SB 34, as amended, Calderon. Greenhouse gas: carbon capture and storage.
(1) Existing law requires the Division of Oil, Gas, and Geothermal Resources of the Department of Conservation to regulate the construction and operation of oil, gas, and geothermal wells. Pursuant to existing federal law, the federal Underground Injection Controlbegin delete (UIC)end delete program,begin insert or UIC program,end insert the United States Environmental Protection Agency delegated responsibility to the division to regulate class II wells, which are wells that use injections for, among other things, enhanced recovery of oil or natural gas. The federal UIC program implements regulations that apply to class VI wells, which include wells used for geologic sequestration of carbon dioxide under specific
circumstances.
This bill, upon the adoption by the State Air Resources Board of a final methodology for carbon capture and storage projects seeking to demonstrate geologic sequestration of greenhouse gases, specifically would require the division to regulate carbon dioxide enhanced oil recovery projects that seek to demonstrate carbon sequestration under various laws providing for the reduction of greenhouse gas emissions.
(2) The California Global Warming Solutions Act of 2006 requires the State Air Resources Board to establish regulations to achieve specified greenhouse gas emissions reduction goals. The act authorizes the state board to include market-based compliance mechanisms in achieving those reduction goals.
This bill would require the state board, by January 1, 2016, to adopt a final methodology for carbon capture and storage projects seeking to demonstrate sequestration under various laws providing for the reduction of greenhouse gas emissions.
(3) The Elder California Pipeline Safety Act of 1981 vests the State Fire Marshal with the exclusive safety regulatory and enforcement authority over intrastate hazardous liquid pipelines and, to the extent authorized by an agreement between the State Fire Marshal and the United States Department of Transportation, interstate hazardous liquid pipelines.
This bill would additionally vest the State Fire Marshal with the exclusive safety regulatory and enforcement authority over pipelines transporting a fluid consisting of more than 90% carbon dioxide compressed to a supercritical state.
(4) Existing law defines land as the material of the earth and includes free or occupied space for an indefinite upward or downward distance for the purpose of prescribing ownership of land.
end deleteThis bill would specify that free space includes pore space that can be possessed and used for the storage of greenhouse gas.
end delete(5)
end deletebegin insert(4)end insert This bill would declare that it is to take effect immediately as an urgency statute.
Vote: 2⁄3. Appropriation: no. Fiscal committee: yes. State-mandated local program: no.
The people of the State of California do enact as follows:
This measure shall be known and may be cited
2as the Carbon Capture and Storage Act of 2013.
(a) The Legislature finds and declares all of the
4following:
P3 1(1) California has established stringent short-term and long-term
2greenhouse gas (GHG) reduction goals that are functionally similar
3to the federal and international emission reduction goals. Executive
4Order S-3-05 committed California to reduce the GHG emissions
5to year 2000 levels by 2010 and to year 1990 levels by 2020, and
6to 80 percent below the year 1990 levels by 2050, a level consistent
7with the current scientific evidence regarding emission reductions
8needed to stabilize the climate. The California Global Warming
9Solutions Act of 2006 (Division 25.5 (commencing
with Section
1038500) of the Health and Safety Code) separately obligates
11California to reduce GHG emissions to the year 1990 levels by
122020.
13(2) The scoping plan adopted pursuant to the California Global
14Warming Solutions Act of 2006 recognizes that carbon capture
15and storage (CCS) can play a role in helping the state meet its
16long-term GHG reduction goals. Cap-and-trade programs
17worldwide, including the Kyoto Protocol to the United Nations
18Framework Convention on Climate Change (UN Doc.
19FCCC/CP/1997/7/Add.1, 37 ILM 22) and the European Union
20Emissions Trading Scheme (Directive 2003/87/EC, as amended),
21include CCS as a means for compliance. The 2010 Cancun
22Agreements under the Kyoto Protocol (UN Doc.
