR LAND IS USED Details of Eligible CCX Offset:  Details of Eligible CCX Offset Soil Offsets No-till crop production New Grass Plantings XSO Eligible Land:  XSO Eligible Land Land must be in the eligible project area Land must be capable of being cropped Must be farmed with no-till or strip till practices Crop land can be in hay, but if row-cropped must be done in compliant manner Crop land that was recently converted to permanent grass (after Jan 1, 1999) Exchange Soil Offsets (XSOs):  Exchange Soil Offsets (XSOs) Commitment to 5 years of conservation tillage Annual certification of compliance Credits transferred to aggregator on Jan 1 20% reserve held until end of pilot project Transfer price will be the price as determined by sale through CCX less a 10% service fee. Slide25:  Documentation For CCX® Ag sector offsets Enrollment form information legal description of acreage, practice(s) employed FSA maps and crop report (CCC-578) lessees: reasonable expectation that acres are under control though 2010. Failure to keep land in compliance throughout the contract period voids all credits on the non-compliant land. Submit annual signed attestation to aggregator Acknowledge that CCX verifiers will be given access to fields and CCX documents Definition of Conservation Tillage:  Definition of Conservation Tillage For CCX purposes these practices are as defined in the Natural Resources Conservation Service National Handbook of Conservation Practices. No-till/Strip-till - Managing the amount, orientation, and distribution of crop and other plant residue on the surface year-round while growing crops in narrow slots or tilled or residue-free strips in soil previously untilled by full width inversion implements; Tillage Equipment:  Tillage Equipment Full width inversion Moldboard plow Chisel plow Field cultivator Tandem disk Offset disk Row crop cultivator Okay to use No-till/strip-till planter No-till drill Rolling harrow Tools with wide knives Subsoiler/ripper Anhydrous applicator Manure knife applicator General Guideline: After the implement has been through the field, there must still be a substantial amount of surface residue present and the soil disturbance must not be full width. If use of the implement would require that a leveling or smoothing activity follow, it would probably result in too much soil disturbance. No credits earned during year if residue is removed or burned Soil Offset Credit Zones:  Soil Offset Credit Zones New Grass Plantings:  New Grass Plantings Southwestern US: 0.4 ton; Rest of US: 1.0 ton Western Canada: 1.0 ton Details of Eligible CCX Offset:  Details of Eligible CCX Offset Rangeland Rangeland Project Eligibility:  Rangeland Project Eligibility Land meets CCX definition of Rangeland Rangeland is in a CCX-approved area Project involves rangeland management practices that include use of all of the following tools: Light or Moderate Stocking rates; Sustainable Livestock Distribution Drought mitigation Rangeland Protocol:  Rangeland Protocol The Natural Resources Conservation Service (NRCS) Field Office Technical Guides publish guidelines for managing the controlled harvest of vegetation with grazing animals. Stocking rates and livestock distribution criteria are defined according to County and State in the NRCS “Prescribed Grazing Specification” code. Rangeland Areas:  Rangeland Areas Details of Eligible CCX Offset:  Details of Eligible CCX Offset Forestry Offsets (New Tree Plantings) Forestry Offsets:  Forestry Offsets Eligible Projects Planting and/or natural regeneration on private lands after Jan 1, 1990 on land not forested on Dec 31, 1989. Credits based on net annual increase in carbon stocks (CO2 equivalents) during 2003-2010. Long-term commitment Statement of Intent or 15 year CRP contract Quantification & Verification:  Quantification & Verification Small & medium forestry can used CCX tabled quantities. Large projects must use direct measurement Small projects: Desk-top audit Medium & large projects: On-site verification Offset verification costs are the responsibility of the offset project owners. Verification costs will be managed by the aggregator. Contract Terms:  Contract Terms XFOs through this contract shall be in compliance with the rules of the CCX at the time of credit registration and will abide by the rules for participation in the forestry carbon pool as set forth by this contract. In the event that the project fails to meet these requirements, all XFOs from such land shall be null and