Climate Act Implementation Components – Page 11 – Pragmatic Environmentalist of New York

The Latest from the Experts on New York’s Climate Act Implementation

This article was first published at Watts Up With That

I have published two previous articles about New York Independent System Operator (NYISO) analyses related to New York’s Climate Leadership and Community Protection Act (Climate Act). This post describes what I believe is an important new analysis of the future of New York’s electric system.

New York’s Climate Leadership and Community Protection Act (Climate Act) Act establishes a “Net Zero” target (85% reduction and 15% offset of emissions) by 2050. I have written extensively on implementation of the Climate Act. Everyone wants to do right by the environment to the extent that efforts will make a positive impact at an affordable level. My analysis of the Climate Act shows that the ambitions for a zero-emissions economy outstrip available renewable technology such that the transition to an electric system relying on wind and solar 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

The implementation plan for New York’s Climate Act “Net Zero” target (85% reduction and 15% offset of emissions) by 2050 is underway. The Climate Action Council has been working to develop plans to implement the Act. Over the summer of 2021 the New York State Energy Research & Development Authority (NYSERDA) and its consultant Energy + Environmental Economics (E3) prepared an Integration Analysis to “estimate the economy-wide benefits, costs, and GHG emissions reductions associated with pathways that achieve the Climate Act GHG emission limits and carbon neutrality goal”. Integration Analysis implementation strategies were incorporated into the Draft Scoping Plan when it was released at the end of 2021. Since the end of the public comment period in early July 2022 the Climate Action Council has been addressing the comments received as part of the development of the Final Scoping Plan that is supposed to provide a guide for the net-zero transition.

Unfortunately, the Climate Action Council has not confronted reliability issues raised by New York agencies responsible for keeping the lights on. The first post (New York Climate Act: Is Anyone Listening to the Experts?) described the NYISO 2021-2030 Comprehensive Reliability Plan (CRP) report (appendices) released late last year. The difficulties raised in the report are so large that I raised the question whether any leader in New York was listening to this expert opinion. The second post (New York Climate Act: What the Experts are Saying Now) highlighted results shown in a draft presentation for the 2021-2040 System & Resource Outlook that all but admitted meeting the net-zero goals of the Climate Act are impossible on the mandated schedule. This article describes the “For discussion purposes only” draft of the 2021-2040 System & Resource Outlook report described in the previous article. While there may be minor changes to the document itself, I am comfortable saying that the major findings will not change substantively.

System and Resource Outlook Summary

The Executive Summary makes the point that the Climate Act is driving changes to the generating system, the transmission grid and the demand landscape. As a result, this “leads to re-thinking how and where electric supply and storage resources evolve, and how to efficiently enable their adoption to achieve energy policy targets”. The summary goes on to note:

This 2021 – 2040 System & Resource Outlook (the Outlook), conducted by the New York Independent System Operator (NYISO) in collaboration with stakeholders and state agencies, provides a comprehensive overview of potential resource development over the next 20 years in New York and highlights opportunities for transmission investment driven by economics and public policy in New York State. The Outlook together with the NYISO’s 2021-2030 Comprehensive Reliability Plan (CRP) represent the marquee planning reports that provide a full New York power system outlook to stakeholders, developers, and policymakers.

The Outlook examines a wide range of potential future system conditions and enables comparisons between possible pathways to an increasingly greener resource mix. By simulating several different possible future system configurations and forecasting the transmission constraints for each, the NYISO:

Projected possible resource mixes that achieve New York’s public policy goals while maintaining grid reliability;
Identified regions of New York where renewable or other resources may be unable to generate at their full capability due to transmission constraints;
Quantified the extent to which these transmission constraints limit delivery of renewable energy to consumers, and;
Identified potential opportunities for transmission investment that may provide economic, policy, and/or operational benefits.

There are many potential paths and combinations of resource and transmission builds to achieving New York’s climate change requirements. As the current power system continues to evolve, evaluating a multitude of expansion scenarios will facilitate identification of common and unique challenges to achieving the electric system mandates New York State has set for 2030 and 2040. A thorough understanding of these challenges will help build a path for investors and policymakers to achieve a greener and reliable future grid efficiently and cost effectively. Through this Outlook several key findings were brought to light:

Four potential futures are evaluated to best understand the challenges ahead. A Baseline Case evaluates a future with little change from today. A Contract Case includes approximately 9,500 MW of renewable capacity procured by the state and evaluates the impact of those projects. Finally, a Policy Case postulates and examines two separate future scenarios that meet New York policy mandates.

Energy planning analyses such as this work normally evaluate different scenarios of the future by comparing them to a business-as-usual scenario. In this instance the business-as-usual scenario does not include any of New York’s climate initiatives. On the other hand, Climate Act Draft Scoping Plan analyses were perverted to “prove” the desired conclusion that the benefits were greater than the costs by comparing future scenarios against a reference scenario. The Integration Analysis used a semantic trick to claim that some de-carbonization costs (such as de-carbonizing transportation costs) necessary to meet Climate Act targets did not have to be included in the comparison scenario because the electric vehicle conversion legislation was already “implemented”. That approach took legitimate implementation costs out of the projections. Of course, this also makes comparison of the NYISO work relative to the Draft Scoping Plan problematic.