23FCCC/CP/2010/7/Add.1) envision that CCS will be able to
24generate certified emissions reductions (CERs) under the clean
25development
mechanism (CDM). The 2011 Durban Platform under
26the Kyoto Protocol (UN Doc. FCCC/CP/2011/L.10) provides
27modalities and procedures regarding specifically how CCS projects
28may generate CERs under the CDM.
29(3) The geologic storage of carbon dioxide is expected to provide
30an effective means of storing carbon dioxide over geologic time
31periods. The Intergovernmental Panel on Climate Change (IPCC),
32in its 2005 Special Report on Carbon Dioxide Capture and Storage,
33states that “[o]bservations from engineered and natural analogues
34as well as models suggest that the fraction retained in appropriately
35selected and managed geological reservoirs is very likely to exceed
3699 percent over 100 years and is likely to exceed 99 percent over
371,000 years.”
38(4) The deployment of CCS can materially
help California to
39achieve its long-term GHG emissions reduction goals. The
40International Energy Agency’s 2011 World Energy Outlook
P4 1describes CCS as a “key abatement option” that accounts for 18
2percent of emission savings in a key modeled scenario. The
3International Energy Agency further reports that CCS investment
4must be made “now” if emission reductions are to be achieved
5economically. The August 2010 report of the President’s
6
Interagency Task Force on CCS describes the technology as one
7that can “greatly reduce” GHG emissions while playing an
8“important role in achieving national and global” GHG reduction
9goals. In its December 2010 report, the California Carbon Capture
10and Storage Review Panel states that “[t]here is a public benefit
11from long-term geologic storage of [carbon dioxide] as a strategy
12for reducing GHG emissions to the atmosphere as required by
13California laws and policies.”
14(5) Despite the existence of comprehensive federal CCS
15regulations, impediments to the deployment of CCS technology
16in California remain, including specific gaps in California laws
17and regulation. Many of these gaps are identified and discussed
18by the California Carbon Capture and Storage Review Panel’s
19December 2010 report. These gaps include clarifying ownership
20of
the pore space and clarifying regulatory responsibility for
21permitting CCS projects.
22(6) By exercising a leadership role in CCS technology,
23California will position its economy, technology centers, financial
24institutions, and businesses to benefit from efforts to reduce
25emissions of GHGs through CCS.
26(7) California has ample geologic storage capacity for carbon
27dioxide. In a 2005 report, the United States Department of Energy
28determined that the state has a “huge potential for geological
29sequestration capacity.” The study estimated that the saline
30formations have a storage capacity of 146 to 840 gigatons of carbon
31dioxide. Moreover, those formations also have large numbers of
32oil and gas fields and significant potential for carbon dioxide
33enhanced oil recovery (CO2-EOR). The
CO2-EOR technology is
34a proven mature technology that can be used to sequester carbon
35dioxide given adequate regulatory oversight.
36(8) In another 2005 study, the United States Department of
37Energy documented the potential energy production and GHG
38storage potential of CO2-EOR technology for California. That
39study reached several conclusions, including California has a large
40“stranded oil” resource base that will be left in the ground
P5 1following the use of today’s oil recovery practices, much of
2California’s large “stranded oil” resource base is amenable to
3CO2-EOR, application of miscible and immiscible CO2-EOR
4would enable a significant portion of the California’s “stranded
5oil” to be recovered, and the successful introduction and wide scale
6use of CO2-EOR in California would stimulate the economy,
7provide new higher paying jobs,
and lead to higher tax revenues
8for the state.
