With distributed energy resources (DER) playing a growing role in electric reliability, ensuring their protection from cybersecurity threats has become increasingly vital, the Texas Reliability Entity heard last week.
Rebekah Barber, a cyber and physical security analyst for Texas RE, says now is the time to look ahead at the threats this emergency technology will face. While she focused primarily on smart devices, Barber said DERs, whose deployments are expected to triple by 2025, will not be exceptions.
“These devices can pose a risk to the average network as these devices are typically not designed with security in mind,” she said during a Talk with Texas RE webinar Thursday. “Traffic is often not encrypted from these devices, default [administrative] passwords aren’t changed and sometimes, vendors don’t push out firmware updates or security patches.”
Barber said DERs may face “zero-day attacks,” when hackers exploit software flaws before developers are able to address them.
“While they are specifically targeted towards industrial systems, they prey on the vulnerabilities found in those newer technologies,” she said.
The threats don’t stop there, Barber said.
“As cybersecurity defenses have evolved, attackers have shifted their focus upstream to ‘contaminate the water,’ so to speak,” she said. “Attackers are now focusing more on trusted suppliers and vendors to add backdoors or weaken the overall security of products and services to gain access to an otherwise protected system.”
Barber cited the SolarWinds hack of 2020, in which the Texas software company sent an update to its customers that was infected with a malicious code. About 18,000 SolarWinds customers downloaded the update, unwittingly helping spread one of the largest cyberattacks against the U.S.
“Many companies, including some federal agencies, were affected by this attack, which gave attackers access to the victim’s network, and then from there allowed the attackers to compromise other systems,” Barber said.
She said protecting DERs should begin with a skilled and empowered security team and that “other best practices will naturally follow.”
They include: endpoint detection and response to understand what is being communicated with and to quickly respond to threats; a zero-trust model that verifies and authenticates every access attempt; encrypting communications between operators and resources to ensure confidentiality and prevent data tampering; and multi-factor authentication beyond passwords to strengthen user accounts and prevent unauthorized access.
Barber referred her audience to a report released last fall by the Department of Energy that gives a high-level overview of the expected cybersecurity challenges with DERs’ increased deployment in the coming years.
The report defines DERs as small-scale power generation, flexible load or storage technologies between 1 kW and 10,000 kW that can provide an alternative to or improve the traditional electric power system. They can be located on a utility’s distribution system, a subsystem or behind the customer’s meter. DERs may also include electric storage, variable generation, distributed generation, demand response, energy efficiency, thermal storage or electric vehicles and their charging equipment.
In 2020, NERC created the System Planning Impacts from DER Working Group (SPIDERWG) to address “key points of interest” related to system planning, modeling, and reliability impacts to the bulk power system .
GRAND RAPIDS, Mich. — This year’s Mid-America Regulatory Conference took notice of FERC’s recent set of interconnection rule changes.
Experts on an interconnection panel Aug. 7 were hopeful that the commission’s Order 2023 — meant to alleviate queue backlogs, give developers certainty and prevent discrimination against new technologies — will fix some of the problems plaguing queues (RM22-14). (See FERC Updates Interconnection Queue Process with Order 2023.)
“We know the symptom of the interconnection problem, but what’s the cure?” Iowa Utilities Board Commissioner and panel moderator Joshua Byrnes asked panelists in a room packed with attendees.
AEP Vice President of Transmission Planning Kamran Ali said he thought Order 2023 will result in “cleaner” interconnection queues, though the jury is still out on whether it will encourage more capacity to connect.
“We’re capacity-short in a lot of areas because load is pushing resource requirements up,” Ali said.
Clean Grid Alliance Executive Director Beth Soholt said FERC’s order is helpful to spur transmission providers to bring new generating capacity online and not simply be motivated to preserve the existing resources on the system.
“We’re talking about a lot of turnover. We have a lot of retirements; we must get a lot of megawatts through in a short amount of time. We have to look at both sides of the ledger. What can interconnection customers do, but what can MISO and transmission owners do? It’s not working well today,” Soholt said.
Enel North America’s Gina Mace said she was glad to see FERC placed emphasis on the commercial readiness of generation projects in Order 2023.
Mace also said queues “could see a lot of progress” if long-term transmission planning is co-optimized with interconnection planning. She said today’s transmission system is ill-suited to how scattered generation is becoming.
Soholt said in a perfect world, there would be that same comprehensive planning in MISO, in addition to many more engineers to study two cycles of entrants per year.
