Pragmatic Environmentalist of New York

Climate Act DEFR Cost Estimate

My previous post summarized the presentation given by Zachary Smith from the New York Independent System Operator (NYISO) describing Dispatchable Emissions-Free Resources (DEFR). All credible projections for the generating resources needed for the zero emissions target in New York’s Climate Leadership & Community Protection Act (Climate Act) include this new category of generating resources called Dispatchable Emissions-Free Resources (DEFR). It is necessary to keep the lights on during periods of extended low wind and solar resource availability. This post uses the cost projections for recently awarded United Kingdom contracts for commercial scale green hydrogen production projects to estimate how much Climate Act DEFR might cost.

I have followed the Climate Act since it was first proposed, submitted comments on the Climate Act implementation plan, and have written over 380 articles about New York’s net-zero transition. The opinions expressed in this post do not reflect the position of any of my previous employers or any other organization I have been associated with, these comments are mine alone.

Overview

The Climate Act established a New York “Net Zero” target (85% reduction in GHG emissions and 15% offset of emissions) by 2050. It includes an interim 2030 reduction target of a 40% reduction by 2030 and a requirement that all electricity generated be “zero-emissions” by 2040. The Climate Action Council (CAC) is responsible for preparing the Scoping Plan that outlines how to “achieve the State’s bold clean energy and climate agenda.” In brief, that plan is to electrify everything possible using zero-emissions electricity. The Integration Analysis prepared by the New York State Energy Research and Development Authority (NYSERDA) and its consultants quantifies the impact of the electrification strategies. That material was used to develop the Draft Scoping Plan outline of strategies. After a year-long review, the Scoping Plan was finalized at the end of 2022. In 2023 the Scoping Plan recommendations were supposed to be implemented through regulation, PSC orders, and legislation. Not surprisingly, the aspirational schedule of the Climate Act has proven to be more difficult to implement than planned and many aspects of the transition are falling behind. DEFR is a particularly challenging problem. When political fantasies meet reality, reality always wins.

New York Net-Zero Transition DEFR

The presentation given by Zachary Smith summarized in my recent post gave an overview of the DEFR issue. I am not going to repeat the descriptive information again. For the purposes of this article, the Integration Analysis identified the need for a generating resource that could be dispatched as needed and did not have any emissions. The placeholder technology listed in the Integration Analysis was green hydrogen. The following table lists the projected capacity for DEFR in the NYISO the 2021-2040 System & Resource Outlook and the Integration Analysis. Note that the Resource Outlook projecta that 44,750 MW of DEFR will be needed by 2040, that the Integration Analysis Strategic Use of Low-Carbon Fuels scenario projects 17,992 MW by 2040, and that in 2019 the fossil fuel generation in the state was 26,262 MW.

The energy production projected for DEFR from the NYISO Resource Outlook and the Integration Analysis are shown in the following table. The largest difference between the two projections is that NYISO projects that DEFR will generate ten times more energy. It turns out that NYISO has DEFR generating 14% of the total energy in 2040 but Integration Analysis projects only 1%. I am very disappointed that the Hochul Administration has not reconciled the two projections.

Green Hydrogen Production

Proponents of zero emissions energy sources tout the use of “green” hydrogen. This is hydrogen that is produced using renewable energy rather than other fossil fuels or other sources. It is recognized that over-building wind and solar is a necessary part of an electric system that relies on these intermittent sources of power. One of the purported benefits of green hydrogen is that when the wind and solar availability is higher than the system load instead of curtailing excess wind and solar power that it could be used to power electrolyzers to create hydrogen. That is the theory, but the reality is that no one is producing hydrogen at commercial-scale yet.

Paul Homewood writing at the Not a Lot of People Know That blog described the recent announcement that the United Kingdom’s Department of Energy Security & Net Zero awarded contracts for green hydrogen projects. The announcement states:

Following the launch of the first hydrogen allocation round (HAR1) in July 2022, we have selected the successful projects to be offered contracts. We are pleased to announce 11 successful projects, totaling 125MW capacity.

HAR1 puts the UK in a leading position internationally: this represents the largest number of commercial scale green hydrogen production projects announced at once anywhere in Europe. This round will provide over £2 billion of revenue support from the Hydrogen Production Business Model, which will start to be paid once projects become operational. Over £90 million from the Net Zero Hydrogen Fund has been allocated to support the construction of these projects.

We have conducted a robust allocation process to ensure only deliverable projects that represent value for money are awarded contracts. The 11 projects have been agreed at a weighted average [footnote 1] strike price of £241/MWh (£175/MWh in 2012 prices). This compares well to the strike prices of other nascent technologies such as floating offshore wind and tidal stream.

The thing that caught my eye in Homewood’s article was that there were cost numbers: “The 11 projects have been agreed at a weighted average strike price of £241/MWh”. In renewable energy contracts the government agrees to a “strike price” per megawatt-hour that the renewable energy developer will receive for its delivery of electric energy produced by the renewable energy source. In this case electric energy from the green hydrogen source. The previous table lists the DEFR electric energy expected so as a first cut estimate I simply multiplied the expected MWh by the strike price. The following table shows that green hydrogen production could cost between $10.4 billion and $1.1 billion per year by 2040. This is the annual cost and does not include any construction subsidies.

Discussion

This just represents the start of the costs for the green hydrogen DEFR support. Making it is just part of the process. It has to be stored, transported to where it will be used, and, if the zealots on the Climate Action Council have their way, used in fuel cells. Each of those components adds costs. Homewood points out two other issues:

What is interesting is that the strike prices will be tied to changes in the market price of gas: “The subsidy will vary relative to changes in the reference (natural gas) price”.

The schemes all appear to be electrolyzers, and they all claim that only renewable electricity will be used, an absurd assumption! None of them say what they will do when there is not enough wind and solar power to meet demand – will they idle their plants, or will they carry on as usual taking whatever power the grid can supply?

That is not all. One of the things I have wondered about is process efficiency. When making anything the most efficient thing to do is to get the process up and running efficiently and just let it go. Depending on variable wind and solar makes that a challenge. Is New York’s plan going to include its own energy storage to make the process work well? I see no realistic scenario where this will work.

Conclusion

The Climate Action Council did not fully acknowledge the necessity or the challenge of the DEFR technology. The Department of Public Service Proceeding 15-E-0302 is intended to “identify technologies that can close the gap between the capabilities of existing renewable energy technologies and future system reliability needs, and more broadly identify the actions needed to pursue attainment of the Zero Emission by 2040 Target” directly contradicts the Council’s position. This post suggests that the placeholder DEFR option of green hydrogen could adversely affect affordability even if viable DEFR technologies can be identified.

NYISO DEFR Summary

As part of the Department of Public Service Proceeding 15-E-0302 a technical conference was held on December 11 and 12, 2023 entitled Zero Emissions by 2040. A zero-emissions electric system is a key part of New York’s Climate Leadership & Community Protection Act (Climate Act) and all credible projections for the generating resources needed for the zero emissions Climate Act target have noted that a new category of generating resources called Dispatchable Emissions-Free Resources (DEFR) is necessary to keep the lights on during periods of extended low wind and solar resource availability. This post summarizes the presentation given by Zachary Smith from the New York Independent System Operator (NYISO) describing DEFR.

Overview

Presentation

The presentation given by Zachary Smith gave an overview of the DEFR issue. In his first slide (shown below) he gave an overview of the generating resource outlook to make the point that a large amount of new generating resources needs to be developed. I believe that the estimates are from the 2021-2040 System & Resource Outlook. For context I have included a table that lists the capacity for the different resources for one of the Resource Outlook scenarios and one of the scenarios from the Integration Analysis. Of particular note, both projections estimate that DEFR capacity (MW) will be similar to the amount of current fossil capacity.

The ultimate problem for reliability in an electric system that depends on wind and solar is illustrated in the following slide from Smith’s presentation. It highlights a 7-day wind lull when the average wind capacity is 25%. The sum of the grey area under the curve during that period is the amount of energy (MWh) that must be provided by DEFR sources based on an analysis of historical weather data. If there are insufficient resources during a wind lull, then load cannot be met. The consequences of that situation would be catastrophic.

In order to meet this need for dispatchable resources Smith explained that dispatchable emission-free resources (DEFRs) must be developed and deployed throughout New York:

As resources shift from fossil generators to zero emission resources, essential grid services, such as operating reserves, ramping, regulation, voltage support, and black start, must be available to provide New Yorkers with a reliable and predictable electric system that consumers require.
DEFRs will be required to provide both energy and capacity over long durations, as well as the reliability attributes of retiring synchronous generation. The attributes do not need to be encapsulated in a singular technology, but in aggregate the system needs a sufficient collection of these services to be reliable.

The NYISO must toe the political correctness line so Smith downplays the enormity of the challenge to bring DEFR on-line in the timeframe necessary to meet the arbitrary Climate Act schedule. Smith lists the attributes needed by DEFR in his presentation. In the following I offer my comments on his list of attributes.

Smith’s first attribute for DEFR is that it must have “dependable fuel sources that are carbon free and allow these resources to be brought online when required”. Clearly intermittent wind and solar do not meet this fundamental requirement.

The second DEFR attribute is that it must be “non-energy limited and capable of providing energy for multiple hours and days regardless of weather, storage, or fuel constraints”. This is a particular concern of mine. Wind and solar resources correlate in time and space. In other words, when the wind is light at one wind farm in New York it is very likely that all the wind turbines are experiencing light winds. The seven-day wind lull example in the dispatchable resources needed figure illustrates the problem. If there are insufficient resources during that wind lull, then load cannot be met. My concern is that I think we do not know what the worst case low renewable resource availability period is. Until there has been more analysis done then I believe that the New York electric grid is risking catastrophe.

The NYISO operators balance generation with load constantly. Smith describes several attributes necessary for this requirement. DEFR must be able to “to follow instructions to increase or decrease output on a minute-to-minute basis”. There has to be “flexibility to be dispatched through a wide operating range with a low minimum output”. Finally, DEFR must be “fast ramping to inject or reduce the energy based on changes to net load which may be driven by changes to load or intermittent generation output”.