9(9) Carbon dioxide capture is subject to federal regulations. The
10United States Environmental Protection Agency (USEPA) regulates
11air emissions of GHGs through several regulatory programs,
12including the Prevention of Significant Deterioration (PSD) and
13Title V permitting programs under the federal Clean Air Act (42
14U.S.C. Sec. 7401 et seq.). The USEPA’s PSD and Title V
15Permitting Guidance for Greenhouse Gases states that permit
16writers must consider CCS technology to be “available” as part of
17the five-step Best Available Control Technology assessment
18process. Subpart PP (commencing with Section 98.420) of, subpart
19RR (commencing with Section 98.440) of, and subpart UU
20(commencing with Section 98.470) of, Part 98 of Title 40 of the
21Code of Federal Regulations prescribing GHG reporting rules
22separately
require companies engaged in the injection of carbon
23dioxide, geological sequestration of carbon dioxide, or other
24CCS-related operations to report their atmospheric emission of
25GHGs. These regulations apply in California.
26(10) Carbon dioxide transport is subject to comprehensive
27federal regulation by all modes, including pipeline, road, or ground.
28These regulations apply in California.
29(11) The pipeline transport of carbon dioxide is a proven mature
30technology. In its 2005 special report of CCS, the IPCC states that
31the “[p]ipeline transport of [carbon dioxide] operates as a mature
32market technology (in the [United States], over 2,500 [kilometers]
33 of pipelines transport more than 40 [million metric tons of carbon
34dioxide] per year).” Federal government data demonstrate that
35carbon
dioxide pipelines have been operated safely. Meanwhile,
36the trucking industry has safely transported significant quantities
37of carbon dioxide for decades for a variety of commercial end
38users, including the carbonated beverage industry.
39(12) Carbon dioxide injection and storage is subject to extensive
40federal regulations. In December 2010, the USEPA finalized its
P6 1class VI regulations (76 Fed. Reg. 56982) under the Underground
2Injection Control (UIC) program, and since that time the USEPA
3has issued several detailed implementation guidance documents.
4Those regulations do not apply unless carbon dioxide is being
5injected for the primary purpose of long-term storage into an oil
6and gas reservoir and there is an increased risk to underground
7sources of drinking water compared to class II operations. The
8UIC class VI well program regulations
apply in California and are
9implemented by the USEPA. The UIC class II well program
10regulations apply in California and the USEPA has delegated its
11implementation responsibilities to the Division of Oil, Gas, and
12Geothermal Resources of the Department of Conservation.
13(13) The goals of creating a regulatory framework that ensures
14the safe deployment of CCS technology in a manner consistent
15with the state’s goals for GHG reduction can best be accomplished
16by clarifying the ownership of the pore space and the regulatory
17
responsibility of permitting CCS projects.
18(b) It is the intent of the Legislature to create a clear and
19comprehensive permitting regime for CCS projects in California.
20(c) In enacting this act, the Legislature does not intend to require
21the deployment of CCS technology but only to provide a clear and
22certain regulatory structure for CCS projects.
23(d) In enacting this act, the Legislature intends to clarify the
24Division of Oil, Gas, and Geothermal Resources’ authority to
25regulate carbon dioxide injection for enhanced oil recovery
26projects, the State Fire Marshal’s authority to regulate carbon
27dioxide intrastate pipelines, that free space includes pore space
28that can be possessed and used for the storage of greenhouse
gas,
29and that the remaining provision of this measure applies to CCS
30projects and carbon dioxide enhanced oil recovery projects seeking
31to reduce a compliance obligation pursuant to the California Global
32Warming Solutions Act of 2006 (Division 25.5 (commencing with
33Section 38500) of the Health and Safety Code) by demonstrating
34simultaneous sequestration of injected carbon dioxide. The
35Legislature does not intend to limit or supersede the division’s
36authority as it relates to existing or future carbon dioxide enhanced
37oil recovery projects that do not seek to reduce a compliance
38obligation pursuant to the California Global Warming Solutions
39Act of 2006.
Section 659 of the Civil Code is amended to read:
(a) Land is the material of the earth, whatever may be
2the ingredients of which it is composed, whether soil, rock, or
3other substance, and includes free or occupied space for an
4indefinite distance upwards as well as downwards, subject to
5limitations upon the use of airspace imposed, and rights in the use
6of airspace granted, by law.