Soholt said transmission owners should communicate with interconnection customers earlier to signal whether proposed points of interconnection are feasible. She also said MISO is on the wrong track to propose to cap the number of megawatts annually that it will study. MISO has proposed to restrict queue submissions to a 60%-of-peak-annual-load (about 73 GW) annually, triple its entry fees and establish more rigorous land obligations and escalating penalty charges. (See MISO Aims for Manageable Interconnection Queue.)
“If you cap the megawatts, you’re going to have people lining up five years ahead just to enter the queue,” Soholt said, asking if that scenario is conducive to the rapid plans for a clean energy transition.
“The demand is there. We’ve got to get them through the process,” Soholt said.
Mace said MISO needs more realistic study assumptions, a clearer notifications process if withdrawing projects stand to affect other projects and a plan to somehow reduce the interdependency among projects in its studies.
Ali said interconnection customers want some certainty before they commit to securing land. However, he said the quicksilver nature of earlier queued projects and the potential for re-studies mean interconnection queues probably will continue to be synonymous with uncertainty.
MISO has said the majority of the requirements “appear to generally align” with existing MISO process. It said it likely must tweak timelines, requirements and nomenclature in its interconnection process to match FERC’s vision.
Ørsted last week provided an outlook and an update on its place in the U.S. offshore wind power market, where great business opportunities are balanced by significant near-term challenges.
The briefing came after the world’s largest offshore wind developer reported its second-quarter/first-half financials Thursday and published its investor presentation.
In the follow-up earnings call, CEO Mads Nipper was pressed by financial analysts on the situation off the Northeast coast, focus of the first phase of what is expected to be a massive U.S. buildout in decades to come.
Ørsted has achieved some significant positive milestones there in recent months:
Federal regulators gave Ørsted final approval for Ocean Wind 1 off the New Jersey coast. And the state allowed Ørsted to benefit from tax incentives previously reserved for ratepayers when it said it needed more money to proceed with the 1.1-GW project. Nipper said this will help the company progress to a final investment decision.
And off the Rhode Island coast, the turbine foundations and substation have been installed for South Fork Wind, which Nipper expects will be commissioned by the end of this year as the nation’s first utility-scale offshore wind farm.
But also in recent months, Ørsted has told New York it may not be able to go forward with Sunrise Wind 1 without more money.
Rhode Island shot down Ørsted’s proposal for Revolution Wind 2 as too expensive.
And New York invited Ørsted to resubmit lower bids for Sunrise Wind 2. (Other bidders in the state’s third solicitation were given the same option.)
Other developers and other states are having the same problems:
Avangrid has reached a deal to back out of power purchase agreements for Commonwealth Wind and is seeking a higher rate for Park City Wind.
Shell and Ocean Winds are trying to back out of their SouthCoast Wind PPAs.
Equinor and BP told New York they need more money to build Beacon Wind, Empire Wind 1 and Empire Wind 2.
Atlantic Shores wants the same help from New Jersey that Ocean Wind 1 received.
Developers cite surging material costs and rising interest rates. With the eventual income from these wind farms locked in place before costs started rising, the developers say they cannot obtain financing to build them.
Given this, and given that these projects each carry a price tag in the billions, the details are of particular interest to financial analysts.
Q & A
The following is a summary of some of the questions posed Thursday and Nipper’s responses.
Q: Do policymakers understand that they need to pay more to reach their offshore wind goals?
A: Generally, we are confident they will. But the challenges are not small, and it is good that the industry is showing financial discipline by pulling projects to make the point that prices need to increase and auction frameworks need to change.
Q: Is it time to rethink some of Ørsted’s final investment decisions on U.S. projects, given the stubbornness of regulators, and focus on new bids instead?
A: We are having good dialogues and see progress. So, we are still pursuing plans. We see no value in walking away from existing projects and pursuing new ones.
Q: What is your assessment of the U.S. offshore sector?
A: States’ ambitions are continually growing, and they are realistically considering what needs to happen to achieve those goals. President Biden’s target of 30 GW installed by 2030 is still within reach.
Q: What is your timeline for a final investment decision on the Northeast U.S. projects?
A: We are aiming for fourth quarter 2023 or very early 2024. We need clarity on investment tax credits for individual projects — final guidance has not been issued on domestic content. So, there is not a clear number on Revolution 1 or Sunrise 1. And we are still in discussion with New York on increasing offshore renewable energy credits for Sunrise 1, which is very important to that project moving forward.