In addition to the attributes needed when units are operating, there are startup attributes. DEFR must be “quick-start to come online within 15 minutes” and capable of “multiple starts so resources can be brought online or switched off multiple times through the day as required based on changes to the generation profile and load”. Smith explains that a range or DEFR generation will likely be required so not every DEFR has to be capable of every attribute for matching load but sufficient amounts for the system requirement will be needed.

In addition to the generating requirements that cannot be supplied by wind and solar there are ancillary support services for the transmission system. Smith describes three transmission support DEFR attributes:

Inertial Response and frequency control to maintain power system stability and arrest frequency decline post-fault;
Dynamic Reactive Control to support grid voltage; and
High Short Circuit Current contribution to ensure appropriate fault detection and clearance.

Smith’s presentation lists the attributes of twelve sample technologies in the following slide. When I started working for Niagara Mohawk in 1981 utilities were responsible for providing the generation for load in their service territories. They were proud of the diversity of their generation fleet that included coal-, gas- and oil-fired fossil, hydro, pumped storage, and nuclear. The generation all had a dependable fuel source and only the pumped hydro was energy limited but that was not an issue because it was used so shave diurnal peak loads. Only nuclear was not dispatchable but that did not matter because it was used for unvarying base load. There were resources in each system to provide all the other reliability attributes. Demand response was used sparingly but was included.

Attributes of Sample DEFR Technologies

In the future grid the insistence that all fossil fired units have to be shut down means that seven technologies that meet some of the necessary attributes will be required. The added complexity of these technologies does not increase resiliency because wind, solar, battery and demand response are all energy limited. Ancillary support services will be a major consideration because wind, solar and battery do not provide those services. Just from this overview, it is clear that affordability and reliability will be challenges.

Conclusion

Smith’s presentation is an excellent overview of need, attributes, and some potential resources that meet the need for dispatchable emissions-free generation. Any suggestion that some combination of these resources are not needed is simply wrong. Unsaid is the relative difficulty trying to develop these resources to meet the Climate Act net-zero transition schedule.

Implicit Renewable Energy Subsidies

There are two fundamental drivers for New York’s Climate Leadership & Community Protection Act (Climate Act – the presumption that there is an existential threat from climate change and that the transition away from greenhouse gas (GHG) emitting energy sources requires no new technology and will be cheaper because the wind and sun energy is free. I disagree with both positions. This article addresses the cost fallacy based on a new analysis at the Cato Institute.

Overview

The Climate Act established a New York “Net Zero” target (85% reduction in GHG emissions and 15% offset of emissions) by 2050. It includes an interim 2030 reduction target of a 40% reduction by 2030 and a requirement that all electricity generated be “zero-emissions” by 2040. The Climate Action Council (CAC) is responsible for preparing the Scoping Plan that outlines how to “achieve the State’s bold clean energy and climate agenda.” In brief, that plan is to electrify everything possible using zero-emissions electricity. The Integration Analysis prepared by the New York State Energy Research and Development Authority (NYSERDA) and its consultants quantifies the impact of the electrification strategies. That material was used to develop the Draft Scoping Plan outline of strategies. After a year-long review, the Scoping Plan was finalized at the end of 2022. In 2023 the Scoping Plan recommendations were supposed to be implemented through regulation, PSC orders, and legislation. Not surprisingly, the aspirational schedule of the Climate Act has proven to be more difficult to implement than planned and many aspects of the transition are falling behind. When political fantasies meet reality, reality always wins.

Cato Report

Travis Fisher described the high cost of offshore wind policy. He argues that eventually political support for offshore wind will have to confront the costs: “Recent polling suggests that just 38 percent of Americans are willing to increase their energy costs by $1 per month to address climate change.” He goes on to show that offshore wind will cost much more.

He makes a compelling case that “offshore wind mandates are bad public policy because they simply cost too much and would not be economically viable without taxpayer support”. He also points out that there are significant environmental impacts. He explained that the political targets are coming to grips with these issues:

In contrast to the ease and simplicity of issuing aspirational offshore wind plans, policymakers are now confronting the reality that offshore wind faces many obstacles. The second half of 2023 brought story after story of canceled or renegotiated contracts for offshore wind. BP and Equinor canceled their contract with the state of New York; Ørsted canceled two large projects in New Jersey; and developers in Massachusetts canceled four projects totaling 2,400 MW of offshore wind.

Unfortunately, the politicians have not adjusted their policies:

With such high electricity prices, one might expect political leaders to attempt to reduce the burden of the energy costs their constituents pay. Instead, policymakers in these states have insisted on mandating offshore wind, which will invariably increase electricity rates and impose a higher federal spending and tax burden on the country. There are several ways of looking at the cost of electricity from specific resources, such as wind off the East Coast of the United States. Unfortunately, offshore wind is expensive by every measure.

The reason for this post is Fisher’s explanation of different ways of looking at the cost of electricity.

One way to subsidize offshore wind is through Power Purchase Agreements (PPAs) and Levelized Revenue of Energy (LROE). Fisher explains:

PPA prices are a generous way to examine the cost of offshore wind. They are the price paid by the offtakers of the energy from offshore wind projects—PPAs do not explicitly show the full cost paid by retail electricity consumers and taxpayers. These contract prices are usually expressed in wholesale units of dollars per megawatt‐hour ($/MWh).

As one example, the Vineyard Wind project off the coast of Massachusetts has a levelized PPA price of about $98/MWh (escalating from a lower base price to a higher final price at the end of a twenty‐year contract). As the National Renewable Energy Laboratory explained in 2019:

“This LROE estimate for the first commercial‐scale offshore wind project in the United States appears to be within the range of LROE estimated for offshore wind projects recently tendered in Northern Europe with a start of commercial operation by the early 2020s. This suggests that the expected cost and risk premium for the initial set of US offshore wind projects might be less pronounced than anticipated by many industry observers and analysts.”

Other operational projects, like the South Fork project in New York, don’t advertise the PPA price but have stated that “the power from South Fork Wind … will cost the average ratepayer between $1.39 and $1.54 per month when it starts operating.” (Recall that fewer than 40 percent of Americans are willing to spend $1 monthly to address climate change.)

In short, PPA prices tend to put the cost of offshore wind projects in the best light.

The State of New York has not admitted that even these best-case costs “do not compare well to clearing prices in wholesale markets”. Comparison to current prices shows that the PPA costs are much higher.

The second way to look at the cost of electricity is through the Levelized Cost of Energy (LCOE). Fisher describes the parameter:

LCOE is a common measure of the cost of electricity from a given class of resources. LCOE boils down construction and operating costs into a single cost estimate (in dollars), divided by the energy output of the plant over its lifetime (in watt‐hours). Hence the familiar unit of dollars per megawatt‐hour. LCOE is a straightforward way to get a sense of the levelized (or averaged‐out) cost of a standalone power plant.

According to recent LCOE estimates from EIA, the unsubsidized cost of offshore wind exceeds $120/MWh and is among the most expensive generation resources. The consulting firm Lazard also publishes LCOE estimates that have become common reference points. In the latest Lazard research, the LCOE for offshore wind ranged between $72/MWh and $140/MWh.

Fisher notes that if the LCOE parameter is used then “offshore wind compares favorably to the highest‐cost natural gas generators ($115–221/MWh) but not to the lowest‐cost renewables ($24–75/MWh for onshore wind and $24–96/MWh for utility‐scale solar photovoltaics [PV]).” However, this parameter only considers the cost of the generating capacity.

Fisher explains that the there is a third way to look at the cost of electricity: the Full Cost of Electricity (FCOE) and Levelized Full System Cost of Electricity (LFSCOE). He notes that:

Recently, scholars have expanded the LCOE model to include spillover costs that are borne by other generators on the system. To remedy the analytical shortcomings of LCOE, the FCOE approach zooms out and considers the all‐in cost of the entire electricity system. This is the appropriate measure to use when judging society‐wide costs because the full system costs are ultimately borne by retail ratepayers (and by taxpayers when subsidies are involved, as they are today).

The most important element of FCOE that is missing from LCOE is the cost to the rest of the system of intermittent output. Intermittent or “non‐dispatchable” generation always requires backup and balancing help from controllable or “dispatchable” resources to satisfy total electricity demand; however, the cost of making other resources fluctuate their output to accommodate intermittent generation—by backing down in times of high intermittent production and ramping up in times of low intermittent production—is not captured in LCOE estimates.

A group of authors who favor using the FCOE of solar PV and onshore wind said, “LCOE is inadequate to compare intermittent forms of energy generation with dispatchable ones and when making decisions at a country or society level.”

Fisher quotes a description of the (LFSCOE):

The LFSCOE are defined as the costs of providing electricity by a given generation technology, assuming that a particular market has to be supplied solely by this source of electricity plus storage. Methodologically, the LFSCOE for intermittent or baseload technologies are the opposite extreme of the LCOE. While the latter implicitly assume that a respective source has no obligation to balance the market and meet the demand (and thus demand patterns and intermittency can be ignored), LFSCOE assume that this source has maximal balancing and supply obligations.

For our purposes what does that mean for costs? Fisher explains

Under the LFSCOE assumptions, the cost of onshore wind in Texas is approximately seven times higher than its LCOE (an LFSCOE of $291/MWh compared to an LCOE of $40/MWh). The details of applying an LFSCOE to offshore wind would only be slightly different from applying it to onshore wind. Specifically, offshore wind has a slightly higher capacity factor than onshore wind (about 43 percent versus 34 percent in 2018, according to the International Renewable Energy Agency’s 2019 “Future of Wind” report). However, offshore wind is still an intermittent resource, meaning its LFSCOE is higher than its LCOE.

Conclusion

While the focus of this analysis was on offshore wind the differences between the three ways of looking at electricity costs is applicable to onshore wind and solar too. The FCOE and LFSCOE methods of calculating electricity costs are much better approaches for estimating the total costs. When using those parameters the costs of renewables are much more expensive than current electricity prices. In addition, those parameters do not incorporate the cost of the dispatchable emission-free resource that credible New York analyses project are necessary for an electric system that eliminates fossil-fired generation.

