energy

Floating Fans in the Ocean: Recognizing the Significance of Maine’s Recent Bill Regarding Offshore Wind Development Projects

Peter Lyon, MJLST Staffer

Recent efforts in Maine have continued the push for developing sustainable energy sources, specifically including offshore wind energy projects in the Gulf of Maine. Offshore wind projects have captured other coastal states’ and the federal government’s interest for quite some time, though the industry is not well developed due to several practical setbacks and pushback from different stakeholders. Maine has the potential to be a leader in this area, as a bill it passed in July lays more of the groundwork for developing offshore wind energy projects, calls attention to the development of innovative technology, and implements means to adequately address the interests of relevant stakeholders.

“An Act Regarding the Procurement of Energy from Offshore Wind Resources

Maine Governor Janet Mills signed a bill in July to further the development of offshore wind energy projects in the Gulf of Maine, making several amendments to a previous bill and enacting six additional sections.[1] One of the major changes includes declaring a new wind energy goal of three gigawatts of installed capacity by December 2040. This could meet approximately fifty percent of Maine’s anticipated electricity needs at that time.[2] This goal is different from Maine’s unmet 2009 goal of two gigawatts of installed capacity by 2015 and is likely attributable to supply chain issues, higher interest rates, and the rising prices of materials.[3]

To facilitate its three gigawatts by 2040 goal, the bill establishes a process for competitive contracting by requiring the solicitation process and project proposals to be consistent with the Maine Offshore Wind Roadmap issued in 2023,[4] which emphasizes five key topics.[5] It also includes sections pertaining to offshore wind power transmission, supporting the development of port infrastructure and innovative technologies. This may include technologies such as floating or bobbing platforms because the Gulf of Maine is too deep for fixed-structure turbines[6] and storage capacity technology such as large batteries, which would maximize the amount of energy that can be used as it is needed.[7]

The bill also expands the minimum number of advisory board members of the Offshore Wind Research Consortium – a collaborative research initiative created by the bill – from seven to twelve members to reach a wider stakeholder audience. The new advisory board member requirements include adding the “Commissioner of Inland and Wildlife” (or the commissioner’s designee), “at least one individual who is a member of a federally recognized Indian tribe” in Maine, “two individuals with expertise in marine and wildlife habitats,” and “at least one individual with experience in commercial offshore wind power development.”[8] The bill also requires the opportunity for public comment during the project solicitation process.

Engaging with relevant stakeholders at this early stage allows the Consortium’s research to explore and mitigate risks in offshore wind development projects such as the potential negative impact on commercial fishing, species degradation, and harm to ecosystems. These kinds of concerns mirror much of the resistance to offshore wind projects, non-specific to the Gulf of Maine, and the bill emphasizes specific actions to answer them.

Addressing Stakeholder Concerns

Calls for offshore wind energy development have been met with pushback from multiple stakeholder groups, including Native American tribes, members of the commercial fishing industry, and local residents. These and other stakeholders voice concerns about environmental, economic, and social issues. For example, some people argue that installing offshore wind farms could disrupt key fishing and lobstering grounds, which generate more than $1.5 billion for Maine’s economy.[9] This disruption could happen by changing fish migration patterns, changing water temperatures by running large electrical cables onshore, and limiting fishers’ ability to access fishing grounds due to turbine structures being in the way.[10] Another concern is that animals, like the Eastern red bat and other bat species, are vulnerable to flying into wind farm structures.[11] Others simply worry that installing offshore wind farms will disrupt the environment’s natural beauty, as wind farms will be a sort of visual pollution.

In addition to seeking input from relevant stakeholders, the new bill anticipates these kinds of risks and includes specific actions to avoid or mitigate them. The Offshore Wind Research Consortium funds will now also be used to “support conservation that supports species and habitats impacted by offshore wind development,”[12] including research that aims to “avoid or minimize the impact of floating offshore wind power projects on ecosystems and existing uses of the Gulf of Maine.”[13]

Proposals for the development and construction of offshore wind projects must include a “fishing communities investment plan” which “supports innovation and adaptation in response to environmental change, shifting resource economics, and changes in fishing practices associated with offshore wind power development.”[14] Proposals given priority are those that are outside critical fishing and lobstering areas, provide employment and contracting opportunities to people from disadvantaged communities, provide financial or technical support for research regarding wildlife, fisheries, and habitats impacted by offshore wind development, or promote hiring Maine residents and affected community members.[15] Under the bill, proposals must seek to minimize an offshore wind project’s impact on the environment’s visual and scenic character.[16]

The Current State of Offshore Wind Development in the U.S.