The second estimate of the future in the Resource Outlook considered only those projects currently under contract:

Through an annual request for proposals, NYSERDA solicits bids from eligible new large-scale renewable resources and procures Renewable Energy Certificates (RECs) and Offshore Renewable Energy Certificates (ORECs) from these facilities. This Outlook included approximately 9,500 MW of new contracted renewable resources, including 4,262 MW of solar, 899 MW of land-based wind, and 4,316 MW of offshore wind. The addition of these resources to the existing system representation provides insights regarding their impact on system performance in the future.

The Outlook report noted the following Key Takeaways for the contracted renewables scenario:

The pace of renewable project development is unprecedented and requires an increase in the pace of transmission development. Every incremental advancement towards policy achievement matters on the path to a greener and reliable grid in the future, not just at the critical deadline years such as 2030 and 2040. In general, resource and transmission expansion take many years from development to deployment.

Coordination of project additions and retirements is essential to maintaining reliability and achieving policy. Coordination of renewable energy additions, commercialization and development of dispatchable technologies, fossil fuel plant operation, and staged fossil fuel plant deactivations over the next 18 years will be essential to facilitate an orderly transition of the grid.

Many more renewable resources have to be developed to meet the overall Climate Act net-zero goal by 2050 and the interim 2040 goal of “zero-emissions” electricity generation. The NYISO analysis looked at two Policy Case scenarios that meet those targets:

Scenario 1 utilizes industry data and NYISO load forecasts, representing a future with high demand (57,144 MW winter peak and 208,679 GWh energy demand in 2040) and assumes less restrictions in renewable generation buildout options.

Scenario 2 utilizes various assumptions consistent with the Climate Action Council Integration Analysis and represents a future with a moderate peak but a higher overall energy demand (42,301 MW winter peak and 235,731 GWh energy demand in 2040).

Both scenarios project a blend of land-based wind, offshore wind, utility-scale solar, behind-the-meter solar, and energy storage will be needed to meet the CLCPA policy mandates through 2035. There are significant differences between these scenarios and the equivalent Draft Scoping Plan mitigation scenarios. One of the big differences is the magnitude of a new generating resource called “dispatchable emission-free resources” (DEFRs):

These resources represent a proxy technology that will meet the flexibility and emissions-free energy needs of the future system but are not yet mature technologies that are commercially available (some examples include hydrogen, renewable natural gas, and small modular nuclear reactors). As more wind, solar, and storage plants are added to the grid, dispatchable emission-free resources must be added to the system to meet the minimum statewide and locational resource requirements for serving system demand when intermittent generation is unavailable.

The report warns:

Both scenarios include significant DEFR capacity by 2035, but it is important to note that the lead time necessary for development, permitting, and construction of DEFR power plants will require action much sooner if this timeline is to be achieved.

As part of the analysis the NYISO considered what would be needed if the DEFR capacity is not developed. They found that “The exclusion of DEFRs as a new technology option, while enforcing the retirement of fossil generators via the zero-emission by 2040 policy, exhausts the amount of land-based wind built and results in the replacement of 45 GW of DEFR capacity in Scenario 1 with 30 GW of offshore wind and 40 GW of energy storage.” They also noted that the alternative did not address ancillary service requirements needed for the transmission system.

The Outlook report noted the following Key Takeaways for the Policy Case Scenarios:

Significant new resource development will be required to achieve CLCPA energy targets. The total installed generation capacity to meet policy objectives within New York is projected to range between 111 GW and 124 GW by 2040. At least 95 GW of this capacity will consist of new generation projects and/or modifications to existing plants. Even with these additions, New York still may not be sufficient to fully meet CLCPA compliance criteria and maintain the reliable electricity supply on which New York consumers rely. The sheer scale of resources needed to satisfy system reliability and policy requirements within the next 20 years is unprecedented.

To achieve an emission-free grid, dispatchable emission-free resources (DEFRs) must be developed and deployed throughout New York. DEFRs that provide sustained on-demand power and system stability will be essential to meeting policy objectives while maintaining a reliable electric grid. While essential to the grid of the future, such DEFR technologies are not commercially viable today. DEFRs will require committed public and private investment in research and development efforts to identify the most efficient and cost-effective technologies with a view towards the development and eventual adoption of commercially viable resources. The development and construction lead times necessary for these technologies may extend beyond policy target dates.

As the energy policies in neighboring regions evolve, New York’s imports and exports of energy could vary significantly due to the resulting changes in neighboring grids. New York is fortunate to have strong interconnections with neighboring regions and has enjoyed reliability and economic benefits from such connections. The availability of energy for interchange is predicted to shift fundamentally as policy achievement progresses. Balancing the need to serve demand reliably while achieving New York’s emission-free target will require continuous monitoring and collaboration with our neighboring states.