Proponents of the net-zero transition disparage fossil fuel subsidies but the explicit and implicit subsidies for wind and solar far exceed them. The Levelized Full System Costs of Electricity calculates the implicit subsidies necessary to integrate wind and solar into the electric system. Fisher concludes:

Policymakers need to understand the full costs of their actions and come back to the shore. The American people simply don’t want to pay more for energy—not in their electricity bills and not in their tax bills.

Articles of Note January 7, 2024

Sometimes I just don’t have time to put together an article about specific posts I have read about the net-zero transition and climate change that I think are relevant. This is a summary of posts that I think would be of interest to my readers.

I have been following the Climate Leadership & Community Protection Act (Climate Act) since it was first proposed and most of the articles described are related to it. I have devoted a lot of time to the Climate Act because I believe the ambitions for a zero-emissions economy embodied in the Climate Act outstrip available renewable technology such that the net-zero transition will do more harm than good. The opinions expressed in this article do not reflect the position of any of my previous employers or any other company I have been associated with, these comments are mine alone.

New Year’s Prediction

I predict the following definition of unexpectedly will be used to describe a spike in the cost of energy prices in New York. Unexpectedly: adv. Frequently used by people who don’t know what they are doing, to describe unpleasant events or situations they have created.

Spain Renewables

An article at the Institute for Energy Research titled “Spain Increases its Renewable Share but Soon May Need to Replace its Windmills” highlights the aggressive renewable energy transition for Spain. Their plan has aggressive plans to implement wind and solar, includes manufacturing for almost the entire supply chain for wind turbines, and has a “green” hydrogen goal. Some noteworthy takeaways:

“Spain’s new government goal to double wind capacity means it would need to almost triple wind installations from current annual rates.? At the same time, “over one third of the existing turbines must be replace within five years.” In my opinion, the goal is unlikely.

“The wind industry in Europe, including Spain, is facing billion-euro losses, mainly due to competition from China, which has been developing its clean energy resources for decades and offers lower prices due to cheap coal power and government subsidization.” New York renewable manufacturing cannot escape the same competition problem.

The draft climate strategy sets a 2030 target of 11 gigawatts for electrolyzers, which would be used to make green hydrogen, up from 4 gigawatts. I would like to find a place where I could bet that will never happen.

Francis Menton and I both have wondered which jurisdiction’s net-zero transition plan will implode first. Based on this article, I would say Spain is coming up fast to the leaders.

Wind turbine threats to birds and bats

A company in Australia uses dogs to count the victims of wind turbines in southern Australia.

The numbers are troubling. Each turbine yields four to six bird carcasses per year, part of an overall death toll from wind turbines that likely tops 10,000 annually for the whole of Australia (not including carcasses carried away by scavengers). Such deaths are in the hundreds of thousands in North America. Far worse are the numbers of dead bats: The dogs find between six and 20 of these per turbine annually, with tens of thousands believed to die each year in Australia. In North America, the number is close to a million.

It is interesting that “Ecologists have noticed that small bat species in particular are most likely to get struck by the blades when wind speeds are relatively low, around 4.5 to 11 miles per hour.” This means that the impacts to bats could be reduced by reducing operations during light winds when bats are present. Because they hibernate the turbines would still be available during those periods in the winter and in the summer the days are shorter so most of the time the turbines could be operating. I have not heard anyone suggest this commonsense mitigation technique or any other one in New York.

An Egregious Failure of Scientific Integrity

Roger Pielke Jr. notes that NOAA’s “billion dollar disasters” report this week:

On Tuesday, the U.S. National Oceanic and Atmospheric Administration (NOAA) will release with great fanfare the year-end update of its “billion dollar disaster” tally. If past is prologue, NOAA will vigorously promote the dataset in collaboration with environmental NGOs, reporters on the climate beat will uncritically parrot and amplify NOAA’s claims, and before long, the dataset will find itself cited in the peer-reviewed literature, identified by the U.S. government as a key indicator of human-caused climate change, and perhaps even cited by the U.S. president in support of the claim that all U.S. disaster costs are attributable to climate change.

In his post he shares a new preprint of a paper that he submitted to the new Nature journal, npj Natural Hazards. My paper, which was invited by the journal’s editors, is titled, Scientific Integrity and U.S. “Billion Dollar Disasters.” Pielke is not impressed with the disasters data set:

The NOAA billion dollar disaster dataset comprehensively falls short of NOAA’s guidelines for scientific integrity. The shortfalls documented here are neither small nor subtle. They represent a significant departure from NOAA’s long-term history of scientific integrity and excellence, which has saved countless lives and facilitated the nation’s economy. A course correction is in order.

He concludes that despite all the problems, it will eventually get sorted out because “science and policy are both self-correcting”. I do not disagree that the absurdity of the “existential threat of climate change that we are seeing before our eyes” narrative will ultimately fall apart. The question is whether it will fall apart before we go so far down the road of a disastrous energy policy that people freeze to death in the dark.

Press Release – Empire Wind 2 Offshore Wind Project Reset

Empire Wind is being developed through a 50-50 joint venture between Equinor and bp. Empire Wind 1 and 2, have a potential capacity of more than 2 GW (816 + 1,260 MW). However, the developers announced on January 3 that they were going to terminate the Offshore Wind Renewable Energy Certificate (OREC) Agreement for the Empire Wind 2 project.

This agreement reflects changed economic circumstances on an industry-wide scale and repositions an already mature project to continue development in anticipation of new offtake opportunities. The decision recognizes commercial conditions driven by inflation, interest rates and supply chain disruptions that prevented Empire Wind 2’s existing OREC agreement from being viable.

Equinor and bp believe offshore wind can be an important part of the energy mix and are committed to maintaining substantial contributions to the state and local economy.

“Commercial viability is fundamental for ambitious projects of this size and scale. The Empire Wind 2 decision provides the opportunity to reset and develop a stronger and more robust project going forward,” said Molly Morris, president of Equinor Renewables Americas. “We will continue to closely engage our many community partners across the state. As evidenced by the progress at the South Brooklyn Marine Terminal, our offshore wind activity is ready to generate union jobs and significant economic activity in New York.”

Long story short, they saw an opportunity to get more money from New Yorkers and leapt at the chance. Now the question is whether the Hochul Administration’s will reassess the cost impacts to New Yorkers. Sorry, I had a memory lapse – they have never provided consumer cost estimates so why would they start now.

Someday Scrooge Will Say No

Richard Ellenbogen recently sent an email to his distribution that highlighted an inevitable problem with New York State’s net-zero mandate of the Climate Leadership and Community Protection Act (Climate Act). The plan is to electrify everything possible using renewable energy. That brings up the problem that the local electric distribution system is not up to the task so it is likely that electric use could be limited at times in New York’s future.

Ellenbogen is the President [BIO] Allied Converters and frequently copies me on emails that address various issues associated with the Climate Act. I have published other articles by Ellenbogen and a description of his keynote address to the Business Council of New York 2023 Renewable Energy Conference Energy titled: “Energy on Demand as the Life Blood of Business and Entrepreneurship in the State -video here: Why NY State Must Rethink Its Energy Plan and Ten Suggestions to Help Fix the Problems.” I recently described his presentation on New York’s Energy Transition that is a detailed explanation why the State’s quest for zero emissions electricity generated by wind and solar is doomed to failure.

There are only a few people in New York that are trying to educate people about the risks of the Climate Act with as much passion as I am but Richard certainly fits that description. He comes at the problem as an engineer who truly cares about the environment and how best to improve the environment without unintended consequences. He has spent an enormous amount of time honing his presentation summarizing the problems he sees but most of all the environmental performance record of his business shows that he is walking the walk.

Climate Act Overview

The Climate Act established a New York “Net Zero” target (85% reduction and 15% offset of emissions) by 2050. It includes an interim 2030 reduction target of a 40% reduction by 2030 and a requirement that all electricity generated be “zero-emissions” by 2040. The Climate Action Council (CAC) is responsible for preparing the Scoping Plan that outlines how to “achieve the State’s bold clean energy and climate agenda.” In brief, that plan is to electrify everything possible using zero-emissions electricity. The Integration Analysis prepared by the New York State Energy Research and Development Authority (NYSERDA) and its consultants quantifies the impact of the electrification strategies. That material was used to develop the Draft Scoping Plan. After a year-long review, the Scoping Plan recommendations were finalized at the end of 2022. In 2023 the Scoping Plan recommendations were supposed to be implemented through regulation and legislation. Ellenbogen’s discussion describes one of the issues that was not addressed in 2023.

Record Christmas Lights

Ellenbogen described a home in Union Vale, NY where the residents set the world record for most lights in a residential Christmas display with 720,420 lights in the display. He provided links describing the the record lights from the New York Times:

I cannot get around the Times paywall so I could not see those articles but found a relevant story at Good Morning America that includes a video.

Ellenbogen writes:

Independent of any issues raised in the article, the following comment by a neighbor stands out.

Bernadette and William Burke, who love to watch the show from their hot tub, but for years could not use their washing machine or dishwasher while the lights were on. Mr. Gay said the problem was resolved when the electric company put the Gay house on its own transformer.

He estimated the power requirements:

Below is a table of power consumption of various Christmas bulbs. Using a back-of-the-napkin calculation, the display probably draws about 75 – 100 KVA. Most utility transformers in residential areas are sized between 70 KVA and 150 KVA. Below are photos from a NYSERDA report that I wrote in 2010 for the reactive power project I did for them. Note that a transformer used to support five buildings in a Garden Apartment complex had a capacity of 150 KVA and a transformer for two buildings had a capacity of 75 KVA. Both of these transformers operated near their capacity on a hot summer day and would far exceed that capacity with widespread installation of heat pumps.