Q: Why did New York invite developers to resubmit lower bids in the third solicitation?
A: The auction framework was quite complex, and we believe some of the other companies’ bids may not have been fully compliant. Ours was.
Q: So Ørsted is not going to rebid at a lower price?
A federal grand jury indicted an Idaho man last week after he allegedly damaged two hydroelectric dams in the state this year, interrupting their service and causing what prosecutors say was over $200,000 in damage.
On June 8, Randy Scott Vail of Meridian, Idaho, shot the Hells Canyon Dam with a firearm, the day before also shooting at the Brownlee Dam, according to the indictment, released Tuesday. Both dams are operated by Idaho Power and provide electricity to customers in Washington, Idaho and Oregon.
Vail was already facing multiple felony charges in state court, having been arrested by the Washington and Adams County sheriff’s offices June 9. A statement from the Adams County sheriff credited law enforcement from two additional counties with helping in the arrest.
Local media, citing the Idaho criminal complaint and probable cause filing, reported that deputies were called to Brownlee Dam around 12:30 a.m. June 9 in response to reports that a man on a white motorcycle had fired shots there and at the Hells Canyon Dam. The deputies spotted a white motorcycle leaving the scene and followed it, leading to a high-speed chase. At one point, the driver reached 80 mph in a 20-mph zone.
When Vail eventually stopped, the deputies found a case on the motorcycle holding two rifles; they also found bolt cutters and cans that appeared to contain gasoline. The state charges against him include attempting to elude an officer and malicious injury to property. Online court records indicate that Vail was committed to custody June 9, with bond set at $250,000.
In a press release, Josh Hurwit, the U.S. Attorney for Idaho, said the shooting caused “significant interruption and impairment of a function of” both dams, with damage to each in excess of $100,000. The Adams County sheriff’s statement said nobody was injured in the incident and no customer outages were reported. The federal charges carry a maximum penalty of 20 years in prison.
The shooting at the dams is the latest in a series of recent violent attacks against U.S. electric infrastructure. Previous incidents include the Dec. 3 gunfire attack on two substations in North Carolina that left 45,000 customers without power for days; no suspects have been identified in the attack. (See FERC Orders NERC Review on Physical Security.) Later in December, police in Washington state arrested two men after they allegedly damaged several electric substations; one of the men later claimed they were trying to disrupt power as part of a robbery plan.
Domestic extremists have become increasingly interested in damaging the grid as well. This year, the Justice Department charged neo-Nazi leader Brandon Russell and one of his followers with planning to disable substations around the Baltimore area in hopes of cutting off power to the city and provoking a race war. (Feds Charge Two in Alleged Conspiracy to Attack BGE Grid.) The Department of Energy released a report in February showing incidents of deliberate physical damage to bulk power system facilities rose by 77% in 2022.
FERC has responded to the growing threat of violence by ordering NERC to review its physical security standards, which the ERO did in a report issued in April. The report was followed by a joint technical conference at NERC’s headquarters in Atlanta on Thursday in which attendees discussed the needs and costs of implementing security at vulnerable facilities. (See FERC, NERC Conference Addresses Security Challenges.)
FERC last week granted one of three claims against Public Service Company of Colorado (PSCo) in response to cooperatives’ complaints that they were charged $17.5 million in excessive gas costs during Winter Storm Uri in 2021 (EL23-21).
The commission said four PSCo customers (CORE Electric Cooperative, Grand Valley Rural Power Lines, Holy Cross Electric Association and Yampa Valley Electric Association) were able to prove they are entitled to review a baseload contract under the utility’s fuel protocols. It directed PSCo to make the contract available to the complainants, subject to a protective order.
The cooperatives said they were charged $17.5 million for extra fuel costs during the storm.
The utility’s fuel protocols provide that PSCo will make available to any wholesale fuel adjustment clause customer “books and records” related to the clause’s provisions and protocols. The Xcel Energy subsidiary argued the term “books and records” does not include the baseload contracts because the contracts are not the actual inputs for the fuel costs that are calculated and charged to the cooperatives under the fuel adjustment clause.
PSCo contended that the invoiced amounts charged under the baseload contracts, which it had already turned over to the cooperatives, were relevant because the information is necessary to understand how the charges were calculated. FERC found the argument to be unpersuasive, saying the utility did not cite any fuel protocol language indicating that “books and records” is limited only to “fuel cost inputs.”