The important findings in the report led to the following recommendations:

Future uncertainty is the only thing certain about the electric power industry. From policy advancements to new dispatchable emissions-free resource technology innovation and ultimate development, the system is set to change at a rapid pace. Situational awareness of system changes and continuous assessment are critical to ensure a reliable and lower-emissions grid for New York. The Economic Planning databases and models will be continually updated with new information and the Outlook study will be improved and performed on a biennial basis.

To meet the minimum capacity requirement in 2040, at least 95 GW of new emission-free resources, including approximately 9.5 GW of new renewable resources, will be required to come on-line. Furthermore, to fully achieve the emission-free grid target by 2040, even more resources will likely be needed along with transmission to deliver the clean power to consumers. The scope of the additional renewable resource need is both substantial and unprecedented. Compared to the 2.6 GW capacity entering service in the past five years while New York experienced a net loss of approximately 2.2 GW, the installation rate in the next 20 years must increase significantly to achieve state law climate change requirements. State agencies should consider releasing a more detailed procurement schedule for renewable resources to guide the long-term system planning and provide clarity to the market.

Discussion

I noted earlier that I was comfortable saying that the major findings in this draft report will not change substantively when it is finalized. I base that mostly on the fact that the NYISO Market Marketing Unit has reviewed the draft. As part of their market monitoring responsibilities Potomac Electricreviewed the document relative to implications to New York’s de-regulated electric markets. If you are interested in that particular aspect of electric system planning, I suggest checking out the memo. For the rest of us, I only note that they state: “The 2021 Outlook is a major improvement to NYISO’s previous planning studies and provides important insights on the potential impacts of state policies on the NYISO system.”

More importantly, what about the Climate Action Council? Unfortunately, as I pointed out before the Climate Action Council has not confronted reliability issues raised by New York agencies responsible for keeping the lights on. In a series of meetings over the next couple of months the Council will have to address the Draft Scoping Plan comments made by the NYISO and the New York State Reliability Council that raised reliability concerns. I hope. without any supporting evidence, that the Integration Analysis team is working with the NYISO planning staff to reconcile the differences between this analysis and theirs.

In the meantime, there are vocal members of the Climate Action Council that deny the existence of any implementation issues associated with a renewable energy resource dependent electric system. At the May 26, 2022 Climate Action Council meeting Council members described their impressions of comments made at the public hearings. I have prepared an overview summary of all the comments made during the Update on Public Hearings and Comments agenda item and wrote an article highlighting relevant comments. In this regard, Paul Shepson Dean, School of Marine and Atmospheric Sciences at Stony Brook University talked about mis-representation at 23:39 of the recording:

Mis-representation I see as on-going. One of you mentioned the word reliability. I think the word reliability is very intentionally presented as a way of expressing the improper idea that renewable energy will not be reliable. I don’t accept that will be the case. In fact, it cannot be the case for the CLCPA that installation of renewable energy, the conversion to renewable energy, will be unreliable. It cannot be.

Robert Howarth, Professor, Ecology and Environmental Biology at Cornell (starting at 32:52 of the recording) picked up on that theme. He said that fear and confusion is based on mis-information but we have information to counter that and help ease the fears. He stated that he thought reliability is one of those issues: “Clearly one can run a 100% renewable grid with reliability”. Obviously, these views are at odds with this report.

There is one other point. In addition to the reliability concerns of the net-zero transition I am very concerned about affordability. The Draft Scoping Plan has avoided any mention of ratepayer impacts to date. The NYISO projection methodology has that information because it is inherent in the models. It is a shame that it is not being reported.

Conclusion

This is an important report for New York but I also believe that there are ramifications for other net zero transition programs. These findings must be reconciled with the Draft Scoping Plan projections for the future generating system. The leadership of the Climate Action has repeatedly punted the responsibility for a feasibility study down the road as somebody else’s problem. This report highlights multiple feasibility concerns that must be addressed to have any hope of this working. I believe that it shows that implementation on the schedule proposed will prove impossible. The report also highlights the need for implementation planning. Currently there is no plan for siting renewable resources where they are needed for the future system and this shows that it must be done.

With respect to other net-zero transition programs I think the discussion and implications of the dispatchable emissions-free resource are of interest. The analysis shows that in order to minimize the storage and renewable over-build requirements this resource could be a better choice. However, the report notes that DEFRs such as hydrogen, renewable natural gas, and small modular nuclear reactors are not commercially viable today. “DEFRs will require committed public and private investment in research and development efforts to identify the most efficient and cost-effective technologies with a view towards the development and eventual adoption of commercially viable resources.” There is that nasty planning and feasibility is necessary component again.