void. Contract Terms:  Contract Terms Transfer price of the XFOs is the sales price as determined by sale through the Chicago Climate Exchange less a 10% service fee retained by Iowa Farm Bureau. Contracts facilitated by an Associate Aggregator will be subject to an additional 10% service fee which will be paid to the Associate Aggregator. Exchange offset registration fees will be deducted from pool proceeds prior to payment calculations Contract Terms:  Contract Terms Payment for XFOs covered by this contract shall be made on a semi-annual basis after pricing of the XFOs through the Chicago Climate Exchange. Sale of XFOs covered by this contract shall be at the sole discretion of the Purchaser, however all XFOs shall be priced no later than June 30, 2011. Project Size Classification:  Project Size Classification Small forestation projects: less than 2,000 metric tons CO2 per year. Medium-sized forestation projects: more than 2,000 but less than 12,500 metric tons CO2 per year. Large forestation projects more than 12,500 metric tons CO2 per year. Items to be submitted with Application:  Items to be submitted with Application Forestry Offset Contract (XFO contract) Forestry Offset Enrollment Worksheet FSA, Forest Service or NRCS maps of enrolled areas Copies of supporting documents (i.e. Planting records, CRP contracts, Forestry management plan, etc. Supporting documents for direct measurement calculations (if applicable) Supporting documents for urban/suburban and riparian buffer plantings (if applicable) Forestry Contract Worksheet:  Forestry Contract Worksheet Forestry Contract Worksheet :  Forestry Contract Worksheet CCX Credits Rates :  CCX Credits Rates CCX Credits Rates :  CCX Credits Rates CCX Credits Rates :  CCX Credits Rates CCX Credits Rates :  CCX Credits Rates CCX Credits Rates :  CCX Credits Rates CCX Credits Rates :  CCX Credits Rates Details of Eligible CCX Offset:  Details of Eligible CCX Offset Ag Methane Offsets Methane Offsets:  Methane Offsets Ag Methane destruction projects that were put into place after Jan 1, 1999. Dairy Swine Eligibility Liquid slurry storage Pit storage below animals (> 1 month) Uncovered anaerobic lagoons Credit Calculation:  Credit Calculation Baseline Calculation -- The lower of: (a) Actual monitored amount of methane captured and destroyed by the project activity (using existing CCX monitoring protocols but with full GWP for methane). The default methane combustion efficiency for flared biogas from anaerobic digesters is 90%. Higher efficiencies may be used if supported by manufacturer’s specifications or other acceptable data. The default methane combustion efficiency for biogas utilized by electricity gensets is 100%. (b) The methane emission calculated ex ante based on the amount of the animal manure that would decay anaerobically in the absence of the project activity, using the most recent country-specific IPCC tier 2 approach (for a description of the proposed calculation methods for projects in the U.S., see Appendix B). Ex Ante Calculation of Baseline Methane:  Ex Ante Calculation of Baseline Methane Appendix B: Ex Ante Calculations of Baseline Methane Emissions for U.S. Manure Digester Projects 1. Characterize the average livestock populations included in the anaerobic digester project for the reporting period; 2. Characterize the baseline manure management system for the project; 3. For each livestock population category and baseline manure management system, multiply the number of animals by the appropriate emission factor for that state (from Tables B.2 and B.3), by the appropriate solids separation correction factor, by the proportion of manure from those animals used in the digester, by the number of days in the period (Equation 1); 4. Sum the estimates for all population categories and baseline manure management systems (Equation 1); 5. Multiply the total estimate of methane emission by the appropriate methane GWP for the reporting period (Equation 2). Baseline Credit Rates - Iowa:  Baseline Credit Rates - Iowa Mechanics of Trading:  Mechanics of Trading CCX Registry CCX Trading Floor AgraGate Climate Credits Corp.:  AgraGate Climate Credits Corp. New Entity for carbon credit aggregation Wholly owned by Iowa Farm Bureau Build nation-wide aggregation network Contact Information:  Contact Information David Miller Director, Commodity Services Iowa Farm Bureau 5400 University Ave West Des Moines, IA 50266 www.iowafarmbureau.com/carbon Ph: 515-225-5431 E-mail: [email protected]