Maine is not the only jurisdiction pursuing offshore wind development projects. Most of the locations for offshore wind projects are in federal waters, which means that they often require permits issued by the Bureau of Ocean Energy Management (BOEM), which is housed in the Department of the Interior.[17] The federal government has allocated floating wind leases and has a goal to meet fifteen gigawatts of installed capacity by 2035.[18] Projects are underway in Maine, California, and Oregon, with more in the pipeline.[19]

Maine has the potential to be a leader in offshore wind development projects as its bill passed in July demonstrates the importance of engaging relevant stakeholders, conducting research to avoid or mitigate negative environmental impacts, and prioritizing developments that show commitment to social values. It also emphasizes the role of innovative technology like floating turbines, which are especially relevant because about eighty percent of the world’s offshore wind resource capacity is in locations not well-suited for fixed structures.[20] Offshore wind projects can spur economic growth[21] and contribute to the procurement of sustainable energy while decreasing reliance on non-sustainable sources like fossil fuels. Other jurisdictions should look to Maine’s bill as a great start in the early development of an industry with enormous potential.

Notes

[1] 2023 Me. SP 766.

[2] Maria Gallucci, Maine to go all in on offshore wind, Canary Media (July 25, 2023), https://www.canarymedia.com/articles/wind/maine-to-go-all-in-on-offshore-wind.

[3] Id.

[4] Maine Offshore Wind Roadmap Advisory Committee, The Maine Offshore Wind Roadmap, State of Maine Governor’s Energy Office (February 2023), https://www.maine.gov/energy/sites/maine.gov.energy/files/inline-files/Maine_Offshore_Wind_Roadmap_February_2023.pdf.

[5] Maine’s Offshore Wind Roadmap, State of Maine Governor’s Energy Office, https://www.maine.gov/energy/initiatives/offshorewind/roadmap (last visited Nov. 6, 2023) (stating the Roadmap’s objectives include “supporting economic growth and resiliency, harnessing renewable energy, advancing Maine-based innovation, supporting Maine’s seafood industry, and protecting the Gulf of Maine’s ecosystem.”).

[6] Heather Richards, Gulf of Maine wind could power 100% of New England—Report, E&E News (Oct. 31, 2023), https://subscriber.politicopro.com/article/eenews/2023/10/31/gulf-of-maine-wind-could-give-new-england-a-power-jolt-report-00124295.

[7] Id. (“Offshore wind from the Gulf of Maine could satisfy 72% of New England’s power demand but battery storage is critical; without the right storage capacities, offshore wind could only meet approximately 37% of New England’s needs.”).

[8] 2023 Me. SP 766.

[9] Maria Gallucci, Maine to go all in on offshore wind, Canary Media (July 25, 2023), https://www.canarymedia.com/articles/wind/maine-to-go-all-in-on-offshore-wind.

[10] Bureau of Ocean Energy Management, Gulf of Maine Draft Wind Energy Area (WEA) Notice, Regulations.gov

(October 18, 2023), https://www.regulations.gov/document/BOEM-2023-0054-0001 (see public comments).

[11] Heather Richards, Gulf of Maine wind could power 100% of New England—Report, E&E News (Oct. 31, 2023), https://subscriber.politicopro.com/article/eenews/2023/10/31/gulf-of-maine-wind-could-give-new-england-a-power-jolt-report-00124295.

[12] 2023 Me. SP 766.

[13] Id.

[14] Id.

[15] Id.

[16] Id.

[17] Nicholas P. Jansen, Reducing the Headwinds: the Need for a Federal Approach to Siting Offshore Wind Interconnection Infrastructure, Despite Protective State Laws, 26 Ocean & Coastal L.J. 123 (2021).

[18] Juliana Ennes, California’s floating wind lead threatened by fast-rising Maine, Reuters (September 14, 2023, 10:57 AM), https://www.reuters.com/business/energy/californias-floating-wind-lead-threatened-by-fast-rising-maine-2023-09-14/.

[19] Maria Gallucci, Maine to go all in on offshore wind, Canary Media (July 25, 2023), https://www.canarymedia.com/articles/wind/maine-to-go-all-in-on-offshore-wind.