The commission denied two other complaints by the cooperatives: that PSCo “imprudently” planned for its natural gas reserves and passed on excess costs from spot market purchases in February 2021 and that it acted imprudently and in a preferential manner by selling excess gas to an affiliate during the storm. FERC said the complainants had not presented sufficient evidence to meet their initial burden for those claims.
The commission also denied without prejudice the complainants’ request for relief from a Dec. 31, 2022, tariff deadline to raise questions concerning the fuel adjustment clause charges. They alleged PSCo violated its filed rate by withholding information, negating a further challenge to the charges, but FERC found the request to be “premature at this time.”
Projects in Louisiana and Texas have been chosen as the first two direct air capture (DAC) hubs to receive up to $1.2 billion in funding from the Infrastructure Investment and Jobs Act, the Department of Energy announced Friday.
The South Texas DAC hub and the Project Cypress DAC hub in Louisiana “are going to build regional direct air capture hubs, and that means they’re going to link everything from capture to processing to deep underground storage, all in one seamless process,” Energy Secretary Jennifer Granholm said during a Thursday press call.
Granholm described the technology as “essentially giant vacuums that can suck decades of old carbon pollution straight out of the sky, and once you harness that pollution, we can trap it permanently underground, or we can turn it into building materials … agricultural products or even clean fuels.”
Combined, the Texas and Louisiana projects are expected to take more than 2 million metric tons of carbon dioxide out of the atmosphere per year, “like taking nearly half a billion gas-powered cars off the road,” she said. “These hubs are going to help us prove out the potential of this game-changing technology so that others can follow in their footsteps.”
Mitch Landrieu, White House senior advisor and infrastructure coordinator, said the projects are “the first direct air capture projects at this scale in the United States and will be the largest in the world.”
Occidental Petroleum and its carbon-capture subsidiary 1PointFive are developing the South Texas DAC hub on 106,000 acres at King Ranch, an agribusiness ranch and farm that is larger than the state of Rhode Island, according to its website.
The project will use technology developed by Carbon Engineering Ltd. of British Columbia that “draws air into a facility using a series of large fans” and separates out the carbon via a chain of chemical interactions, as described on the 1PointFive website. The carbon, in liquid form, can be compressed and stored underground or processed to be used as feedstock for other products.
Battelle, a technology developer that manages seven of DOE’s national labs, is leading the Project Cypress DAC hub to be located on the Gulf Coast in southwest Louisiana. The company is partnering with two carbon capture companies — Climeworks Corp. and Heirloom Carbon Technologies — with the intention of combining their different technologies. Climeworks uses fans, filters and heat to capture carbon, while Heirloom has developed a process to absorb CO2 using limestone.
The two projects are the first of four DAC hubs to get a slice of the $3.5 billion the IIJA provided to develop the technology at commercial scale. Noah Deich, deputy assistant secretary of DOE’s Office of Carbon Management, said the two projects were chosen based on a rigorous review of their technical readiness, financial viability, and community benefits plans.
DOE has provided early funding of $3 million to $12 million to 19 DAC projects still in development, with the goal of getting ready to compete for the other two hub awards, he said.
“It will be a bit before we open up the funding,” Deich said in an interview with NetZero Insider. “It’s intentional so that we can let this direct air capture field catch up, and we don’t want to lock in any one technology that happened to get a head start. We really wanted diversity of technology approaches, a diversity of business models [and] geographies.”
Getting to Scale
Direct air capture, like carbon capture, has raised concerns and skepticism among some environmental groups, which have pointed to its expense, high power requirements and its potential use for enhanced oil recovery. At the same time, it has garnered strong support from lawmakers from states with a long history of fossil fuel production, including Sen. Joe Manchin (D-W.Va.).
Kelly Cummins, deputy director of DOE’s Office of Clean Energy Demonstrations, said that neither of the DAC hubs will use captured carbon for enhanced oil recovery, a process in which carbon dioxide is injected into low-producing wells to increase their output.
Asked about the power source for the Louisiana project, Lewis Von Thaer, CEO of Battelle, said the company would be buying clean energy from the local power provider to start, but intended to build renewable energy for the project later.
Both Occidental and Battelle have to match the IIJA funds dollar for dollar, but they stand to benefit from the $180 per ton tax credits for DAC in the Inflation Reduction Act. Still, for first-of-a-kind projects, DOE is encouraging the hubs to develop additional revenue streams, if necessary, to ensure they are financially viable, Deich said.