Related presentations


Other presentations created by Candelora

inner planets
24. 01. 2008
0 views

inner planets

ir solid laser
11. 01. 2008
0 views

ir solid laser

Laboratories sample handling
25. 02. 2008
0 views

Laboratories sample handling

climate dr mcdougal
09. 01. 2008
0 views

climate dr mcdougal

Helen on 86th Street
10. 01. 2008
0 views

Helen on 86th Street

Bio Ceramics 61 69
11. 01. 2008
0 views

Bio Ceramics 61 69

Regression1
13. 01. 2008
0 views

Regression1

Lockemann
14. 01. 2008
0 views

Lockemann

ln EPSDT baby care
15. 01. 2008
0 views

ln EPSDT baby care

wspa07 17
15. 01. 2008
0 views

wspa07 17

saisharnam
16. 01. 2008
0 views

saisharnam

poster Smith
20. 01. 2008
0 views

poster Smith

TCP4eCH01CRS pg
22. 01. 2008
0 views

TCP4eCH01CRS pg

chap 17 1
22. 01. 2008
0 views

chap 17 1

Oil Tanker Outlook
23. 01. 2008
0 views

Oil Tanker Outlook

hinduism beliefs
04. 02. 2008
0 views

hinduism beliefs

arvind singhal
04. 02. 2008
0 views

arvind singhal

aaspart2
23. 01. 2008
0 views

aaspart2

PapsatSlideShow
11. 02. 2008
0 views

PapsatSlideShow

6 1 Passive Energy
17. 01. 2008
0 views

6 1 Passive Energy

f06 goals
25. 01. 2008
0 views

f06 goals

RAC BBQ TRENDS
11. 01. 2008
0 views

RAC BBQ TRENDS

JINI
29. 01. 2008
0 views

JINI

NCAR2005 UTLAND
22. 01. 2008
0 views

NCAR2005 UTLAND

motor vehicle safety
31. 01. 2008
0 views

motor vehicle safety

jsp
06. 02. 2008
0 views

jsp

popcorn 3
07. 02. 2008
0 views

popcorn 3

tp NESHAP PortlandCement
13. 02. 2008
0 views

tp NESHAP PortlandCement

shah WiOpt2005
05. 02. 2008
0 views

shah WiOpt2005

MBIII Water Column
12. 01. 2008
0 views

MBIII Water Column

IndiaChina
07. 02. 2008
0 views

IndiaChina

AHsummary
27. 02. 2008
0 views

AHsummary

hubble
03. 03. 2008
0 views

hubble

Ch21 Temporal Ergo
05. 03. 2008
0 views

Ch21 Temporal Ergo

ESYS150 06 lect7
12. 03. 2008
0 views

ESYS150 06 lect7

BrazilOutsourcing
14. 03. 2008
0 views

BrazilOutsourcing

AF no vids
23. 01. 2008
0 views

AF no vids

SRRC Acker Presenation
19. 03. 2008
0 views

SRRC Acker Presenation

powerpointtemplate1
24. 03. 2008
0 views

powerpointtemplate1

cn159 Mas Coma
02. 04. 2008
0 views

cn159 Mas Coma

Becky Brubaker
21. 01. 2008
0 views

Becky Brubaker

18. 04. 2008
0 views

Bartlett Hatchery Reform
22. 04. 2008
0 views

Bartlett Hatchery Reform

accelarator
24. 04. 2008
0 views

accelarator

Saner
07. 05. 2008
0 views

Saner

north vs south
08. 05. 2008
0 views

north vs south

London David Rowe TFL
05. 02. 2008
0 views

London David Rowe TFL

vts 2007
10. 01. 2008
0 views

vts 2007

RichVizCommunication InTime
02. 05. 2008
0 views

RichVizCommunication InTime

garces montserrat
18. 01. 2008
0 views

garces montserrat

Cosmos and Contact
28. 01. 2008
0 views

Cosmos and Contact

Grammar and usage
28. 01. 2008
0 views

Grammar and usage

WQ08 with answers
07. 04. 2008
0 views

WQ08 with answers

MiniMedical School
15. 01. 2008
0 views

MiniMedical School

Fran Doran SOW
21. 01. 2008
0 views

Fran Doran SOW

chp13 ss
12. 02. 2008
0 views

chp13 ss

FGDC Wet 07 19 2005
09. 01. 2008
0 views

FGDC Wet 07 19 2005

Comm409fall2007
21. 01. 2008
0 views

Comm409fall2007

5sept03 notes
25. 01. 2008
0 views

5sept03 notes

17 IE 14March 07
04. 02. 2008
0 views

17 IE 14March 07

0607WH2Rel
10. 03. 2008
0 views

0607WH2Rel

PepTalk poste 07r
24. 01. 2008
0 views

PepTalk poste 07r

u7
14. 02. 2008
0 views

u7

ergonightmare
07. 03. 2008
0 views

ergonightmare

i5000 1r3
03. 03. 2008
0 views

i5000 1r3

Janitors Module1
18. 01. 2008
0 views

Janitors Module1

Lsn 27 SASO
16. 04. 2008
0 views

Lsn 27 SASO

outhred
15. 04. 2008
0 views

outhred

wellness bridge
13. 01. 2008
0 views

wellness bridge

dragonpp
19. 03. 2008
0 views

dragonpp

BrandBuildingAdverts ingSeminar3
10. 01. 2008
0 views

BrandBuildingAdverts ingSeminar3

2002 MM5 Modeling
14. 02. 2008
0 views

2002 MM5 Modeling