NYISO Offshore Wind Profile Development

The implementation plan for New York’s Climate Leadership and Community Protection Act (Climate Act) “Net Zero” target (85% reduction and 15% offset of emissions) by 2050 is underway. I think the biggest problem confronting any net-zero transition effort is matching variable wind and solar generation with load at all times. This post describes an effort by the New York Independent System Operator (NYISO) to address that problem for offshore wind resources. It is a great start but needs to be expanded for other sources of renewable generation and for as long a period as possible.

I have written extensively on implementation of the Climate Act. Everyone wants to do right by the environment to the extent that efforts will make a positive impact at an affordable cost. Based on my analysis of the Climate Act I don’t think that will be the case as proposed. I believe that the ambitions for a zero-emissions economy outstrip available renewable technology such that the transition to an electric system relying on wind and solar will do more harm than good. I am a retired meteorologist who started working for Niagara Mohawk in 1981 and have continued to work in the New York electric generating industry continuously since then. Over that time, I have been involved in many energy planning activities that included meteorological components. 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.

Climate Act Background

Renewable Resource Adequacy

I called the renewable resource adequacy problem the ultimate problem for the Climate Act as early as September 2020. On August 2, 2021, the New York State Energy Research and Development Authority (NYSERDA) held a Reliability Planning Speaker Session to describe New York’s reliability issues to the advisory panels and Climate Action Council. All the speakers but one made the point that today’s renewable energy technology will not be adequate to maintain current reliability standards and that a “yet to be developed technology” will be needed. A recent article by David Wojick at PA Pundits International titled Unreliability Makes Solar Power Impossibly Expensive does a great job describing how renewable resource availability affects reliability. I adapted his work to New York to analyze the impact on the Draft Scoping Plan.

There are serious problems when extreme weather affects the grid. The Federal Energy Regulatory Commission (FERC) and the North American Electric Reliability Corporation (NERC) report on the February 2021 cold weather outages in Texas and the South Central United States described the event, the impacts and made recommendations. According to the report this event was the fourth cold-weather event in the last ten years to affect bulk electric system reliability. Cold weather caused problems that required rolling blackouts to avoid system instability and even worse problems for the electric grid. Given that the weather conditions that caused these problems occurred recently I am taken aback that resources were not devoted to preventing re-occurrence. Among the many recommendations two are relevant: “improving near-term load forecasts for extreme weather conditions” and additional study of “potential effects of low-frequency events on generators in the Western and Eastern Interconnections”.

In order to address this renewable resource variability problem, it is necessary to determine the worst-case meteorological conditions affecting wind and solar availability. As long as the NYISO and other agencies responsible for electric system reliability understand the worst-case renewable availability conditions they can plan to prevent low availability impacts. I submitted comments on the Draft Scoping Plan’s treatment of wind and solar resource availability and concluded that it was inadequate in this regard. I recommended that the State undertake a more comprehensive analysis of wind and solar availability to serve as input for future reliability planning. I have also been trying to get the NYISO and New York State Reliability Council to consider the recommendations I made for a comprehensive availability analysis. So far, I have not had any success getting a response.

Offshore Wind Power Profile Study

Despite my personal lack of success I was encouraged that the NYISO started a project in July to address offshore wind profile development. In particular, they plan to develop wind power estimates for the New York offshore wind development areas that will estimate resource availability for a 20-year period. I am going to highlight some of the slides in the presentation by DNV describing their work for the NYISO ICAP/MIWG/PRLWG Meeting on September 07, 2022. Note that all the slides are copyrighted to either NYISO or DNV and are labeled as draft for discussion purposes only. I am including a couple of slides to show what should be done on a more comprehensive basis for the Final Scoping Plan.

In my opinion, the critical consideration is the frequency, duration, and severity of periods when wind and solar resources are in “droughts” or low resource availability. I described several recent applicable papers in my comments describing analyses to estimate the frequency and duration of periods with those conditions. In order to provide a robust estimate of the wind and solar availability during worst case conditions I believe it is necessary to analyze as long a time period of historical meteorological data as possible. Fortunately, meteorological reanalysis descriptive data generated by modern weather forecast models but using observed data from decades ago is available for this application. This is exactly what DNV is proposing to do.

The DNV project description slide explains that they will use the historical data to generate detailed wind maps using a weather forecast model. This output is combined with their model that projects wind energy output as a function of wind speed. They are going to model wind energy production for seven potential development areas off Long Island and New Jersey.

The weather model slide describes their approach. They are going to use a forecast model that takes historical data and calculates wind speed and direction on an hourly basis. The inputs for their modeling include not only the observed meteorological data but also surface characteristics and surface temperatures. Note that the model inputs extend far beyond the offshore wind study area.

The presentation also includes slides on wind power modeling, wind turbine power curve output, and describes their validation analyses. They also described four different aspects that cause reductions in power output in their analysis. At some point I should compare their assumptions with those used in the Draft Scoping Plan. In order to minimize wake effects DNV is proposing 1 nautical mile spacing which seems higher than I have noticed elsewhere.