Ellenbogen compared the power consumption of the display to heat pumps and car charging that are components of the Scoping Plan outline of control strategies to meet the Climate Act mandates:

The three heat pumps in my home will draw about 22 KW at peak load for 250,000 BTU of heat transfer in heating mode (1000 watts per ton COP=3.52 ). The power draw in cooling mode is about 60 % of that (600 watts per ton COP=5.86 ). We also have gas furnaces with an output of 400,000 BTU that will operate on extremely cold days or will operate if there is an issue with the heat pumps.

My car charges at a peak load of 14,000 watts. I have seen loads of 38,000 watts on the power monitor at my house when I am charging the car during the winter. When I built my house, I had a 400 amp 3phase service installed. It can deliver 144 KVA ( 144,000 watts) at peak load and the transformer across the street is 150 KVA. Most newer homes might have a 200 amp single phase service (40 KVA) and older homes will have a 100 amp or 150 amp service (20 – 30 KVA).

Discussion

Ellenbogen argues that the fact that a neighbor was impacted by a large load by a neighbor has ramifications when everyone has to increase their electrical requirements:

The point is that if the utility system can’t support a Christmas display, even a large one, and allow the neighbors to wash their clothes at the same time, how is it going to support the massive load of heat pumps and vehicle charging that is being mandated. That combination will far exceed the demand of a Christmas light display. As I have mentioned previously, every transformer in the state is going to have to be replaced or have their service upgraded as occurred at the home in the article. The problem is that there is an acute transformer shortage along with a shortage of electricians and utilities are worried about having a sufficient number of transformers to recover after a bad storm, let alone having enough to rebuild the entire system.

Also note that the GMA piece on the record light display mentioned that the owners claim that their electric bill is only $300. New York utilities are installing smart meters that will eventually enable them to charge customers different rates at different times of the day. The idea is that they will increase rates to incentivize customers to reduce use during peak load periods. In the all-electric future the peak load will be in the early evening when homeowners get home from work and turn on appliances. I would not be surprised at all if the costs for the massive display might increase so much that they would be unable to afford the costs even with LED lights.

Although the utilities claim that customers will not lose control of their electric use, I suspect that is also inevitable because of the scale of the problem. As a result, someday Scrooge will say no you cannot have a record light show.

Conclusion

Ellenbogen said he was going to send a magic wand to the Public Service Commission to help them with the Climate Act transition because they are going to need all the help that they can get. I agree with his conclusion: “Since math and science have been thrown out the window in New York State, we might as well turn to the occult.”

New Year’s Resolution – Methane Response

Happy New Year!

I wrote an article for Watts Up With That that described my New Year’s resolution: I resolve that when I hear anyone say that methane is more potent than carbon dioxide because the radiative forcing produced is greater, I will say that is only true in the laboratory on a dry molecular basis. In the atmosphere, where it counts, methane is not nearly as potent. I had hoped to get feedback and recommendations and I was not disappointed. This post provides the rationale for my resolution.

I have followed the Climate Leadership and Community Protection Act (Climate Act) since it was first proposed, submitted comments on the Climate Act implementation plan, and have written over 380 articles about New York’s net-zero transition. The opinions expressed in this post do not reflect the position of any of my previous employers or any other organization I have been associated with, these comments are mine alone.

Rationale

I have heard the methane scare story everywhere but my primary concern is New York. As part of New York’s Climate Act methane is irrationally disparaged as part of the war on natural gas. The rationale used always revolves around the potency of methane relative to CO2. I believe that the preponderance of information shows that the argument is incorrect. I have developed a page that consolidates reasons why methane should not be vilified and updated it based on comments made. The following summarizes my rationale.

Clyde Spencer explained that changes to radiation effects occur on a molecule-by-molecule basis in the atmosphere in an article titled The Misguided Crusade to Reduce Anthropogenic Methane Emissions. The Climate Act tracks emissions by weight. In the atmosphere CO2 is more than two orders of magnitude more abundant than CH4 on a molecular basis. The Climate Act uses the global warming potential that estimates the mid-range, long-term warming potential of CH4 is 32 times that of CO2. However, that equivalence is for equal weights of the two gases! Using a molecular basis (parts per million-volume mole-fraction) to account for the lighter CH4 molecule reveals that the annual contribution to warming is a fraction of that claimed for CO2. Methane emissions on a molecular basis are increasing at a rate of 0.58% of CO2 increases. Therefore, changes in methane emissions have insignificant effects.

Several commenters pointed out that that methane and water vapor affect the same area of the spectrum of outgoing radiation thus reducing the effect of any changes in methane concentrations. .Rud Istvan explained that:

Methane is a potent GHG in the lab because the lab uses a standard dry atmosphere. I”n the real world methane’s two main infrared absorption bands (at about 3.5 and 8 microns) are completely overlapped by two of the several broader and much stronger water vapor absorption bands, specifically those from about 2.5-4 and 6-9 microns. In a world averaging about 2% specific humidity, any methane effect is literally swamped by water vapor effect.

Cyan quantified the effect of the spectral overlap “Water vapor reduces the potency of methane by about 82 percent at 80%RH. At 46% RH (from the US Standard Atmosphere) the reduction is less, at 75%.”

Andy May’s excellent summarization of Wijngaarden and Happer’s important paper “Dependence of Earth’s Thermal Radiation on Five Most Abundant Greenhouse Gases” takes a slightly different approach. He explains that the greenhouse effect of methane is not only related to the effect on longwave radiation itself but also the concentration in the atmosphere. Because the atmospheric concentration of methane is so small doubling concentrations change the “outgoing forcing by less than one percent”. In other words, doubling emissions or cutting emissions in half of methane will have no measurable effect on global warming itself. A comment by “It does not add up” pointed out that Wijngaarden and Happer also produced a separate paper concentrating specifically on methane.

Ralph B. Alexander describes another molecular consideration ignored in the Climate Act. Each greenhouse gas affects outgoing radiation differently across the bell-shaped radiation spectrum One of the reasons that CO2 is considered the most important greenhouse gas is that its effect coincides with the peak of the bell shape. On the other hand, the effect of CH4 is down in the tail of the bell shape. As a result, the potential effect of CH4 is on the order of only 20% of the effect of CO2.

The residence time of the two gases is different. Methane only has a lifetime of about 10-12 years in the atmosphere. The “consensus” science claim is that 80% of the anthropogenic CO2 emissions are removed within 300 years. (Note however that there are other estimates of much shorter residence times.) This means that CO2 is accumulating in the atmosphere. CH4 is converted to CO2 and is then counted in the monthly CO2 measurements as part of the CO2 flux. Because methane does not accumulate the same way as CO2 it should be handled differently. However, the Climate Act doubles down. Climate Act authors claimed it was necessary to use 20-year global warming potential (GWP) values because methane is estimated to be 28 to 36 greater than carbon dioxide for a 100-year time horizon but 84-87 greater GWP over a 20-year period.

Conclusion

The Climate Act uses explicit language to magnify the accounting for methane emissions that make the use of natural gas more expensive. Last spring I described legislation that was proposed and endorsed by the Hochul Administration that would have changed the accounting to be consistent with the Intergovernmental Panel on Climate Change, the Environmental Protection Agency, and most other jurisdictions. The climate activist community went nuts and the legislation never progressed.

The problem is that I show here that the basis for their indignation is flawed as I point out in my resolution. Methane does not have greater impacts than carbon dioxide and should not be treated as mandated by the Climate Act. My recent article about righteous risks noted that the activists who push the evil methane narrative are driven more by moral idealism than pragmatic concerns. In this instance, their demand for different treatment means that the proposed New York Cap-and-Invest program cannot join other jurisdictions because the emissions accounting will be different. New York will have to develop all the infrastructure and regulations for its program on its own.

New York RGGI Operating Plan Amendment 2024

The Regional Greenhouse Gas Initiative (RGGI) is a market-based program to reduce emissions from electric generating units. This post describes my comments on the New York State Energy Research & Development Authority (NYSERDA) Regional Greenhouse Gas Initiative (RGGI) Operating Plan Amendment (“Amendment”) for 2024.

The Amendment describes the plans to use the RGGI proceeds in the next several years. Although supporters of RGGI claim that it is a successful model to emulate, my comments explain the implications of the actual results not only to the RGGI program but also for the Climate Leadership and Community Protection Act (Climate Act). There are no substantive changes in this regard since I submitted comments on last year’s operating plan. What has changed is my tolerance for the perfunctory responsiveness of NYSERDA to stakeholder comments.

I have been involved in the RGGI program process since its inception. I blog about the details of the RGGI program because very few seem to want to provide any criticisms of the program. I submitted comments on the Climate Act implementation plan and have written over 370 articles about New York’s net-zero transition because I believe the ambitions for a zero-emissions economy embodied in the Climate Act outstrip available renewable technology such that the net-zero transition will do more harm than good. The opinions expressed in this post do not reflect the position of any of my previous employers or any other company I have been associated with, these comments are mine alone.

Background

RGGI is a market-based program to reduce greenhouse gas emissions (Factsheet). It has been a cooperative effort among the states of Connecticut, Delaware, Maine, Maryland, Massachusetts, New Hampshire, New York, Rhode Island, and Vermont to cap and reduce CO2 emissions from the power sector since 2008. New Jersey was in at the beginning, dropped out for years, and re-joined in 2020. Virginia joined in 2021 but has since withdrawn and Pennsylvania has joined but is not actively participating in auctions due to on-going litigation. According to a RGGI website: “The RGGI states issue CO2 allowances which are distributed almost entirely through regional auctions, resulting in proceeds for reinvestment in strategic energy and consumer programs. Programs funded with RGGI investments have spanned a wide range of consumers, providing benefits and improvements to private homes, local businesses, multi-family housing, industrial facilities, community buildings, retail customers, and more.”

NYSERDA Operating Plan Amendment

NYSERDA designed and implemented a process to develop and annually update an Operating Plan which summarizes and describes the initiatives to be supported by RGGI auction proceeds. On an annual basis, the Authority “engages stakeholders representing the environmental community, the electric generation community, consumer benefit organizations and interested members of the general public to assist with the development of an annual amendment to the Operating Plan.”

