Two model images are presented that drive home the need, stated clearly in the reports, aggressively to reduce annual emission rates so that the total man-made GHG concentration in the atmosphere is kept as low as possible.
Connecticut is among many U. S. states developing policies to bring about emission reductions. Important laws are summarized; then it is urged to resurrect proposals of the 2021 legislative session that were not successfully enacted, and additional bills are proposed for consideration. As in the entire world, and in the absence of nationwide U.S. climate policies, Connecticut should act with ambition to pass substantive climate legislation to minimize further emissions.
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Introduction: We need to reduce greenhouse gas (GHG) emission rates (emissions per year) to near zero in the near future. The Intergovernmental Panel on Climate Change (IPCC) has issued six Assessment Reports (ARs) on the climate since 1990. From the First AR to the present these have urged emission rate reductions, where the emissions refer to excess GHGs, especially carbon dioxide (CO2), that arise from human activity.
In 2015 the nations of the U.N. reached consensus on the Paris Agreement, by which all 196 nations agreed to limit their emissions so as effectively to limit the increase in the global average temperature since before the industrial revolution to well below 2.0°C (3.6°F), preferably to 1.5°C (2.7°F).
The U.S. National Climate Assessments (NCAs)
appear every four years, a collaborative effort involving thirteen federal
agencies. The Fourth NCA
was released over 2017-2018. Its Executive Summary includes the following statements.
Global average temperatures have risen 1.8°F (1.0°C) over 1901-2016.
“With significant reductions in the emissions of [GHGs], the global
… temperature rise could be limited to 3.6°F (2°C) or less. Without major
reductions … the increase … relative to preindustrial times could reach 9°F (5°C)
or more by the end of this century.”
“Stabilizing global mean temperature to less than 3.6°F (2°C) above preindustrial levels requires substantial reductions in net global CO2 emissions prior to 2040 relative to present-day values and likely requires net emissions to become zero or possibly … [removal from the atmosphere] later in the century.” (Emphasis added).
The world’s policymakers have had ample time to deploy GHG reduction technologies in orderly fashion had they heeded climate scientists’ warnings beginning with the IPCC First AR (1990). These urgings have been ignored or rejected in the three decades since, with the result that the future weather and climate extremes that scientists had warned of at the outset have actually come to pass ferociously in recent years.
The IPCC released its Special Report on global warming of 1.5°C above pre-industrial levels in 2018. The goal of limiting warming to 2.0°C above pre-industrial levels, proposed in its earlier ARs, has been modified in the Special Report: the more stringent limit, 1.5°C, would lead to less severe weather and climate consequences. Clearly, extensive climate action has to be undertaken urgently from this time onward, to make up for the revised lower limit and the time lost to inaction in past decades.
The
nature of the climate crisis presently facing the world is illustrated in the
following two graphics. First, the IPCC
Special Report presents a modeled comparison of a rapid (teal lines) vs moderate (gray lines) reduction in the rate of emission of carbon
dioxide (CO2)
(amount emitted per year) (Panel b, below) and the accumulated total amount of
CO2 in
the atmosphere (Panel c) for the rapid (teal lines) vs moderate (gray lines) reductions.
Both panels give historical data for emissions of carbon dioxide from 1970 to 2020 and the hypothetical cases of moderate vs rapid reductions in rate of emission from 2020 to 2100. In panel b) the moderate reduction in emission rate (gray line) reaches zero emissions in 2055 while the rapid rate of reduction (teal line) reaches zero in 2040, a far more ambitious and intense effort. The area of the triangle represents the carbon dioxide emissions that are eliminated by adopting the rapid rate. Panel c) shows the effect of the rapid emission rate of panel b) on the accumulated total carbon dioxide, giving a lower total accumulation (teal line) for the rapid emission case. Source: IPCC, 2018: Summary for Policymakers. In: Global warming of 1.5°C. An IPCC Special Report on the impacts of global warming of 1.5°C above pre-industrial levels, V. Masson-Delmotte, and coworkers (eds.). World Meteorological Organization, Geneva, Switzerland. https://www.ipcc.ch/site/assets/uploads/sites/2/2018/07/SR15_SPM_High_Res.pdf
The lower amount of accumulated CO2 resulting from rapid emissions reductions (panel c)) translates to a lower global average temperature, such as 1.5°C, and an earlier attainment of that temperature plateau, than the moderate case.
Second, the faster that emission rates are reduced toward zero, the lower will be the total accumulation of GHGs in the atmosphere. The cartoon below of two cars traveling down the GHG highway captures this message.
Two cars travel down the GHG Highway at the same speed. Each mile traveled represents a certain increase in the total amount of accumulated GHGs. Each car applies brakes at the same point. On the red trip the brakes are applied gently (a metaphor for moderate GHG mitigation measures), so the car travels further before reaching a stop (a metaphor for ceasing further GHG emissions), leading to more GHG highway miles traveled (a metaphor for higher amounts of GHGs accumulating in the atmosphere). On the green trip the brakes are applied forcefully (a metaphor for intensive, aggressive mitigation measures), so the car travels only a short distance further down the highway before stopping. This leads to less GHG highway miles traveled (a metaphor for lower amounts of GHGs accumulating in the atmosphere). This yields a lower global average temperature.