7(b) (1) The free space specified in subdivision (a) includes pore
8space that can be possessed and used for the storage of greenhouse
9gas in the state.
10(2) This subdivision does not change or alter the law as it relates
11to the rights
belonging to, and the dominance of, the mineral estate,
12and does not change or alter the incidents of ownership or other
13rights of the owners of the mineral estate, including the right to
14mine, drill, complete, or abandon a well, the right to inject
15substances to facilitate production, the right to implement enhanced
16recovery for the purposes of recovery of oil, gas, or other minerals,
17or the dominance of the mineral estate.
Section 51010.5 of the Government Code is amended
20to read:
As used in this chapter, the following definitions
22apply:
23(a) “Pipeline” includes every intrastate pipeline used for the
24transportation of hazardous liquid substances, carbon dioxide, or
25highly volatile liquid substances, including a common carrier
26pipeline, and all piping containing those substances located within
27a refined products bulk loading facility that is owned by a common
28carrier and is served by a pipeline of that common carrier, and the
29common carrier owns and serves by pipeline at least five of these
30facilities in the state. “Pipeline” does not include the following:
31(1) An interstate pipeline
subject to Part 195 of Title 49 of the
32Code of Federal Regulations.
33(2) A pipeline for the transportation of a hazardous liquid
34substance in a gaseous state.
35(3) A pipeline for the transportation of crude oil that operates
36by gravity or at a stress level of 20 percent or less of the specified
37minimum yield strength of the pipe.
38(4) Transportation of petroleum in onshore gathering lines
39located in rural areas.
P8 1(5) A pipeline for the transportation of a hazardous liquid
2substance offshore located upstream from the outlet flange of each
3facility on the Outer Continental Shelf where hydrocarbons are
4produced or where produced hydrocarbons are first separated,
5dehydrated,
or otherwise processed, whichever facility is farther
6downstream.
7(6) Transportation of a hazardous liquid by a flow line.
8(7) A pipeline for the transportation of a hazardous liquid
9substance through an onshore production, refining, or
10manufacturing facility, including a storage or inplant piping system
11associated with that facility.
12(8) Transportation of a hazardous liquid substance by vessel,
13aircraft, tank truck, tank car, or other vehicle or terminal facilities
14used exclusively to transfer hazardous liquids between those modes
15of transportation.
16(b) “Flow line” means a pipeline that transports hazardous liquid
17substances from the wellhead to a treating facility
or production
18storage facility.
19(c) “Hydrostatic testing” means the application of internal
20pressure above the normal or maximum operating pressure to a
21segment of pipeline, under no-flow conditions for a fixed period
22of time, utilizing a liquid test medium.
23(d) “Local agency” means a city, county, or fire protection
24district.
25(e) “Rural area” means a location that lies outside the limits of
26any incorporated or unincorporated city or city and county, or other
27residential or commercial area, such as a subdivision, a business,
28a shopping center, or a community development.
29(f) “Gathering line” means a pipeline eight inches or less in
30nominal diameter
that transports petroleum from a production
31facility.
32(g) “Production facility” means piping or equipment used in the
33production, extraction, recovery, lifting, stabilization, separation,
34or treatment of petroleum or associated storage or measurement.
35(To be a production facility under this definition, piping or
36equipment must be used in the process of extracting petroleum
37from the ground and transporting it by pipeline.)
38(h) “Public drinking water well” means a wellhead that provides
39drinking water to a public water system as defined in Section
40116275 of the Health and Safety Code, that is regulated by the
P9 1State Department of Public Health and that is subject to Section
2116455 of the Health and Safety Code.
3(i) “GIS mapping system” means a geographical information
4system that will collect, store, retrieve, analyze, and display
5environmental geographical data in a database that is accessible
6to the public.