The draft Amendment explains that New York State invests RGGI proceeds to support comprehensive strategies that best achieve the RGGI greenhouse gas emissions reduction goals pursuant to 21 NYCRR Part 507. The programs in the portfolio of initiatives are designed to support the pursuit of the State’s greenhouse gas emissions reduction goals by:

Deploying commercially available energy efficiency and renewable energy technologies;
Building the State’s capacity for long-term carbon reduction;
Empowering New York communities to reduce carbon pollution, and transition to cleaner energy;
Stimulating entrepreneurship and growth of clean energy and carbon abatement companies in New York; and
Creating innovative financing to increase adoption of clean energy and carbon abatement in the State.

The draft Amendment notes that the initiatives described represent program activity proposed for the 2024 Operating Plan. The funding levels for each program include previously approved and the amounts proposed for FY24-25 through FY26-27.

This post summarizes the comments I submitted on the proposed Operating Plan Amendment. Given the obvious disdain that NYSERDA has for public stakeholder input I did not expend the level of effort I did last year. My comments rely heavily on last year’s analyses and are separated into two main parts. The first repeats my 2023 evaluation that described the observed New York State (NYS) emission reductions from the electric sector since 2000. The Plan needs to focus its efforts and put more emphasis on programs that directly, indirectly, or potentially reduce carbon dioxide (CO₂) from the electric generating units affected by RGGI. Failure to do so will cause problems achieving the Climate Act 2030 mandates to produce 70% of electricity from renewable sources and increasing energy efficiency from 2012 levels by 23%. The second section offers my comments on the specific programs in the 2024 Amendment. Finally, I document the poor public stakeholder engagement process. To address that I copied the Board in my submittal so that I could be sure that they at least had the opportunity to see my comments.

Comment Summary

I think the ultimate problem in the Amendment is that RGGI proceeds are used to support too many Climate Act programs outside of the electric sector. RGGI is an electric sector emissions reduction program, so it is inappropriate to use the auction proceeds for any program that will not materially decrease emissions directly or indirectly through energy efficiency reductions. There are multiple programs in the amendment that do not meet those criteria. Those mis-allocated funds should be transferred to programs that do affect emissions.

RGGI supporters claim that the RGGI funds have played a meaningful role in the observed emission reductions at RGGI sources, but that claim is exaggerated. The historical emission trends of NYS electric generating units (EGU) provide valuable insight for future emission strategies. I found that between 2000 and 2021 New York EGU emissions have dropped from 57,114,438 tons to 28,546,529 tons, a decrease of 50%. NYS EGU CO₂ emissions were 35% lower in 2022 than the three-year baseline emissions before RGGI started. However, I showed that emissions have dropped primarily because coal and oil fueled generation has essentially gone to zero. Natural gas has increased to cover the generation from those fuels but because it has lower CO₂ emission rates New York emissions have gone down.

According to Table 2 in Semi-Annual Status Report through December 31, 2022, the cumulative annual net greenhouse gas emission committed savings are 1,725,544 tons through the end of 2022. That is 9.5% of the observed reduction of 16,196,531 tons since the three-year baseline before the start of RGGI. I conclude that the primary reason for the observed electric sector emission reductions in New York was due to fuel switching.

These observations are relevant for the future of EGU emission reductions required for RGGI and the Climate Act. Fuel switching is no longer an option in New York. Coal is no longer used and oil emissions from the RGGI affected sources are as low as they are going to get without retirement of oil-fired sources. The average CO2 emissions reduction per year from RGGI investments has been 95,716 tons since 2013. New York Part 242 CO2 Budget Trading Program specifies an annual reduction of RGGI allowances of 880,493 per year starting in 2022 and continuing to 2030. That reduction is nearly ten times more than the reductions from RGGI auction proceed investments. The Climate Act is going to require even more emission reductions. Electric generating unit owners and operators have no options available for additional emission reductions other than reducing their operating times. It is incumbent upon NYSERDA to invest RGGI funds to incentivize and subsidize carbon-free generation and reduce energy use so that the RGGI sources can reduce operations and not jeopardize system reliability. If the sources are unable to reduce operations safely, then the Climate Act targets will be jeopardized.

In the second section of the comments, I evaluated the Amendment programs. The comments describe program investments for six categories. The first three categories cover programs that directly, indirectly or could potentially decrease RGGI-affected source emissions. Those programs total 33% of the investments. I also included a category for programs that will add load that could potentially increase RGGI source emissions which totals 24% of the investments. Programs that do not affect emissions are funded with 35% of the proceeds and administrative costs total another 8%. Because there is inadequate documentation, my categorizations are estimates. Even if those estimates were refined, I believe this represents an improper allocation of resources.

In order to address the need for strategies that can displace RGGI-affected source generation the RGGI Operating Plan Amendment needs to reevaluate priorities. NYSERDA must verify that other investments will provide the necessary reduction in RGGI-affected source emissions in order to justify spending more than half the RGGI proceeds on programs unrelated to RGGI emissions. My comments on specific amendments recommended that most of the unrelated programs not be funded.

I only had specific comments on one proposed program. The Climate Act is pushing the envelope of zero-emissions technology, so the Scoping Plan Implementation Research program is certainly appropriate. I recommend that this program fund projects for dispatchable emissions-free resource DEFR) requirements and the question of wind and solar resource availability during winter doldrums.

Stakeholder Process

I have been involved with stakeholder comments for regulatory proceedings in New York since 1981 and the NYSERDA engagement process is the least responsive. Before the turn of the century, New York agencies asked questions early in the process, were receptive to comments received, and valued input from subject matter experts no matter their affiliation. After 2000, that dynamic started to shift – agencies did not seek input from subject matter experts as much and there was less and less response to comments. Recently the comments I submit ,and comments from industry in general, are submitted knowing that a substantive response is unlikely.

I think there are two reasons for this attitude change. The first is simply the political emphasis on all decisions. Over the years I have become friends with people in the regulatory agencies and privately they admit that all decisions are ultimately made based more on politics than technical feasibility. The political appointees only hear what they want to hear from the agency technical staff. The second reason is a shift away from pragmatic science-based approaches. I recently posted an article about Righteous Risks and the Climate Act that describes the introduction to a series of articles by David Zaruk that characterizes the new approach. He defines righteous risks as the “threat of harm to societal well-being arising from a value-based approach that filters facts and data with an ethical perspective.” The problem with this approach is that “decisions are influenced by what is perceived as ethical rather than what is rational or scientific.”

There is another dynamic with respect to stakeholder comments for NYSERDA programs. New York has always had a strong commitment to research and development. Before de-regulation of the electric and gas industry utilities were required to fund R&D programs themselves with oversight from state agencies. After de-regulation the funding commitment for R&D remained but state agencies, primarily NYSERDA, gained complete control. It did not take long for the politicians to glom onto this pot of money for their own ends. The stakeholder process has become a perfunctory obligation rather than an opportunity for improvement. Without the threat of independent research by the utilities NYSERDA arrogantly assumes that they are the only subject matter experts that matter and don’t need input from anyone other than those chosen by politicians to further their aims.

The final stakeholder process dynamic is that the State uses RGGI proceeds as a slush fund. In the most egregious example, Governor Patterson diverted $90 million of the RGGI revneues for budget deficit reduction in 2009. In 2018, Environmental Advocates of New York released a report that found that the Cuomo Administration was more circumspect, they simply supplanted costs associated with existing programs that pursued the State’s greenhouse gas emissions reduction goals. Not to be outdone by the Administration, the Legislature passed the Electric Generation Facility Cessation Mitigation Program and diverted $69 million from RGGI proceeds to provide property tax relief for local governments and school districts facing a loss of revenue attributed to the closure, temporary or otherwise, of a power plant. I have no doubts whatsoever that many of the RGGI-funded programs under the Hochul Administration continue this sorry tradition in one way or another. I submitted these comments knowing that money talks and that the chance of reallocating money in the state bureaucracy has a vanishingly small chance of happening no matter how rational or scientific the arguments for change.

NYSERDA Stakeholder Responsiveness

The NYSERDA Use of Auction Proceeds website states:

Similar to other programs that NYSERDA administers, stakeholder input is important to us. On an annual basis, the Authority engages stakeholders representing the environmental community, the electric generation community, consumer benefit organizations and interested members of the general public to assist with the development of an annual update to the Operating Plan. NYSERDA seeks feedback on the design and implementation of programs described in the Operating Plan to help us maximize the effectiveness of RGGI funded programs.

In reality it is apparent that NYSERDA does not take this obligation seriously. A proper stakeholder process demonstrates appreciation of the obligation by responding to the comments. There must be some indication that someone read them, considered the points made, and took the stakeholder input into account. The 2023 Operating Plan amendment process showed no sign of that.

Last year I spent a lot of time preparing detailed comments on the 2023 Operating Plan Amendment.

The NYSERDA Planning Committee approved the 2023 RGGI Operating Plan at their January 25, 2023 meeting. The proposed revisions to the Regional Greenhouse Gas Initiative Operating

Plan was presented to the Committee by John Williams, Executive Vice President for Policy and Regulatory Affairs. His opening statement reflects the perfunctory nature of the approval and includes the only acknowledgement and response to stakeholder comments:

Thank you Shere and everybody. We’ll move this one along pretty quickly. We’re here with our

annual routine RGGI approval process. So the, the Members have received both the three year

plan that we’re proposing as well as a memo of summarizing all that. Just some high points here

for awareness. You know, we did engage our annual process to come up with our proposal and

present that to stakeholders. And on December 12th we held a webinar for receipt of stakeholder input on that. So some participation there and some exchange of thoughts happening at that December 12th webinar. The proposal was also open for written public comments through January 6th, and we did receive a couple of comments there. The proposal you have was you know, does take those public feedback into account.

It is very easy to say the proposal takes public feedback into account but there is no available documentation explaining what feedback was included, what feedback recommendations were excluded, or why those decisions were made. In fact, there is no indication of how feedback was addressed. If they were serious, NYSERDA staff would prepare a report that lists all the points made in the comments with recommendations on how they should be handled for management review and approval. Williams’s response mentions a memo but there is no indication of what it included, and it is not available as part of the record. I think that it should be part of the record and that it should contain the summary of stakeholder comments and the NYSERDA responses.