He pointed to the “voluntary market” for carbon removal offtake agreements, such as 10-year agreement Climeworks signed with Microsoft in July 2022, to take 10,000 tons of CO2 out of the atmosphere on the software giant’s behalf.
“There’s greater demand than supply, and these projects will be really critical for helping to fill that gap once they do start to come online,” Deich said. Such agreements also will be vital to help the early demonstration hubs get to commercial scale, he said.
Echoing Deich, Madelyn Morrison, government affairs manager for the Carbon Capture Coalition, hailed the announcement of the two hubs as an important step “to help realize economies of scale and support the decarbonization of the American economy. As such, today’s announcement provides major headway to kickstart the deployment of large-scale DAC projects as well as to foster the development of promising earlier-stage efforts.”
ATLANTA — In his opening remarks at Thursday’s joint FERC–NERC technical conference on physical security, FERC Chair Willie Phillips reminded attendees that “it is not a matter of if, but when there is another attack” on North America’s electric infrastructure.
Phillips’ attendance at the conference, held in NERC’s headquarters in Atlanta, was intended to demonstrate the seriousness with which the commission takes the growing threat of violence against the grid. FERC and the ERO organized the technical conference following NERC’s April report on its physical security reliability standards and recent physical security incidents, including the Dec. 3 gunfire attack on two substations in North Carolina that left 45,000 customers without power for days. (See NERC Says Changes Coming to Physical Security Standards.)
“I thought that it was important that I be here to help kick things off, because I want to underscore a couple of things,” Phillips said to the audience. “One, how important this dialogue is; and [second], we can’t do this alone. NERC can’t do this alone. No one entity can do what we need to do to protect the integrity of the [grid] from physical security attacks. … That’s why we’re here today.”
The goal of the conference was to discuss potential improvements to NERC’s reliability standards — particularly CIP-014-3 (Physical security) — in addition to other actions that registered entities can take to improve grid security.
NERC CEO Jim Robb noted that more than 1,200 people were watching the meeting online, in addition to those in the room. He said the size of the audience showed “the breadth of interest, both in the topic and the importance of getting this right.” He emphasized that any grid security solution must take the reality of utilities’ limited resources into account.
“Nobody wants to have an entity have to construct Fort Knox around a bag of pennies,” Robb said. “At the same time, we also have to be cognizant about the difference between the money that we spend to protect versus the money we spend to be able to recover, and recover quickly. And I think, given the sprawling above-ground physical nature of the electric system, that’s a really important balance to keep in mind when we think about physical security of our infrastructure.”
In the first panel, speakers focused on CIP-014-3, which aims to “identify and protect transmission stations and transmission substations, and their associated primary control centers, that if rendered inoperable or damaged [by] a physical attack could result in instability, uncontrolled separation or cascading within an interconnection.”
Jamie Calderon, a manager of standards development at NERC and contributor to the ERO’s April report on grid security, briefly described its conclusions. The report found that the standard’s applicability criteria are effective to “focus limited industry resources” on the most critical facilities and did not need to be expanded; however, the ERO also found that utilities’ approaches to some studies required by the standard are inconsistent because its wording is unclear.
Lawrence Fitzgerald, director of security and emergency management at engineering consultancy TRC, said that CIP-014-3 has “done a good job” identifying sites critical to grid security. However, he said the standard could be improved, asserting that some of its requirements seem to require utilities to certify the compliance of facilities that haven’t even been built yet.
“We get put in an awkward position for facilities, substations and control centers that are only on the drawing board. They don’t exist yet. It can’t cause a cascading outage,” Fitzgerald said. “But we’re being asked to … certify that everything’s copacetic and working well. I can’t do that if I don’t know what the connectivity between the substation and the monitoring center is, [or] if I can’t see a camera view or know how a facility is actually going to look on the ground.”
Mark Rice, senior power engineer at Pacific Northwest National Lab, observed that there is a longstanding divide between operational staff, who “care about the next 24 hours,” and those involved in planning who think “five, 10, or 15 years out.” He said “there probably needs to be a better conversation” between those who are responsible for evaluating risk at these different scales.
“I know [from] talking to some utilities at the transmission level, they have no clue what the load is, and they don’t know that it’s identified as critical to someone downstream,” Rice said. “And so we have to get that information into our systems or into our evaluations before I can do the next step of evaluating risk.”