Reducing GHG emissions to near zero. U.S. federal and international agencies have consistently stated the need for urgent, substantive and effective action to minimize the effects of man-made global warming/climate change. We must all act internationally, at the national level, at the state and provincial level, and locally; global warming originates across our planet and must be addressed by all nations and citizens of the world in concert.
Annual GHG emission rates have to be reduced to near zero within two decades, or at best by midcentury, to minimize more frequent and intense extreme weather and climate events. In the U.S. some recent administrations have sought mitigation policies in recent years, but most of these efforts have been rejected or successfully blocked in court. The current Biden administration is advancing its legislative and administrative objectives to decarbonize.
In the absence of effective federal policies, some states and even municipalities have established their own mitigation policies with specific goals. Examples include California, New Jersey and Washington, D.C., among others.
Connecticut’s global warming policies. Connecticut has enacted policies to promote decarbonization of its energy economy. Selections include
Public Act No. 08-98, AN ACT CONCERNING CONNECTICUT GLOBAL WARMING SOLUTIONS, which states in part that, by January 2020 GHG emissions had to be reduced by 10% below 1990 levels; as amended by Public Act No. 18-82, AN ACT CONCERNING CLIMATE CHANGE PLANNING AND RESILIENCY, by January 2030 emissions have to be reduced by 45% below 2001 levels; and by January 2050 they have to reduced by 80% below 2001 levels.
Public Act No. 18-50, AN ACT CONCERNING CONNECTICUT'S ENERGY FUTURE, in part, establishes an annual schedule for Connecticut’s electric companies that their electricity reach the target of at least 40% renewable energy by 2030. It also provided for new compensation choices for residential and business owners of solar energy sources.
Public Act No. 19-71, AN ACT CONCERNING
THE PROCUREMENT OF ENERGY DERIVED FROM OFFSHORE WIND, authorizes soliciting
proposals for up to 2000 MW of offshore wind generation sources by December 31,
2030.
Suggested Climate Legislation for the 2022 CGA Session. This post has stressed the importance of reducing GHG emissions aggressively and substantively. The list below gives a selection of relevant bills from the 2021 session that were not enacted, yet which would contribute significantly to decarbonizing Connecticut’s energy economy. They should be reintroduced and given urgent consideration for enactment in the 2022 session convening on February 9.
SB 884 AN ACT REDUCING TRANSPORTATION-RELATED
CARBON EMISSIONS. Joint Favorable
Report. This bill implements the
Transportation Climate Initiative.
HB 5641&
SB 135 AN ACT CONCERNING THE
ESTABLISHMENT OF HIGH-PERFORMANCE GREEN BUILDING STANDARDS FOR VOLUNTARY
ADOPTION BY MUNICIPALITIES. This
important proposed legislation would yield a stretch code that a municipality
may adopt. Its provisions presumably
would anticipate features that would become part of the Connecticut state
building code in future years.
SB 127 AN ACT CONCERNING THE SALE OF ELECTRIC VEHICLES IN THE STATE. Joint Favorable Report. This bill would promote energy efficiency in the transportation sector by expanding purchase options.
SB 725 AN ACT INCENTIVIZING THE USE OF ELECTRIC VEHICLES. This bill would promote energy efficiency in the transportation sector.
SB 882 AN ACT CONCERNING CLIMATE CHANGE MITIGATION AND HOME ENERGY AFFORDABILITY. Joint Favorable Report.
HB 5246 AN ACT RAISING THE RESIDENTIAL SOLAR
INVESTMENT PROGRAM CAP.
HB 5247 AN ACT ELIMINATING THE VIRTUAL NET METERING CAP.
HB 5619 AN
ACT CONCERNING THE TEACHING OF CLIMATE CHANGE INSTRUCTION IN PUBLIC SCHOOLS.
(Please see Science Magazine for a review of the report: “Miseducation: How
Climate Change is Taught in America”; Science
• 16 Dec 2021 • Vol 374, Issue 6574 • p. 1451 • DOI: 10.1126/science.abl9313)
HB 5640 AN ACT CONCERNING PREWIRING FOR SOLAR POWER AND ELECTRIC VEHICLE CHARGING STATIONS FOR ALL NEW RESIDENTIAL CONSTRUCTION.
Additionally, the following new legislative concepts are proposed.
Installations of solar photovoltaic (PV) arrays should be maximized on state properties, such as rooftops and highway rights of way. Agriculture in the state can be protected while still installing PV arrays with agrivoltaics.
State vehicle fleets should be rapidly replaced with electric or hydrogen fuel cell vehicles. The state should provide incentives to replace school buses with electric vehicles; the financial burden can be eased by leasing rather than purchasing. Heavy duty vehicles should likewise be replaced. Licensing for taxi and ride-hailing fleets should require vehicles be only electric.
Conclusion. Accelerating growth of man-made GHG emissions worldwide is leading to increasing physical and socio-economic harms and damages worldwide. It is critical to minimize further emissions starting right away. Connecticut can do its part in this effort by enacting aggressive legislation, both by resurrecting previous legislative proposals and enacting new concepts such as suggested here. The global climate hazard requires worldwide action, including ambitious action by Connecticut.
© 2021 Henry E. Auer
Agreed. Slowing down our emissions rapidly is the most desireable outcome. What the politics decides down the road, decides the temperature of the planet.
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