This year’s stakeholder process actively discouraged public involvement. The Amendment and meeting announcement were posted on December 1. The Operating Plan Stakeholder Meeting was held on December 8, 2023. The opportunity to join the meeting by phone or webinar required the use of a password that was not provided. There is no indication in the meeting recording that any participant figured out that nobody outside of NYSERDA joined the webinar. The video of the 12/8/23 meeting was not put online until December 15, 2023. To NYSERDA’s credit a separate webinar to offer the public an opportunity to ask questions on December 20. However, they only allocated a half an hour. I submitted questions before the webinar and time ran out before they responded to all of them. The video recording of the Q&A meeting was provided on 12/27/23. Comments were due by the close of business on December 29, 2023. Expecting meaningful comments two weeks after the posting of the video with the Christmas holiday in between is not realistic. In fact, it seems to be a deliberate attempt to squelch input.

Given the lack of responsiveness to those comments and the dismissive approach taken to the stakeholder process this year I saw no value in spending as much time on this operating amendment as I did last year. I did not update all the analyses to use the most current data. In order to be sure that the NYSERDA Board members had at least had the opportunity to see my comments I copied them in my submittal.

Conclusion

The State of New York has consistently allocated RGGI auction proceeds inconsistent with the stated goals of the program. As long as emissions were going down then this impropriety had no impact on RGGI program goals. The emission reduction low-hanging fruit are gone and now cost-effective and efficient emission reductions are needed. The failure of the 2024 RGGI operating plan to recognize this need could very well mean that the Climate Act emission reduction targets will not be achieved. It gets worse because the New York Cap-and-Invest (NYCI) program that is supposed to be developed in 2024 will include compliance limits. If state investments do not produce emission reductions consistent with the NYCI limits then the only compliance option could be to stop emitting to produce electricity. In other words, the stakes have been raised and NYSERDA has not caught on.

The regulatory review stakeholder process is a game. In my retirement it has become a hobby of mine to continue my involvement with the Climate Act regulatory proceedings. Given the change in attitudes at state agencies I respond to requests for comments knowing full well that if I am lucky, I will get some indication that someone read the comments, but I expect nothing else. I persevere because I consider my submitted comments a marker. When this inevitably all blows up the record will show that they had been warned. Unfortunately, the odds are that the ideologues pushing these policies will have moved on to a new grift so they will never be held accountable.

Righteous Risks and the Climate Act

I recently wrote about the reality disconnect between climate activists and the need for new technology to meet the net-zero ambitions of New York’s Climate Leadership & Community Protection Act (Climate Act). I mentioned a few possible reasons why climate advocates ignore anything that does not fit their narrative that climate change is an existential threat and the energy transition away from fossil fuels will be painless, save money, and solve the threat of climate change. David Zaruk, writing at the Risk Monger blog, has started a series of articles that offers great insight into an overarching motive for supporters of the Climate Act. This post describes his introduction with Climate Act examples.

Overview

The Climate Act established a New York “Net Zero” target (85% reduction in GHG emissions and 15% offset of emissions) by 2050. It includes an interim 2030 reduction target of a 40% reduction by 2030 and a requirement that all electricity generated be “zero-emissions” by 2040. The Climate Action Council (CAC) is responsible for preparing the Scoping Plan that outlines how to “achieve the State’s bold clean energy and climate agenda.” In brief, that plan is to electrify everything possible using zero-emissions electricity. The Integration Analysis prepared by the New York State Energy Research and Development Authority (NYSERDA) and its consultants quantifies the impact of the electrification strategies. That material was used to develop the Draft Scoping Plan outline of strategies. After a year-long review, the Scoping Plan was finalized at the end of 2022. In 2023 the Scoping Plan recommendations are supposed to be implemented through regulation, PSC orders, and legislation.

David Zaruk writes at the Risk Monger, a blog “meant to challenge simplistic solutions to hard problems on environmental-health risks”. He is an EU risk and science communications specialist since 2000, active in European Union (EU) policy events and science in society questions of the use of the Precautionary Principle. He is a professor at Odisee University College where he lectures on Communications, Marketing, EU Lobbying and Public Relations. In my opinion, he clearly explains the complexities of risk management and I recommend his work highly.

I recently described the reality disconnect between climate activists and the need for new technology to meet the net-zero ambitions of the Climate Act. I wondered what would it take for them to change their minds given that their belief that no new technology is only possible if you don’t read the Integration Analysis details, you believe that the New York Independent System Operator (NYISO) is a shill for fossil fuel interests, so their reports are biased, and think that the New York Public Service Commission does not understand the electric system. Instead, they believe a couple of academics. I postulated that when the problems described by NYISO cause a blackout that the activists would get it. Zaruk’s description of righteous risks suggests that facts do not matter when the cause is morally and emotionally justified.

Righteous Risks

Zaruk describes these risks as follows in his introductory post:

A righteous risk is a threat of harm to societal well-being that arises when decisions are based solely on widely-shared moral perceptions, social virtues and ethical ideals. This value-based policy approach does not consider facts or data in a consistent manner with certain actors, reinforced by social media tribes, imposing their ideals upon others. Righteous zealots (particularly environmental activists, naturopaths and food puritans) are more intensively forcing their moral dogma upon the policy process. Such value-based regulations are righteous risks that have become a growing threat to entrepreneurs and researchers whose innovations may challenge their traditional ethical norms. In attacking agricultural practices, food choices, energy use, nicotine alternatives and transportation choices, when the righteous feel they have virtue on their side, their reasoning and decision-making become hazardous to others.

He writes that this series will “look at case studies where righteous risks were (or were not) managed, the consequences and the lessons learnt.” I strongly recommend reading the post in its entirety. In the meantime, I will provide some examples of these risks that are evident in New York.

The Virtue of Environmentalism

The introductory post expands on his description of righteous risks. He explains the peril of “making decisions solely on some ethical dogma, an unwavering virtuous self-appreciation or a fear of some stakeholder moral condemnation” is that policies lead to “irrational regulations that do little but harm.” He writes:

The values that guide decision-makers, or the widely expressed social values that decision-makers feel they need to reflect, do not take into account the complexities of policymaking or the compromises that must be made. Politics is a pragmatic profession, but today we seem to have lost the art of Realpolitik, replaced by a “governance by moral aspiration” approach.

Zaruk is primarily concerned with policies within the European Union. He describes how the Green Deal for the climate has recently been a primary driver of policies to transition to zero emissions:

The word “transition” started to be repeated in any official EU Green Deal speech. When we make a transition, we turn away from the bad and toward the good. The need for an energy transition, mobility transition or a food system transition became synonymous with fighting climate change. But this “transition towards…” strategy, as a righteous crusade, became curious as the Green Deal strategies were presented as virtuous solutions. Renewables, organic food, EVs, non-synthetic chemicals … were promoted within a moral framework, under the virtue of sustainability. Whoever would suggest advancing innovations in carbon capture and storage of fossil fuel emissions instead of more subsidies for renewables had crossed over to the dark side and would soon be ostracised by the community of influencers. When you speak in terms of good v evil in the moral imperative to stop climate change (to right the evils of past generations of unenlightened polluters), the Green Deal becomes a mission of the noble and the virtuous.

The Climate Act is a prime example of environmental virtuism. One of the impacts touted on the Climate Act webpage is “Protecting our environment”:

Fresh mountain air. Crystal clear waters. Your favorite tree in the neighborhood. It’s hard to describe the feeling of experiencing these natural resources. It’s even harder to picture a New York without them.

That is why we are making environmentally friendly choices, such as new options for waste management and clean energy, more accessible to all New Yorkers. That is why we are carefully monitoring the preservation of our forests and wetlands. That is why we are making sure our renewable energy projects have a minimal impact on our cherished natural resources.

We are rising to the occasion to protect our environment — for today and tomorrow. Because we don’t want that feeling of catching a fish, skiing through fresh powdered snow, or simply enjoying a walk in the park to ever go away.

Clearly, anyone who objects to these plans is evil. I maintain that every aspect of the Climate Act is more complicated than it appears at first glance, and it has been my experience that looking into issues exposes problems with the State’s narrative. For example, the claim that “our renewable energy projects have minimal impact” ignores the fact that there are no constraints on utility-scale solar development to mandate that tracking solar panels be used consistent with the Scoping Plan, that the prime farmland protections in Department of Agriculture and Markets guidelines are followed, and that responsible solar siting agrivoltaics are required. Meanwhile, I estimate that permitted projects have covered 8,365 acres of New York’s most productive farmland.

A Redefinition of Leadership

His introductory article argues that this “injection of ethical rectitude into policy strategies is redefining Western leadership.” His description that “Policies are cloaked in values and expressed with hyperbole and categorically” sums up New York’s net-zero transition ambitions. The problem is that zero is impossible and leaders are unwilling to admit that and “make decisions based on prescribed values rather than insight or intelligence.”

This righteous risk is front and center in the Hochul Administration’s rollout of every aspect of Climate Act transition. For example, the most recent press release on the Climate Act webpage describes additional funding for disadvantagedl communities:

Governor Kathy Hochul today announced $25 million in additional funding is now available under the State’s Clean Energy Communities Program for local municipalities to drive high-impact clean energy actions and reduce greenhouse gas emissions. The program, which recognizes local clean energy leadership and provides implementation grants, helps reduce municipal energy use, lower costs, and offers additional support for projects located in disadvantaged communities. This announcement supports the State’s Climate Leadership and Community Protection Act goal to reduce greenhouse gas emissions 85 percent by 2050.

“Advancing our climate and clean energy goals is a top priority as we experience the increasingly damaging impacts of climate change and extreme weather,” Governor Hochul said. “This initiative provides critical support to municipalities leading by example with investments in cleaner, more efficient solutions that lower energy costs while ensuring a clear path to building community-wide resiliency and a more inclusive green economy for everyone, especially for those historically underserved.”