Cool on Mandatory Minimums
Participants in the second panel discussed whether NERC should mandate minimum resiliency or security protections against physical attacks at critical facilities.
Jackie Flowers, director of Tacoma Public Utilities — which suffered a coordinated attack last December as two men damaged several substations as part of a robbery plot — expressed skepticism about establishing mandatory minimum protections. (See Wash. Sabotage Suspect Pleads Guilty.) She said resiliency would be better served by allowing utilities the flexibility to address the myriad different challenges that could apply at each site.
“We believe that a uniform, bright-line set of physical security measures is unlikely to offer as effective of an approach, because of the very site-specific conditions and varied risks that we have from infrastructure to infrastructure,” Flowers said. “So it’s very important that utilities are at the table and part of identifying what those risks are.”
Flowers’ fellow panelists agreed. Mike Melvin, director of corporate security and corporate and information security services at Exelon, emphasized that “you’re never going to get that risk [of physical attack] down to zero.”
Melvin pointed to the arrests earlier this year of neo-Nazi leader Brandon Russell and one of his followers for plotting to attack substations operated by Baltimore Gas and Electric (an Exelon subsidiary) in hopes of starting a race war. (See Feds Charge Two in Alleged Conspiracy to Attack BGE Grid.) He suggested that Russell’s plot, which was based on publicly available information on the utility’s facilities, showed that “where there’s readily [available] information out there, you can never pull it back in.”
Rather than mandatory minimum standards, the panelists suggested that robust information sharing networks, both among utilities and with law enforcement, are key to foiling physical attacks and sabotage before they escalate into disaster. Flowers endorsed the Electricity Information Sharing and Analysis Center as a way for utilities to update their peers on the latest physical and cyber security threats.
Panelists in the afternoon session — the theme of which was “Solutions Beyond CIP-014-3” — agreed the standard should be considered a baseline for physical security rather than an end goal in itself.
Scott Aaronson, a senior vice president at Edison Electric Institute, warned against a one-size-fits-all approach to physical security, noting that threat actors are increasingly sophisticated.
“I’ve said it before — you protect diamonds like diamonds and pencils like pencils, and what [are] the crown jewels [is] going to continue to change,” Aaronson said. “So I think open dialogue about understanding where those truly critical nodes reside, and how best to protect them and/or ensure redundance and resiliency and opportunity to recover is going to be key.”
Aaronson echoed earlier panelists’ calls for information sharing, while warning against letting that crucial data spread outside the industry. He raised the chilling prospect of a map of critical substations appearing “on the front page of The Wall Street Journal.”
Vinit Gupta, vice president at ITC Holdings, recommended holding regular penetration tests in which a third party attempts to break into a facility and cause simulated damage. He said that in one case, testers found several vulnerabilities at his company using techniques found in videos on YouTube, or cheap devices purchased on Amazon.
“You’d be surprised to see that you can buy a $10 device and do some of those [threatening] activities,” Gupta said. “So when we looked at some of the recommendations … that actually prompted us to reevaluate our approach, with physical access control systems and video monitoring systems. And we’re right now in the middle of replacing that and looking at where we go from here, because the threat landscape continues to change.”
The Department of Energy on Thursday proposed a set of rules to streamline the federal permitting of certain onshore electric transmission projects.
CITAP, the Coordinated Interagency Transmission Authorization and Permits program, would establish a two-year timeline for federal review of transmission proposals. It would set deadlines for permits and authorizations but also seek to ensure local communities, tribes and other stakeholders have an opportunity for engagement, DOE said in a news release.
DOE’s Grid Deployment Office would administer CITAP and is seeking public comment on the Notice of Proposed Rulemaking issued Thursday.
CITAP would be one response to a pressing issue — the lengthy process for adding the infrastructure that is critical to greater electrification of the U.S.
Many clean energy projects proposed nationwide are slowed, stalled or even canceled because of the time and cost of securing interconnection. A 2022 DOE report found more than 930 GW of generation and more than 420 GW of storage in transmission queues nationwide.
That will increase as fossil fuels are replaced with electrons. DOE said independent estimates find that transmission capacity will need to increase 60% by 2030 and perhaps triple by 2050.
The CITAP proposal grows from a May 2023 memorandum of understanding signed by DOE and eight other federal agencies. DOE draws its authority to lead the process from Section 216(h) of the Energy Policy Act of 2005.
