session 4: managing allowance price volatility different policy mechanisms and their emissions and...
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Session 4: Managing Allowance Price Volatility Different Policy Mechanisms and their Emissions and Price Impact
California Public Utilities Commission
Greenhouse Gas Cap & Trade Systems: Symposium on Flexible Compliance Mechanisms
San Francisco, CAApril 20, 2007
Derek K. MurrowDirector of Policy AnalysisEnvironment Northeast
CPUC - GHG Cap & Trade Systems - Session 4 - April 120, 2007
Environment Northeast
Who We Are: Environment Northeast is a nonprofit research and advocacy organization focusing on the Northeastern United States and Eastern Canada. Our mission is to address large-scale environmental challenges that threaten regional ecosystems, human health, or the management of significant natural resources. We use policy analysis, collaborative problem solving, and advocacy to advance the environmental and economic sustainability of the region.
Where We Are: Rockport, ME / Portland, ME Boston, MA / Providence, RI / Hartford, CT New Haven, CT
Primary Project Areas: energy & climate policy in New England and Eastern Canada
Cap & Trade Experience: one of 24 RGGI stakeholders, actively engaged in regional negotiation and program design as well as New England implementation
Development of Comprehensive Policy Recommendations: see Climate Change Roadmap for New England and Eastern Canada for recent policy work
CPUC - GHG Cap & Trade Systems - Session 4 - April 120, 2007
Background
ENE is NOT endorsing any of these price control mechanisms
We have experience thinking through options because of our participation in the development of RGGI
We would encourage CA to avoid the use of price control mechanisms
We do think it’s important to understand different mechanisms and their implications
CPUC - GHG Cap & Trade Systems - Session 4 - April 120, 2007
Outline:Managing Allowance Price Volatility
It is critical to define the goal for the policy before considering options – setting the price vs. limiting volatility
Carbon cap & trade vs. a carbon tax Many price control mechanisms have the potential to transform
the system into something like a carbon tax Carbon cap & trade: environmental certainty, price floats Carbon tax: price certainty, environmental outcome floats
Price and cap control mechanisms to discuss: offsets quantity limits, circuit breakers, accelerators, safety valve, and borrowing safety valve
Discussion of the level of a price control – setting the price vs. limiting extended periods of high price or excessive price spikes
CPUC - GHG Cap & Trade Systems - Session 4 - April 120, 2007
OffsetsLimits
Background: Offsets allow the regulated entity to purchase emissions reductions outside the regulated system and continue to emit – the offset quantity must be limited to ensure change within the regulated sector
Description: At a set price point, the state allows a larger percent of a facility’s compliance obligation to be met through offsets (this is the RGGI mechanism)
Environmental Implication: the total emissions (sector and offsets combined) will still achieve the cap but likely with more offsets and less change in the sector
Price Implication: Prices are not capped, but assuming a supply of lower cost offsets, additional offsets allowance supply should reduce costs
Comments: this mechanism is seen by some as okay from an environmental perspective but it creates tremendous uncertainty in the offsets market (level of demand) and may lead to less innovation in the electric or regulated sector
Offsets Limit TriggeredEmissions from the Sector Increase
CPUC - GHG Cap & Trade Systems - Session 4 - April 120, 2007
Circuit Breaker
Description: At a set price point, the state does not reduce the cap level but keeps the allocation of allowances fixed until prices come back down
Environmental Implication: the rate of cap decline can be delayed but emissions will not rise and the long term trajectory should return to a downward slope
Price Implication: Prices are not capped but if the event happens, the supply of allowances expected in the market increases
Comments: This mechanism ensures in the worst case that emissions are kept stable and likely will lead to achievement of the target but potentially at a later point in time (price point dependent)
Circuit Breaker Triggered
CPUC - GHG Cap & Trade Systems - Session 4 - April 120, 2007
Accelerator
Description: Below a price point, the state increases the rate of cap decline and issues less allowances until prices rise above the price point again (a floor price in an auction could also achieve this outcome)
Environmental Implication: the rate of cap decline can be accelerated if the cost of program turns out to be lower than anticipated
Price Implication: Prices are not capped but if the event happens, the supply of allowances in the market decreases and prices will likely rise
Comments: A mechanism like this that can compensate for conservative modeling and the kinds of innovation we have seen in other cap & trade programs that have led to lower costs than anticipated
Accelerator Triggered
CPUC - GHG Cap & Trade Systems - Session 4 - April 120, 2007
Safety Valve
A safety valve is also known as a firm price cap Description: At a set price point, the state sells allowances to regulated entities Environmental Implication: the cap can be inflated indefinitely, loosing the
environmental benefit Price Implication: Prices have an absolute cap (price point may rise over time) Comments: A safety valve or price cap can have the effect of transitioning the
program to a carbon tax-like system by setting the market price; an exception to this would be in the case of a very high price point (see subsequent discussion)
Safety Valve Triggered
Any trajectory is possible
CPUC - GHG Cap & Trade Systems - Session 4 - April 120, 2007
Borrowing Safety Valve
Description: At a set price point, the state sells allowances to regulated entities but deducts those allowances from the subsequent compliance period budget
Environmental Implication: the cap can be inflated indefinitely, loosing the environmental benefit, but IF prices come back down the emissions may end up close to the original cap level or back on the right trajectory
Price Implication: Prices have an absolute cap (price point may rise over time)
Comments: Another option would be to including a borrowing provision only in the first compliance period
Safety Valve Triggered
Any trajectory is possible
CPUC - GHG Cap & Trade Systems - Session 4 - April 120, 2007
Setting the Price Point:Low vs. High & Change Over Time
Price control mechanism should be based on average prices over a compliance period
Low Price Point - $7 to 20 per ton CO2 Will likely set the price for allowances and inflate the cap A bad precedent that would reduce the likelihood of achieving
environmental goals High Price Point - $100 to 500 per ton CO2
Much like in an energy market (ISO-NE at $1,000/MWh), a high price would be set to avoid runaway prices that could be due to speculation or a short-term market imbalance (end of compliance period)
A better precedent could assist with market stability Change in Price Over Time
We should be willing to pay more with time to address the problem Consider a phase out of any price controls The price point should rise significantly in every compliance period by a
set percent plus inflation
CPUC - GHG Cap & Trade Systems - Session 4 - April 120, 2007
Summary
Avoid manipulation of the market through price controls If price controls are considered, weigh the mechanism
carefully – they are very different Carefully consider any price point chosen and ensure it
rises significantly over time Let the program function as cap and trade program
rather than transforming it into a carbon tax
CPUC - GHG Cap & Trade Systems - Session 4 - April 120, 2007
Contact Information
Derek K. MurrowDirector of Policy Analysis
101 Whitney Ave.New Haven, CT 06510
(203) [email protected]
Environment NortheastRockport, ME / Portland, ME / Boston, MA
Providence, RI / Hartford, CT / New Haven, CTwww.env-ne.org