Outrage Optics

Zaruk also describes a driver of policy that I see constantly in New York. Politicians have always developed policy based on optics and today it is fashionable to use policy development in a process of engagement, stakeholder dialogue, and participation. He coins the term outrage optics to describe the ideologues whose moral outrage is a primary driver during the stakeholder engagement process. This is inflamed because “social media has brought high-volume ethical disgust into the policy optics game with very little tolerance for compromise.” He points out that to develop rational policies:

Leaders need to harden up. Just because some former Reuters journalist in Kansas calls a regulator names for standing by the scientific evidence on, say, glyphosate, does not mean he or she should abandon basic facts and science to be better judged by this little storm in a teacup.

The Climate Act includes a commitment to address equity for “communities within New York that have been historically overburdened by environmental pollution”. Ensuring equity and inclusion in our climate actions means “New York will ensure that all communities, but especially populations within disadvantaged communities (opens in new window), will benefit from the State’s investments and opportunities, including reducing pollution and creating new jobs and economic opportunities.” One of the prime examples of this environmental burden is peaking power plants. Outrage optics drives the environmental justice advocate claims that these power plants drive health impacts in adjoining neighborhoods. However, I have shown that claims that peaking power plants are a source of egregious harm to disadvantaged communities is based on selective choice of metrics, poor understanding of air quality health impacts, unsubstantiated health impact analysis, and ignorance of air quality trends.

The following description is entirely apropos to New York’s Climate Act proponents:

The zealot influencer is the most dangerous lobbyist in the field, excelling at generating outrage optics within a small tribe of loud activists. They use a sociopathic preacher zeal to push policymakers into a moral quagmire. Support this legislation and you are supporting industry, wilfully spreading cancer on innocent children and destroying the environment. The argument is not about evidence or scientific advice, but on whether you, as a leader, are a good person. Outrage optics campaigns work on the idea that people will forget a policy choice in weeks but will never forget an irresponsible leader in the pocket of evil industry. When this emotional quagmire is too difficult and the moral outrage too insufferable, the precautionary principle is introduced as a mea culpa.

New York’s perfect example of a zealot influencer is Raya Salter. She is the founder of Energy Justice Law & Policy Center and is a member of the Climate Action Council. In an article I wrote about the tradeoffs between reliability and peaking power plants I noted that she never misses an opportunity to emphasize her belief that these facilities are a root cause of air quality health impacts in New York City disadvantaged communities. In a recent Equity and Climate Justice Roundtable session, she argued that the New York Cap-and-Invest program should make shutting down the peaking units a priority. She believes that equity is only achieved when fossil plant emissions are zero saying that “Anything less than shutting down power plants is a distraction from the goals of the Climate Act”. However, she also says getting to zero must be done “in a way that prioritizes emissions and co-pollutant reductions in front line communities and does not disproportionately burden disadvantaged communities”.

Developing a Righteous Risk Management Strategy

The final section of the introductory post offers some thoughts on developing a righteous risk management strategy:

Is it wrong to be critical of stronger moral values guiding public officials? Not at all. But when all policies are driven merely by ethical values and unbending zealots; when activists frame every policy debate in simplistic, good vs evil poles; when policymakers are inconsistent in their regulatory implementations according to perceived normative interests; and when the public is persuaded to consider capitalism, innovation and entrepreneurship as moral deficiencies; then righteous risks become a threat to rational policies, democracies and the public. I’m afraid that’s where we are today but it is where we go tomorrow that interests me.

All of these policy drivers are evident in the Climate Act implementation process.

Conclusion

I encourage readers to check out the introduction and Part 2. I did not discuss all the points made and there are many more excellent concerns described. The arguments are entirely relevant for New York’s Climate Act transition and Zaruk’s provides good examples of the risks of this approach.

I concur with Zaruk’s argument that righteous risks are becoming a threat to rational policies, democracies and the public good. Tradeoffs between Climate Act absolutism, i.e., demanding nothing less than zero, and the extra costs, reliability risks, and unintended environmental impacts are not even on the table for discussion. Given that New York GHG emissions are less than one half of one percent of global emissions and global emissions have been increasing on average by more than one half of one percent per year since 1990 it is clear that New York’s Climate Act cannot affect climate change. I think that there is no rational reason not to discuss pragmatic solutions. I am not saying that New York should not do something, but clearly, we have time to make sure that the actions taken do not do more harm than good. Arguing otherwise is not in the best interests of New York.

Articles of Note December 24, 2023

Videos

John Stossel interviews Bjorn Lomborg who points out that there are better things society should spend money on. I particularly like this quote: “Only reporting on the minuses, and only emphasizing worst-case outcomes, is not a good way to inform people.”

Alex Epstein argues that if you believe that fossil fuels are necessary to maintain our current standard of living and improving the lives of those who don’t have adequate energy resources, then you should advocate that the zero by 2050 goal should be replaced by the goal to advance human flourishing around the world.

Michael Shellenberger: Greta Thunberg’s Climate Crusade Is Losing. He argues that renewables are coming into crisis because of local opposition, the high costs of associated transmission and energy storage become evident and the environmental impacts of wind and solar undermine their value.

Conference of Parties 28

The COP 28 Climate Summit closing sound bite for the news cycle was that there was a deal to end fossil fuels. Earlier this “paradigm switch” was off the table but the fact that there was no debate on the final text suggests that the language was designed to be vague enough that it could be interpreted however desired.. Paul Homewood explains that when you dive into the detail of the agreement, you find that it is mostly smoke and mirrors. Finally there are links to numerous related articles here.

Costs and Benefits

The Hochul Administration claims that the costs of inaction outweigh the costs of action of the Climate Act. However, Kenneth Richardson notes that a new report claims the opposite: “The benefits of not meeting Paris Accord emissions-reduction targets outweigh the costs associated even with worst-case-scenario global warming throughout the 21st century.” A new comprehensive analysis (Tol, 2023) weighs the cost-benefit of meeting Paris Accord emission policy targets to keep global warming in check, or under 2°C. Richard Tol is an expert economist who has done a lot of research regarding the costs and benefits of greenhouse gas emission reductions. If the Hochul Administration wants to follow the science then they should ask him about New York’s transition.

Roger Pielke, Jr, also comments on this paper in response to a question about cost-benefit ratios of climate change policies:

RP — This question reminds me of the recent discussion by Bjorn Lomborg in the WSJ of a recent paper by Richard Tol (which is part of a larger collection). Lomborg explains:

Tol finds that if the world meets its 1.5 degree promise, it would prevent a less than 0.5% loss in annual global domestic product by 2050 and a 3.1% loss by 2100. . . Based on the latest cost estimates of emission reductions from the United Nations climate panel, he finds that fully delivering on the 1.5-degree Paris promise will cost 4.5% of global GDP each year by midcentury and 5.5% by 2100. This means that likely climate policy costs will be much higher than the likely benefits for every year throughout this century and into the next. Under any realistic assumptions, the Paris agreement fails a basic cost-benefit test.

I teach cost-benefit analysis (or, I should say, I used to!) and while the idea of comparing costs to benefits makes perfect sense in the evaluation of policy alternatives, I have no expectation that we can accurately evaluate the costs and benefits of any policy over the next 75 years. The meaningfulness of long-term economic projections is one issue where I strongly disagree with Lomborg and Tol. The only way that climate policy works is by taking incremental, short-term steps that the public perceives to provide (and even better — actually has) benefits to their lives, and thus they demand more such policies. There are volumes of studies of policy implementation failures where policies did not provide benefits or made things worse, but that too gives me optimism as policy making is self-correcting. Maybe not efficiently or quickly, but look around — 2023 has more people living healthier and safer lives than at any point in human history. Yes, there are still many problems and many do not presently enjoy such health and safety. That just means we have more work to do. Long-term predictions of policy or the economy are fun exercises, but I don’t find them particularly useful for helping us to decide what to do next.

Levelized Cost of Energy

The primary reference for claims that wind and solar are cheaper than natural gas is Lazard’s levelized cost of energy (LCOE). Andy May explains that even a quick look at their data shows that this is not true: “Even within their April 2023 report they are not consistent in their numbers. To make matters worse, they bury critical details in the fine print and do not define their terms.” May also provides a link to more details.

The comments for this post are also interesting. This is a good point that describes yet another hidden cost: “Renewable electric grids are longer, of higher capacity, by between three and ten times, and are underutilized, in comparison with conventional power station links”. Another comment provides a link to an hour-long video discussion of Lazard LCOE.

Francis Menton also addresses Lazard LCOE in a follow up to his earlier post asking whether climate advocacy is incompetence or intentional fraud. He concludes:

Could the people at Lazard who produce all these fancy and complex charts and graphs really not know that 4 hour duration batteries cycling once per day are not going to come close to solving the intermittency problems of wind and solar generation? Or do they really know that, and they are just hoping to sell a few hundreds of billions of dollars worth of wind turbines and solar panels before the stupid politicians and investors figure out the scam?

The 1.5^oC Target

Climate Activists never tire of remining everyone that the internationally agreed upon target to “prevent worsening and potentially irreversible effects of climate change” is that the “world’s average temperature should not exceed that of preindustrial times by more than 1.5 degrees Celsius (2.7 degrees Fahrenheit)”. An article at Climate Realism explains that this is not supportable:

Reason magazine recently posted an article on its website titled “There Is No 1.5°C Climate Cliff,” arguing that the 1.5°C threshold touted by the United Nations Intergovernmental Panel on Climate Change, world governments, and activists, is not based on any scientific investigation, but is rather arbitrary.

Winter Solstice and Climate Change

In my opinion, climate change is driven by the sun. Admittedly I have not found a lot of research to support my belief so I have to rely on a couple of things. One of the factors causing ice ages are “very minor (and regular) adjustments in the angle of the Earth relative to the sun affects the amount of solar radiation, or insolation, that reaches Earth.” The other thing is the major differences between the seasons caused by changes in sunlight. An article by Ron Klutz includes this nice graphic of the seasons and argues that if climate change is occurring that the highest temperatures in the summer and the lowest temperatures in the winter should both be increasing. He does not find evidence that the summers are getting hotter but does note that the observed increase in winter low temperatures increasing is likely caused by urban heat islands affecting many land-based observing sites.