7(j) “Motor vehicle fuel” includes gasoline, natural gasoline,
8blends of gasoline and alcohol, or gasoline and oxygenates, and
9any inflammable liquid, by whatever name the liquid may be
10known or sold, which is used or is usable for propelling motor
11vehicles operated by the explosion type engine. It does not include
12kerosene, liquefied petroleum gas, or natural gas in liquid or
13gaseous form.
14(k) “Oxygenate” means an organic compound containing oxygen
15that has been approved by the United States Environmental
16Protection Agency as a gasoline additive to meet the requirements
17
for an “oxygenated fuel” pursuant to Section 7545 of Title 42 of
18the United States Code.
19(l) “Carbon dioxide” means a fluid consisting of more than 90
20percent carbon dioxide molecules.
Section 38572 is added to the Health and Safety Code,
23to read:
(a) On or before January 1, 2016, the state board shall
25adopt a final quantification methodology for carbon capture and
26storage projects seeking to demonstrate geologic sequestration.
27(b) The methodology adopted pursuant to subdivision (a) shall
28be used for the quantification of emissions as part of compliance
29obligations under any of the following:
30(1) The mandatory reporting requirements adopted pursuant to
31Section 38530.
32(2) The demonstration of sequestration for the purposes of any
33regulation implementing a market-based compliance mechanism
34pursuant
to this part.
35(3) The demonstration of sequestration under the greenhouse
36gas emissions performance standard established pursuant to
37Chapter 3 (commencing with Section 8340) of Division 4.1 of the
38Public Utilities Code.
39(c) The state board shall consult with the Public Utilities
40Commission and the State Energy Resources Conservation and
P10 1Development Commission on the development of the quantification
2methodology, and, to the maximum extent possible, coordinate
3the incorporation of the methodology into the emissions
4performance standard enforcement processes of those commissions.
5(d) The quantification methodology shall include a methodology
6for carbon dioxide enhanced oil recovery projects seeking to
7demonstrate
simultaneous sequestration of injected carbon dioxide.
8The methodology shall address multiple modes of carbon dioxide
9transportation, including pipeline, rail, and road transportation.
10The methodology shall do all of the following:
11(1) Ensure that greenhouse gas emissions reductions, achieved
12pursuant to the methodology, are real, permanent, quantifiable,
13verifiable, and enforceable by the state board.
14(2) Demonstrate that sites are capable of long-term containment
15of carbon dioxide.
16(3) Identify and characterize potential natural and manmade
17leakage pathways, and provide implementation of appropriate risk
18management and corrective actions.
19(4) Provide design,
construction, and operation parameters to
20prevent, mitigate, and remediate the creation or activation of
21leakage pathways and the migration of carbon dioxide or fluids
22into any zone in a manner not authorized by the methodology.
23(5) Minimize fugitive carbon dioxide emissions from carbon
24dioxide enhanced oil recovery projects seeking to demonstrate
25simultaneous sequestration of injected carbon dioxide.
26(6) Provide for post injection closure and the long-term
27responsibility for carbon dioxide sequestered.
28(7) Verify, monitor, account for, and report carbon dioxide
29quantities sequestered, injected, recycled, leaked, vented, and in
30any other categories as deemed appropriate by the state board.
31(e) The state board shall not quantify any carbon dioxide from
32an enhanced oil recovery project seeking to demonstrate
33simultaneous sequestration of injected carbon dioxide that is
34incapable of transitioning to class VI in accordance with applicable
35requirements of the federal Safe Drinking Water Act (42 U.S.C.
36Sec. 300f et seq.).
37(f) Utilizing existing requirements under federal and state law
38to the extent possible, the methodology may include surface and
39subsurface characterization, monitoring, operational, reporting,
P11 1accounting, and verification requirements and conditions to ensure
2the accurate quantification of emissions.
3(g) In adopting the methodology, the state board shall, to the
4maximum extent feasible,
harmonize the adopted methodology
5with greenhouse gas storage or sequestration quantification
6methodologies used by other state, federal, or international
7greenhouse gas emissions reduction programs if it does not
8compromise the ability of the methodology to verify sequestration
9or accurately quantify emissions.