CITAP would not replace state or local permitting, nor would it circumvent any federal laws. Instead, it seeks to streamline the regulatory portion of a process that can extend more than a decade from start to finish.
Under the proposed rulemaking:
DOE would identify all entities with a role in a given transmission project, lead an iterative process to ensure the developer’s applications for federal authorization are ready by the binding timelines to be established and work with relevant agencies to prepare a single environmental review document for use by all of the federal entities with oversight on the project.
Developers would have to participate in an integrated interagency preapplication process that would provide a uniform mechanism for them to identify constraints and opportunities, gather information, engage with local stakeholders and prepare a plan for public engagement throughout the life of the project.
And there would be a standard schedule for all of this to unfold — DOE produced a draft version as part of the proposal. The schedule would be a template, however, not a rigid timeline. Each proposal would receive a project-specific schedule factoring in location, scope and potential impacts.
Reaction
Clean energy industry and advocacy organizations welcomed the proposal, as far as it goes.
“ACEG strongly supports DOE’s action to improve coordination and transparency in the federal permitting process,” said Christina Hayes, executive director of Americans for a Clean Energy Grid. “Implementing a one-stop-shop for agency reviews and setting strict deadlines for this process will represent a fundamental leap forward from the current system, which requires applicants to juggle each agency’s timeline separately and can sometimes delay a project by years. The nation needs more transmission, and we need it as soon as possible to improve electric reliability and lower costs for American households. This rule will get us closer to the finish line.”
“ACP appreciates DOE’s efforts to streamline the process for permitting transmission lines, and we look forward to reviewing and commenting on the proposed rule,” said American Clean Power Association Vice President of Markets & Transmission Carrie Zalewski. “While this is a positive step, it’s critical that Congress build upon these actions and tackle comprehensive, meaningful permitting reform that, among other things, improves the permitting process for high-impact transmission lines.”
“Transmission developers are facing inefficient and lengthy review processes to getting projects permitted and approved, leading to increased costs and delayed timelines,” said Caitlin Marquis, managing director at Advanced Energy United. “Electric transmission lines are the essential backbones of our power grid, and building more transmission leads to lower energy costs and improved grid reliability. A more efficient permitting program that maintains essential review processes will provide more certainty for developers and support a stronger, more resilient power grid.”
The Treasury Department on Thursday issued final guidance on IRA tax credit adders of 10 to 20 percentage points for clean energy investments in underserved communities.
A total of 1.8 GW of qualified wind and solar projects rated at less than 5 MW will be allowed to participate in 2023 in the Low-Income Communities Bonus Credit Program.
This breaks down to 700 MW to facilities in low-income communities, 700 MW to facilities that provide at least 50% of their financial benefits to lower-income households, 200 MW to facilities on Indian land and 200 MW to facilities that are part of federally subsidized residential buildings.
Eligible wind and solar facilities built in low-income communities or on Indian land can receive a 10 percentage-point increase. Those that are installed on a qualified low-income residential building or that provide at least half their output to low-income households can receive a 20 percentage-point increase.
The Internal Revenue Service may reallocate capacity between these categories if any become oversubscribed.
Any unclaimed allocations will roll over into 2024, when applications will be accepted for another 1.8 GW of capacity.
The application process will open in early autumn and is expected to continue through early 2024, depending on the level of response.
The bonus credits seek to direct some benefit to disadvantaged communities as the Inflation Reduction Act prompts spending of hundreds of billions of dollars on the clean energy transition.
Specifically, the credits are intended to reduce energy costs, support small-business growth, improve air quality and create good-paying clean energy jobs in low-income communities, Treasury said in a news release.
These same communities often have suffered negative health or environmental effects from fossil-fuel combustion combined with a general shortage of economic opportunities, Treasury said.
The Section 48(e) bonus credits announced Thursday are in addition to the investment tax credits available to energy projects of less than 5 MW under Section 48 of the Internal Revenue Code.
The Department of Energy’s Office of Economic Impact and Diversity is helping administer the program with Treasury and the IRS.
DOE has created a landing page for the program on its website and soon will create an application portal and user guide.
The Department of Housing and Urban Development has posted median family income data that will be used to calculate eligibility for some of the credits.
The North Carolina Utilities Commission on Tuesday approved a new tariff that will allow Duke Energy to rent charging infrastructure to customers.