Humans and Climate Change According to a new study, humans “contribute to global warming” by exhaling greenhouse gases like methane and carbon dioxide 16 times per minute. The study shows that humans are generating methane and CO2. Jo Nova asks:

If belches of methane can cause a climate crisis, how, we marvel, did the planet not boil away when 30 million bison roamed the plains of North America? Why was the climate ideal (apparently) when the vast herds of Wildebeest roamed Africa, and Aurochs stretched across Europe?

Lessons to Be Learned from Ontario

In my last edition of articles of note I included Parker Gallant’s three parts of a series of articles about the transition. The articles describe happenings around the world where members of the Church of Climate Change Cult (CCCC) are starting to question their beliefs. According to his contact link “Parker’s retirement allows him to spend time researching the energy sector and apply his banker’s common sense to analyzing the sector’s approach to the production, transmission and distribution of electricity to Ontario’s consumers.”

In the latest article he pointed out that the media revels in publishing scary stories about current fossil fuel use. However, the same outlets rarely mention issues related to the electrification alternative that is supposed to solve the problems. He goes on to describe the electric grid costs to connect renewables and the astronomical costs. He concludes that the CCCC have been doing their best to drive us in the developed world into poverty via their push to get us to their “net-zero” emissions target.

Weather of 2023

Roger Pielke, Jr. summarizes the weather of 2023. He notes: “We are all well aware of the narrative that the weather is quickly getting worse. Unfortunately, data does not agree.”

I have read many stories exclaiming that this year has been the “Hottest for 125,000 years”. Paul Homewood explains that “The claim is self-evident and baseless nonsense for a number of good reasons:

There is no such thing as “a global average temperature”

Even now we have very sparse coverage of temperature measurements. Prior to satellites, we had virtually no data outside of the US, Europe and a few other built up areas

The temperature record we do have is thoroughly corrupted by UHI, and only dates back to the late 19thC

Natural variations, including ENSO, volcanic activity etc, can easily cause temperature swings of a degree Celsius from year to year, and decade to decade. But historical proxies don’t have the fine resolution to pick these up, they merely give an idea of average temperatures over decades and even centuries. Consequently you cannot compare one year now with the general climate of, say, 2000 years ago.

But forget about all of these theoretical objections, because the climatic evidence we do have is overwhelming, and it tells us that the climate has been much warmer than now for most of the last 10,000 years, since the end of the ice age.

Micron Rational Option not in the Final Scoping Plan

In 2022, Micron announced its plans to build the largest semiconductor fabrication facility in the history of the United States. Micron intends to invest up to $100 billion over the next 20-plus years to construct a new chip fab plant in Clay, New York. My most recent article on this project documented my suggestion that the facility consider co-generation to supply the energy needs of the facility based on the energy density of wind and solar resources. I made the same recommendation in a comment on the Draft Scope of Work for the State Environmental Quality Review Act requirement to address the environmental impacts of the facility. This post describes the response to my comment.

I am following developments at Micron because the facility is going to be built within five miles of my home. I also follow the Climate Leadership & Community Protection Act (Climate Act) because of its impacts on New York. The opinions expressed in this post do not reflect the position of any of my previous employers or any other organization I have been associated with, these comments are mine alone.

Micron Chip Fab Facility

The description in the Environmental Assessment Form states:

Micron intends to invest approximately $100 billion over the next 20 years to build a leading-edge semiconductor manufacturing campus in the Town of Clay on the approximately 1,400-acre White Pine Commerce Park. Micron intends to acquire the White Pine Commerce Park from the Onondaga County Industrial Development Agency (OCIDA) and construct a campus for four (4) memory fabrication plants (also known as Fabs) on the site. Each Fab, and their related facilities, would take approximately three to five years to construct. Interior fit-out of each Fab would continue after the building is complete, resulting in continuous site activity over approximately 20 years. It is anticipated that the first two (2) Fabs would be complete within approximately 10 years, and the second two (2) Fabs would be complete approximately 10 years thereafter. Skilled trade labor will be employed throughout the 20-year period. Each Fab would occupy approximately 1.2 million square feet (sf) of land and contain approx. 600,000 sf of cleanroom space, 290,000 sf of clean room support space, and 250,000 sf of administrative space. Each set of two fabs would be supported by approx. 360,000 sf of central utility buildings, 200,000 sf of warehouse space, and 200,000 sf of product testing space housed in separate buildings.

In August I prepared an article that described the reaction of Richard Ellenbogen to the massive amount of energy needed by the facility. I correspond with him regularly because he has spent a lot of time evaluating the Climate Act net-zero transition. I recently described his comprehensive presentation on the transition. When I let him know that the original projection for energy use that would be the same as the state of Vermont has been expanded to be the same as Vermont and New Hampshire he responded with the following:

I have been using the Micron facility as an example of how the Climate Act is actually going to increase NY State’s carbon footprint because transmitting all of that energy to the Micron site, as much as is used by the state of Vermont, over long distances was going to result in an amount of lost energy on the wires that could operate 1-3/4 Cornell Universities. One of my readers sent me an update of energy use because now it is projected that the Clay complex will consume 16 billion kilowatt-hours of electricity per year, as much as Vermont and New Hampshire combined, or 16,000 Gigawatt Hours annually (16 Tera-watt hours). That is double the original projections and the idea that this could be supported with renewable generation is laughable. 16,000 GWh is an 11% increase in NY State electric usage just related to the one facility. The line loss will also double to consume the output of about a 100 megawatt fossil fuel plant under continuous operation.

To put the Micron facility’s usage into perspective, in its last full year of operation the 2 Gigawatt Indian Point nuclear plant generated 16.3 Tera-watt hours so the Micron facility will need to be supported by a 2 Gigawatt fossil fuel or nuclear plant on site or 2.1 Gigawatts of generation off site, 5% more. NY State’s policy makes absolutely no sense. To run the Micron facility would require using about 4 GW of the projected 9 GW of offshore wind to support the plant or 16 GW of solar arrays covering 128,000 acres (80 acres per 10 MW) or 200 Square miles. NY State has 7 million acres of farmland so solar arrays to support the Micron facility would use almost 2% of the farmland in the state and would also require an enormous amount of battery storage, the cost of which would greatly exceed the cost of a nuclear plant on site. A combined cycle generating plant on site would be about 75% less than the cost of the nuclear plant. Both the combined cycle gas plant and the nuclear plant on-site offer the option of recovering the waste heat and using it in the plant to make Micron even more energy efficient. With regard to the solar and wind, NY State is having major difficulties getting all of their renewable projects finished because of cost issues and interconnection issues, let alone adding this gigantic lead weight to the Camel’s back.

Draft Scoping Plan Comments

The Onondaga County Office of Economic Development is the lead agency for permitting the project. The agency with the office charged with the program is the Onondaga County Industrial Development Agency (OCIDA) whose mission is to “stimulate economic development, growth, and general prosperity for the people of Onondaga County by using available incentives, rights, and powers in an efficient and cooperative manner.” Needless to say, this massive project is quire a feather in the cap for Onondaga County.

Assigning OCIDA as the lead agency makes sense from the implementation standpoint because governmental agencies have an easier time getting permits. However, there is a disconnect between the agency and Micron. Both Richard Ellenbogen and I submitted comments on the draft scoping plan suggesting that the environmental impact assessment include a co-generation option. I would not be surprised in the least that Micron is not aware of our recommendation.

The OCIDA final response to comments document basically blew off our recommendation. The following represents the entire response. The responses were listed by number: Ellenbogen (24) and Caiazza (25) comments:

Comment 3: Commenters suggest that the Draft Environmental Impact Statement should include an alternative to add a Combined Cycle generating plant on the Micron Property. (24, 25)

Response: See Response to NYSDEC Comment 5.

NYSDEC Comment 5: The DEIS should include a discussion of potential alternatives and mitigation that could reduce energy and fuel demands during construction and the long-term operation of the facility, including renewable energy sources.

Response: The Scope has been revised to indicate that the DEIS will include a summary of other alternatives previously considered but determined not to be feasible, including an alternative that relies exclusively on alternative sources of energy (beyond use of renewable energy for purchased electricity). The DEIS will also assess the proposed use and conservation of energy (including provisions for renewable energy sources). The DEIS will include an evaluation of energy impacts from construction and long-term operation of the facility, along with potential mitigation of those impacts.

Unfortunately, there is no mention of a combined cycle generating plant in the Final Scope of Work. I guess that Micron could include the option for a co-generation plant in the future, but it would certainly affect the permitting schedule. If they do recognize the value, I believe their best approach would be to do the permitting separately. I guess there is still hope.

Discussion

The Micron facility could be a tremendous boon to Central New York. I hope it goes forward but the reality is that New York energy prices are high now and will increase significantly when the Climate Act transition to zero emissions generating resources proceeds. The cogeneration proposal offers the most likely way to keep energy costs low enough so that Micron can compete with global chip manufacturers.

I previously wrote that the development of Micron within the Climate Act framework will be a good test of pragmatic environmentalism. The tradeoff between Climate Act absolutism, i.e., demanding nothing less than zero, with the extra costs associated with that approach versus the need to keep the Micron facility in New York competitive with the global chip market by accepting non-zero emissions is an important substantive issue.

I am not entirely discouraged by the decision not to include co-generation in the Final Scoping Plan for Micron. It is more important to get the permits in place now so that construction can begin on schedule. Adding the co-generation scenario would distract from that goal.

Make no mistake, if Micron comes to the same conclusion as Ellenbogen and I that the advantages of co-generation are so indisputable and proposes such an approach the feces will become entangled with the impeller. The zero emissions ideologues will scream very loudly and invoke every emotional argument they can. The same politicians that are claiming success for getting Micron to commit are, in many cases also Climate Act supporters. There will be tremendous pressure on those politicians demanding zero-emissions generation while at the same time making it clear that nuclear is unacceptable even if it is the only zero-emissions generation that we know will work. What the ideologues cannot do is argue on the basis of the numbers and the science. Reality is not on their side.