Discussion

I think that this analysis is a great start. I only have one concern relative to the scope of work. As far as I could tell the meteorological input data is available back to 1980. However, this project only goes back to 2000. I think it would be better to evaluate the 1980 to 2000 data specifically looking for wind droughts. I know there was a huge ozone episode in August 1988 that had to include very light winds. I have no idea how that period compares to “normal” but we won’t know because this analysis does not cover that period.

This analysis is entirely appropriate for the offshore wind resource. However, it does not address the onshore wind and solar resources. The same type of analysis has to be done for those resources covering not only the entire state but also the area where New York could expect to import power. Ideally, the ERA5 global reanalysis data base that goes back to 1950 should be used in the analysis to find the worst-case conditions. It is not necessary to determine the renewable power output over the entire period and region. Once the worst cases are identified then a power output model can be applied to those periods to determine how the electric system can be setup to avoid bulk electric supply disruptions.

It is my professional opinion that until this comprehensive renewable energy resource evaluation is completed that New York State will unnecessarily risk catastrophic blackouts. Because the worst-case resource availability is associated with the coldest or hottest periods, the loads are highest and the need to prevent blackouts most acute.

Climate Act Avoided Cost of Gas Working Group

There is an immense amount of work that needs to be done to implement New York’s Climate Leadership and Community Protection Act (Climate Act) “Net Zero” target (85% reduction and 15% offset of emissions) by 2050. It is very difficult to grasp all the different ways that this transition is going to affect all New Yorkers. Despite the lack of a reliability and affordability feasibility analysis an army of government bureaucrats are developing transition plans to change our energy choices assuming that everything will work out. This article talks about just one of those efforts.

Climate Act Background

The Climate Act established the Climate Action Council who is responsible for preparing the Scoping Plan that will “achieve the State’s bold clean energy and climate agenda”. They were assisted by Advisory Panels who developed and presented strategies to meet the goals. Those strategies were used to develop the Integration Analysis prepared by the New York State Energy Research and Development Authority (NYSERDA) and its consultants that quantified the impact of the strategies. That analysis was used to develop the Draft Scoping Plan that was released for public comment on December 30, 2021 and will be finalized in 2022. At the same time this process is underway various state agencies are already implementing regulations for the transition. The problem is that the Scoping Plan is just a guide and does not include a reliability feasibility analysis or any affordability specifics about the costs for the transition. Couple that with the fact that many New Yorkers are unaware of the Climate Act much less its implications suggest to me that this that public blowback will be immense when the realization of what is required becomes obvious.

Gas Planning Procedures

In order to explain what is going on I will provide background information for this example. The New York State Department of Public Service (DPS) Case 20-G-0131 – Proceeding on Motion of the Commission in Regard to Gas Planning Procedures “seeks to establish planning and operational practices that best support customer needs and emissions objectives while minimizing infrastructure investments and ensuring the continuation of reliable, safe, and adequate service to existing customers.” The Background for the order instituting the proceeding follows with my explanations:

Gas utilities in several regions of New York State have recently claimed supply constraints that may prevent them from accepting applications for new firm service. LDCs have invoked moratoria on new service connections in some locations, leading in some cases to customer hardships. In resolving the moratorium invoked by KEDNY and KEDLI, the Commission-adopted settlement requires those LDCs to develop a “Long-Term Capacity Report” to address the long-term capacity constraints affecting their operations.

This refers to gas utility load distribution company (LDC) issues. A footnote to this section explains that:

On January 17, 2019, Consolidated Edison Company of New York, Inc. (Con Edison) notified the Commission of a moratorium on new firm gas service in most of Westchester county, commencing March 15, 2019. Beginning November 2018, The Brooklyn Union Gas Company d/b/a National Grid NY (KEDNY), serving Brooklyn and parts of Queens, and KeySpan Gas East Corporation d/b/a National Grid (KEDLI) (collectively, National Grid) began informing large applicants for new service that National Grid would be unable to provide firm service unless a pending supply project was approved. As of May 15, 2019, National Grid stated that it would not fulfill applications for new firm service connections, or requests for additional firm load from existing customers on Long Island, including Queens and Brooklyn. Based on a settlement adopted and approved by the Commission, National Grid ended its moratorium as of November 26, 2019. Case 19-G-0678, Proceeding on Motion of the Commission to investigate Denials of Service by National Grid, Order Adopting and Approving Settlement (issued November 26, 2019); Case 19-G-0678, supra, Confirming Order (issued December 12, 2019). Additionally, New York State Electric and Gas Corporation (NYSEG) has declared a moratorium on new gas customer attachments in the Town of Lansing, in Tompkins County in February 2015.