10(h) This section does not modify, limit, or supersede the
11operation of other laws applicable to carbon dioxide capture,
12transportation, or underground injection, or their application by
13the State Energy Resources Conservation and Development
14Commission, the Public Utilities Commission, the Division of Oil,
15Gas, and Geothermal Resources, or the California Environmental
16Protection Agency and its boards, offices, and departments.
17(i) In adopting the methodology, the state
board shallbegin delete considerend delete
18begin insert account for end insert the potential for direct, indirect, and cumulative
19emission impacts that may result from carbon capture and storage
20projects seeking to demonstrate geologicbegin delete sequestration.end delete
21begin insert sequestration, and provide direction to the local air quality
22management district or air pollution control district for the
23mitigation of those emissions, including, but not limited to, criteria
24air pollutants.end insert
Section 3239 is added to the Public Resources Code,
27to read:
(a) Upon the final adoption of a quantification
29methodology for carbon capture and storage projects seeking to
30demonstrate geologic sequestration of carbon greenhouse gases
31by the State Air Resources Board pursuant to Section 38572 of
32the Health and Safety Code, the division shall, under its regulatory
33authority to permit class II injection wells in the state pursuant to
34the authority delegated to the division pursuant to Section 1425
35of the federal Safe Drinking Water Act (42 U.S.C. Sec. 300h-4),
36and pursuant to Section 38572 of the Health and Safety Code,
37regulate the injection of carbon dioxide at an enhanced oil recovery
38project seeking to demonstrate simultaneous geologic sequestration
39of greenhouse gases pursuant to the
greenhouse gas emissions
40performance standard under Chapter 3 (commencing with Section
P12 18340) of Division 4.1 of the Public Utilities Code, under the
2mandatory reporting of greenhouse gas emissions pursuant to
3Article 2 (commencing with Section 95100) of Subchapter 10 of
4Chapter 1 of Division 3 of Titlebegin delete 7end deletebegin insert 17end insert of the California Code of
5Regulations, or for any regulation implementing a cap-and-trade
6program or other market-based compliance mechanism that may
7be adopted pursuant to the California Global Warming Solutions
8Act of 2006 (Division 25.5 (commencing with Section 38500) of
9the Health and Safety Code).
10(b) Pursuant to subdivision (a), the division and the
State Air
11Resources Board shall execute an agreement using a coordinated
12and comprehensive regulatory approach, including oversight and
13short-term and long-term monitoring requirements and verification,
14for geologic sequestration of greenhouse gases during and
15following enhanced oil recovery operations.
16(c) In developing the regulations pursuant to subdivision (a),
17the division shall consider, at a minimum,begin delete bothend deletebegin insert allend insert of the following:
18(1) Whether long-term successful geologic sequestration may
19require adherence to standards and methods exceeding existing
20enhanced oil recovery and underground injection control practices
21and
regulations.
22(2) Whether long-term successful geologic sequestration in
23California may require enhanced seismic monitoring in order to
24understand and assess the risk of induced seismicity.
25(2)
end delete
26begin insert(3)end insert Whether all hydrocarbon reservoirs, given the diversity of
27California’s geology, well treatment, and production practices,
28may not be suitable for long-term successful geologic sequestration.
29(d) This section
does not modify, limit, or supersede any other
30law applicable to carbon dioxide capture, transportation, or
31underground injection, or its application by the State Energy
32Resources Conservation and Development Commission, the Public
33Utilities Commission, the division, or the California Environmental
34Protection Agency, and its boards, offices, and departments.
This act is an urgency statute necessary for the
37immediate preservation of the public peace, health, or safety within
38the meaning of Article IV of the Constitution and shall go into
39immediate effect. The facts constituting the necessity are:
P13 1In order to facilitate the sequestration of greenhouse gases as
2quickly as possible, it is necessary that this act take effect
3immediately.
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