Under the Electric Vehicle Supply Equipment (EVSE) tariff, Duke will install Level 2 EV chargers and charging infrastructure for residential and non-residential customers, and fast-charging systems for non-residential customers on its system. The utility will offer five options for both Level 2 chargers and fast chargers.
Customers at both levels will be charged only for Duke’s investments on their side of the meter with contracts ranging from three to seven years.
NCUC’s Public Staff and third-party firms who offer EV charging infrastructure on a competitive basis questioned whether Duke’s tariff overstepped its monopoly franchise and might chill investments from other parties in its territory.
ChargePoint noted that the private sector already offers similar programs where customers can get EV chargers installed without buying the equipment.
“The private sector offers many different business models and products to provide turnkey solutions for site hosts, coordinating all aspects of the charging experience from installation to operation and maintenance, including solutions for site hosts that are not seeking to own or operate their own charging equipment,” ChargePoint told the regulator.
Duke noted that its EVSE tariff will be completely paid for by participants in the program, not all ratepayers. The charging hardware and networks will come from existing and future market participants, removing barriers to EV adoption and allowing customers to choose from multiple vendors.
Issues around competition for charging infrastructure came up when earlier pilot-scale programs were before the NCUC, and it did not close the door on Duke participating in the mature market. For example, last year it approved a “make ready credit” where Duke pays customers a credit based on increased revenues from the next three to five years of EV ownership so they can defray the cost of wiring and other improvements needed to install chargers.
“The commission concludes that there is a proper role in serving the public convenience and necessity for Duke’s involvement in offering a voluntary tariff for ratepayers who want the option of leasing EV equipment and leaving the maintenance of such equipment to Duke,” the order said.
Limited involvement from Duke’s utilities will be beneficial in gauging public interest in more charging options, as well as obtaining data on charging practices and alternative rate structures.
“The commission’s challenge is to allow the availability of such options for ratepayers while balancing the need to avoid dampening the competitive market,” the order said.
The previous programs authorized for Duke were temporary and the NCUC said it will review the EVSE in three years to determine if it should be continued, amended or discontinued.
While the question of whether Duke will continue offering actual charging equipment will be revisited, the utility is planning for an increase in load as more customers buy plug-in cars, its Managing Director of Grid Systems Integration Jay Oliver told the state’s Energy Policy Council’s Energy Innovation Committee at a meeting Thursday. The council is run out of the Department of Environmental Quality and advises the legislature and governor on energy policies.
The firm’s next integrated resource plan will include load growth from EV adoption, which can be handled easily by Duke’s generation and transmission system. The key to avoiding any issues is load management, which Duke has plenty of experience with.
“What we’ve learned is that simple load management programs for vehicle charging work very well,” said Oliver.
Without any price signals to the contrary, customers tend to charge their vehicles in the late afternoon and early evening, which works in the winter, but coincides with the peak demand hours during the summer, said Oliver. Simple load management programs can shift that charging to 9 p.m. and later.
Load management also can help address charging demand at public sites like offices where customers would plug in during the morning, which presents issues in the winter when demand is high earlier in the day, said Oliver.
The new demand from EVs is going to require some upgrades to the distribution system, where a typical transformer serves five to eight customers.
“When you add a Level 2 charger to your home, essentially, you have just doubled the demand that that home could draw,” Oliver said.
Level 2 chargers operate at 240 volts and typically take about two hours a day to charge a vehicle’s battery, which means Duke can shift the charging times around to avoid overburdening its distribution circuits and minimizing the amount of upgrades it will need to make to accommodate new demand from vehicles.
Public chargers are going to have less flexible demand as they will be used whenever consumers show up and plug in their vehicles, said Oliver. North Carolina alone should have 140 to 200 sites planned by its Department of Transportation, said Oliver. Those are going to require more transformers to support, and it can take utilities 12 to 18 months to procure those now.
Fast-charging sites do not take up much physical space, but their effects on the power system are much greater.
“But from an electrical load perspective, think about a Harris Teeter, or maybe even a Walmart,” Oliver said. “That’s what the load of these things are.”
Electrification makes sense for many fleets of vehicles such as those operated by shipping firms or Amazon, but one issue is that fleets often park close to each other. So, when firms start to adopt EVs for the fleets, that could require even bigger upgrades such as new substations, Oliver said.
“We’re having to get, we believe, three to five years in advance to serve these locations appropriately,” he added. “And we’re working on all of that now — putting capacity projects into place so we can actually go and do those upgrades ahead of time so we’re there when the demand comes.”