In other words, there have been examples where people who want to hook up to natural gas have not been allowed to get service. This is the crux of the gas transition problem. The net-zero transition to natural gas alternatives means that at some point the choice to use natural gas will no longer be an option. The Background goes on:

These circumstances demonstrate that conventional gas planning and operational practices adopted by natural gas utilities have not kept pace with recent developments and demands on energy systems. Gas utilities need to learn from recent experience and adopt improved planning and operational practices that enable them to meet current customer needs and expectations in a transparent and equitable way while minimizing infrastructure investments and maintaining safe and reliable service. Additionally, planning must be conducted in a manner consistent with the recently enacted Climate Leadership and Community Protection Act (CLCPA).

Implicit in this is that customer choice will have to be limited. I do not believe that many New Yorkers understand that this transition is coming at them. The Background notes:

Moratoria can create adverse customer impacts, as they prevent at least some applicants from receiving firm gas service. Some types of development projects can utilize viable alternatives to firm gas service, if they are practically available. Others, however, may have more difficulty without firm gas service. Additionally, reliance on alternatives can have emission impacts. Reduced emissions impacts may result where the alternative to gas is efficient use of clean electricity, while increased emission impacts may result where the alternative to gas is oil or propane.

If viable alternatives were available, and by that, I mean affordable above all, then applicants would be choosing them willingly. I published a post describing the comments on the Draft Scoping Plan submitted by a small manufacturer in Rochester who replacing equipment that is powered by natural gas now would cost over a million dollars and said that his company could not afford that conversion. I will quote one last paragraph from the Background:

Given these potential impacts, the public interest demands that gas utilities provide information to and communicate with customers in a way that promotes effective customer planning, reduces confusion, and avoids inequities or the appearance of inequities. Similarly, the public interest demands that gas utilities provide information to and communicate with the Department, with other government entities and agencies, and with stakeholders, so as to promote effective planning and best consideration of alternatives, thus benefiting costs, emissions, and economic development.

What this means is that the DPS and gas utilities in the state are grappling with a tradeoff between providing safe and reliable natural gas to existing and new customers at the same time the Climate Act net-zero transition calls for the natural gas system to be shut down or transitioned to use something other than natural gas. A presentation at a recent meeting of the Avoided Cost of Gas Working Group offers some insight into the practical considerations that Albany bureaucrats are starting to deal with and are completely unknown to most natural gas consumers despite the public interest in this topic.

Avoided Cost Working Group First Meeting

On July 6, 2022 the Avoided Cost Working Group (ACWG) met for the first time. The presentation described the purpose of the group in the following slide. The Benefit Cost Analysis Framework Order required Department of Public Service staff to develop a white paper on benefit cost analysis. That process did not address gas industry issues. This workgroup is supposed to provide the Commission with a report describing recommended calculations and specific elements for each LDC, which will then be issued for comment from stakeholders.

The BCA white paper included the following list of benefit and costs components to be included in the framework. The workgroup will be adjusting the calculations for the gas industry but there are no plans for changes to the list.

The first meeting discussed the plan to address four main topics. They want to determine the avoided bulk system costs for the gas commodity, the costs necessary to meet peak loads and pipeline capacity costs. Another topic is avoided distribution costs for the high, medium, and low-pressure components of the pipeline system. There has been much discussion about the use of renewable natural gas and they want to determine what qualifies for that label. The final topic is the subject of leaks in the system. As monitoring technology has improved more leaks have been found and this has been a point of contention on the Climate Action Council.

Avoided Cost Working Group Second Meeting

The second meeting of the ACWG on August 4 included two presentations. The first presentation from the DPS staff discussed the typical non-pipelines alternatives process. This is another of the Climate Act magical solutions where an existing fossil-fuel service can supposedly be replaced by an alternative that will not affect reliability or affordability. National Grid provides a summary of the approach:

Non-Pipeline Alternatives (NPA) is the inclusive term for any targeted investment or activity that is intended to defer, reduce, or remove the need to construct or upgrade components of a natural gas system, or “pipeline investment.”

These NPA investments are required to be cost-effective compared to the infrastructure investment and are required to meet the specified gas system need. An NPA can include any action, strategy, program, or technology that meets this definition and these requirements.

Some technologies and methodologies that can be applicable as an NPA investment include demand-side measures, such as demand response, sewer heat recovery, advanced controls strategies, new business models, energy efficiency or electrification. Additional technologies may be feasible as a demand-side NPA. NPA projects can include these and other investments individually or in combination that meets the specified need. A benefit-cost analysis (BCA) will be used to determine the cost-effectiveness of the NPA project.

In my opinion there are a lot of assumptions and biases that can skew the NPA study to prove whatever the utility wants and, in order to survive and make their earnings targets, that will be what the PSC wants. The Administration’s response to public input leans to whatever constituency the Administration wants to please rather than what is best for the majority or the strength of adverse comments.

The DPS presentation outlined the process for a NPA study, reviewed the list of benefit and costs components and presented a list applicable to the natural gas system. I don’t think there is anything particularly controversial or, frankly, of interest to the general public.

The second presentation by staff from New York State Energy Research & Development (NYSERDA) and their consultant Energy + Environmental Economics (E3) described the work done to date in the Integration Analysis and Draft Scoping Plan. They gave an overview of the Avoided Cost of Gas (ACG) framework developed by E3 for NYSERDA and DPS in 2020, provided insights into other “Future of Gas” projects E3 has contributed to since 2020 , and presented key similarities and differences with the ACG framework.

The following slide is an overview of the approach. E3 has set up a model that quantifies avoided costs that will be used to eventually justify the transition of New York’s natural gas system to net-zero consistent with the Climate Act. At this time the framework has only focused on business-as-usual and has not been used to examine the impacts of the Climate Act. It quantifies the following avoided costs:

Upstream supply costs
Leakage rates and other losses
“Peak gas” value
Local avoided infrastructure costs
Avoided GHGs (methane and CO2)

The presentation describes the ACG framework approach. The following slide explains what the avoided costs results tell us. The costs include installation, program and fuel costs. The benefits include avoided utility costs and the alleged benefits of avoided greenhouse gas emissions. Noticeably absent, in my opinion, is consideration of added costs to customers. For example, the aforementioned small manufacturer in Rochester uses natural gas because it is the best alternative for his processes. Any alternative is going to add costs not included. In my case, I value natural gas because it is extremely reliable. In the 41 years I have lived in my home there never has been a natural gas outage. There were two long duration electric blackouts including one due to an ice storm that we survived because I can provide electricity to my furnace and keep the house warm. This approach ignores these impacts and benefits.

The presentation goes on to discuss cost shift analyses in the next slide that will “help understand longer term ratepayer impacts”. At this point transition complications start to become evident. If the utility avoided costs lead to bill savings, then no cost shift occurs. The slide explains that if customer bill savings are higher than avoided utility costs, a cost shift is likely to occur. In that case the first adopters make out by saving money but the ‘remaining’ ratepayers have to cover more system costs and will see their costs rise. It may be that avoided utility costs could be higher than customer bill savings so an “inverse cost shift” is likely to occur where ‘remaining’ ratepayers see bill decreases. However, the slide concludes that “With more customers switching to electrification, there is risk of significant cost shift” because “embedded costs will need to be collected from a smaller customer base”.

The next slide explains what the consultants want you to know about the avoided cost results. The avoided costs outputs show the monetized utility costs plus the carbon costs. They claim that significant non-monetized utility value may result from NPA projects but the examples shown are pretty weak in my opinion. They also claim that additional environmental value may also result, beyond what is captured by the social cost of carbon metric all the while ignoring that those costs are buried in the New York version of the social cost of carbon metric. Finally, they note that the avoided cost framework does not consider potential cost avoidance related to embedded system costs of existing infrastructure.

Of particular interest is the example given. After a long description of the values of the BCA approach for non-pipeline alternatives the thumb on the scale is evident. Even though the example NPA found a negative benefit cost ratio the utility went ahead and did it anyway! The BCA approach includes many value judgements despite its quantitative output. At the end of the day the State and the utility made more value judgements to justify going ahead to implement an alternative to adding natural gas infrastructure. The cited the following reasons. They claim that it will increase local reliability but that does not consider the fact that the natural gas system is much more reliable than the electric system. Going ahead may be consistent with Climate Act goals but that criterion suggests that all this is window dressing. The third rationale is that it “Supports Joint Proposal goal of no net increase in gas utilization”. I believe this is a specific component in the utility’s rate case settlement. If true it is incontrovertible proof that New York utilities are forced to meet specific Administration goals to get rate case approval. The final rationale is that it “supports local environmental advocacy”. This is blatant acknowledgement that political appeasement of a preferred political constituency is a consideration in development considerations and that any pretense that the methodology that is supposed to be used is just a sham.

The next slide describes the inter-relationships of cost shift impacts. I want to emphasize the two final points on the slide. There is a possibility that a “’feedback loop” may develop that could drive gas costs higher. In my opinion that kind of feedback is to be expected. It is telling that they admit that customer impacts may be inequitable without a transition strategy and that it will disproportionally affect those unable to switch away from gas (renters and low-income customers). So much for the environmental justice advocacy component of the Climate Act.

The presentation goes on to argue that a structured transition could help to mitigate these impacts. E3 presented results of an analysis for a similar transition program in Massachusetts. I am not going to discuss these results in this post. The bottom line is that they believe that the better approach going forward is to target customer transitions rather than just transitioning natural gas customer use as their appliances age out.

The following slide discusses the factors that affect the feasibility of the transition conversion away from natural gas. I think this is important particularly because this kind of discussion is not included in the Draft Scoping Plan. First there is a concession that the transition to “targeted electrification or networked geothermal hinges on several factors”. Because the natural gas system is inter-connected there are limitations on which segments that can be removed “without adversely affecting the safety, reliability or other operational parameters of the system”. Not surprisingly the consultant analysis keeps the customer satisfied by claiming that cost savings are achievable. However, the slide mentions two caveats relative to customer choice. If voluntary conversions are proposed “all consumers served by part of the gas system would need to accede to losing gas service”. The caveat is that the scale of the project drives the likelihood that there will be holdouts: “It may be possible to find 5 customers who are all willing to switch, 500 is likely a different matter.” The other alternative is to force customers to switch. In that case: “Barring widespread shifts in consumer preferences, the nature of LDCs’ obligation to serve existing customers may need to change, with implications for customer choice.” The second main point is that this feasibility analysis notes that there will likely be additional costs of decommissioning not captured in the analysis.

The slide also includes a highlighted section that asks the question “What do you need to “believe” in order for gas system conversions or cost avoidance to be achieved?” In order for this this to be feasible then the conditions described above have to be met. The other aspect is that “High levels of upfront planning and high levels of constructability & workforce availability” are needed. A study from Palo Alto Utilities also notes there will likely be workforce issues related to decommissioning work. That is a career with a built-in end date so training people for a short career might be a problem. Given that all of these conditions have to be met to achieve the goal I am skeptical that it will be successful.

Finally, the presentation described an alternative approach to the avoided cost framework. The Climate Act transition is a mandated large-scale customer transition described in a “Future of Gas” framework. The avoided cost of gas framework appears to me to be better suited for smaller scale transition components. Like it or not New York is stuck with a larger scale transition. The alternate framework evaluates long-term revenue requirement implications for such a transition, considers geographical constraints, considers long-term implications of large-scale customer transitions and can evaluate long-term cost shifts in the absence of regulatory measures. The presentation concludes that ca ombination of these two approaches may be useful.

Discussion

I have always maintained that a fundamental flaw in the Draft Scoping Plan is that it is just a guide and does not include a reliability feasibility analysis or any affordability estimate of the costs for the transition. The point of this article is that the extraordinary effort necessary for New York State to transition to net-zero is underway without that information. Despite the recognized need that providing public information is appropriate, there are many activities going on that are necessary for the transition but are proceeding without significant public oversight. In the first place there are so many components to the transition that no individual or outside organization can follow them all. Notice and documentation of the activities are buried in the DPS DMM: Matter Master that is not user-friendly even to professionals who follow these actions. Even if someone manages to find out about an activity and tracks down the description of the activity, trying to decipher what is in the jargon-filled reports is a challenge. They may be able to claim that there is publicly available information but reality is different.

This article described the transition activities of one aspect of the net-zero transition. In order to meet the net-zero transition targets major changes to the natural gas distribution system are needed. The Avoided Cost Working Group is trying to force fit the natural gas transition analysis into the same framework as was used for the electric system benefit cost analysis. The NYSERDA consultants have suggested that it may be necessary to also include another approach and it remains to be seen whether that will be considered. I get the impression the emphasis is on getting it done rather than taking the time to get it right.

Most importantly, it is clear that there are feasibility issues to the natural gas net-zero transition. The Scoping Plan is only intended to provide a framework for the transition but what if that framework isn’t feasible? With regards to the natural gas transition, the Draft Scoping Plan insinuated that the transition would occur as the appliances aged out. In other words, at some date owners would not be able to replace their broken appliances with a natural gas-fired option. However, it appears that the ACWG is considering options to transition certain segments of the network and is grappling with how to deal with the practical issues associated with that approach. I doubt very much that this will be the only situation where the Scoping Plan implied implementation approach does not past muster as a viable methodology.

I am also troubled by the overt manipulation of the analytical techniques to make them consistent with the Climate Act narrative. The framework analysis depends on a model that is large, includes many value judgements, and has so many variables that it can provide any answer that the Climate Action Council wants. For example, I believe that the modeling approach ignores the benefits of natural gas options and does not include the costs to replace it with other less reliable and affordable options which makes the transition conversion more beneficial than it actually will be. This bias is also evident in the application of the benefit cost analysis methodology. An example is given where the NPA calculation did not project that the benefits would out-weigh the costs. Nonetheless the utility went ahead and chose that option anyway. At some point the public has to ask what is the point of all this if you modify the rules to get the answer you want anyway.

Conclusion

The background for the DPS order for this effort states that “public interest demands that gas utilities provide information to and communicate with customers in a way that promotes effective customer planning, reduces confusion, and avoids inequities or the appearance of inequities”. There is no way that is happening at this time and all indications that it will not occur until it is too late for meaningful public input and the possibility of changing anything significant.

The Administration is controlling the implementation approach for the Climate Act’s net-zero transition. A fundamental assumption in the Climate Act is that this transition is only a matter of political will and there are people involved in this process that actually believe that is the case. This approach over-simplifies the problem and the solution. The lack of a detailed reliability and affordability feasibility analysis kicks the problem down the road. State agencies are rushing ahead to implement plans and regulations for the transition without taking into account this risk. Moreover, the analyses and processes for the implementation are biased and even if the results suggest that implementation now is premature, decisions are being made consistent with the narrative and not reality. I cannot believe that this won’t end badly.