[20] Id.

[21] Maine Offshore Wind Roadmap Advisory Committee, The Maine Offshore Wind Roadmap, State of Maine Governor’s Energy Office (February 2023), https://www.maine.gov/energy/sites/maine.gov.energy/files/inline-files/Maine_Offshore_Wind_Roadmap_February_2023.pdf.


A Solution Enabled by the Conflict in Ukraine, Cryptocurrency Regulation, and the Energy Crisis Could Address All Three Issues

Chase Webber, MJLST Staffer

This post focuses on two political questions reinvigorated by Vladimir Putin’s invasion of Ukraine: the energy crisis and the increasing popularity and potential for blockchain technology such as cryptocurrency (“crypto”).  The two biggest debates regarding blockchain may be its extraordinarily high use of energy and the need for regulation.  The emergency of the Ukraine invasion presents a unique opportunity for political, crypto, and energy issues to synergize – each with solutions and positive influence for the others.

This post will compare shortcomings in pursuits for environmentalism and decentralization.  Next, explain how a recent executive order is an important turning point towards developing sufficient peer-to-peer technology for effective decentralization.  Finally, suggest that a theoretical decentralized society may be more well-equipped to address the critical issues of global politics, economy, and energy use, and potentially others.

 

Relationship # 1: The Invasion and The Energy Crisis

Responding to the invasion, the U.S. and other countries have sanctioned Russia in ways that are devastating Russia’s economy, including by restricting the international sale of Russian oil.  This has dramatic implications for the interconnected global economy.  Russia is the second-largest oil exporter; cutting Russia out of the picture sends painful ripples across our global dependency on fossil fuel.

Without “beating a dead dinosaur” … the energy crisis, in a nutshell, is that (a) excessive fossil fuel consumption causes irreparable harm to the environment, and (b) our thirst for fossil fuel is unsustainable, our demand exceeds the supply and the supply’s ability to replenish, so we will eventually run out.  Both issues suggest finding ways to lower energy consumption and implement alternative, sustainable sources of energy.

Experts suggest innovation for these ends is easier than deployment of solutions.  In other words, we may be capable of fixing these problems, but, as a planet, we just don’t want it badly enough yet, notwithstanding some regulatory attempts to limit consumption or incentivize sustainability.  If the irreparable harm reaches a sufficiently catastrophic level, or if the well finally runs dry, it will require – not merely suggest – a global reorganization via energy use and consumption.

The energy void created by removing Russian supply from the global economy may sufficiently mimic the well running dry.  The well may not really be dry, but it would feel like it.  This could provide sufficient incentive to implement that global energy reset, viz., planet-wide lifestyle changes for existing without fossil fuel reliance, for which conservationists have been begging for decades.

The invasion moves the clock forward on the (hopefully) inevitable deployment of green innovation that would naturally occur as soon as we can’t use fossil fuels even if we still want to.

 

Relationship # 2: The Invasion and Crypto   

Crypto was surprisingly not useful for avoiding economic sanctions, although it was designed to resist government regulation and control (for better or for worse).  Blockchain-based crypto transactions are supposedly “peer-to-peer,” requiring no government or private intermediaries.  Other blockchain features include a permanent record of transactions and the possibility of pseudonymity.  Once assets are in crypto form, they are safer than traditional currency – users can generally transfer them to each other, even internationally, without possibility of seizure, theft, taxation, or regulation.

(The New York Times’ Latecomer’s Guide to Crypto and the “Learn” tab on Coinbase.com are great resources for quickly building a basic understanding of this increasingly pervasive technology.)

However, crypto is weak where the blockchain realm meets the physical realm.  While the blockchain itself is safe and secure from theft, a user’s “key” may be lost or stolen from her possession.  Peer-to-peer transactions themselves lack intermediaries, but hosts are required for users to access and use blockchain technology.  Crypto itself is not taxed or regulated, but exchanging digital assets – e.g., buying bitcoin with US dollars – are taxed as a property acquisition and regulated by the Security Exchange Commission (SEC).  Smart contract agreements flounder where real-world verification, adjudication, or common-sense is needed.

This is bad news for sanctioned Russian oligarchs because they cannot get assets “into” or “out of” crypto without consequence.  It is better news for Ukraine, where the borderless-ness and “trust” of crypto transaction eases international transmittal of relief assets and ensures legitimate receipt.

The prospect of crypto being used to circumvent U.S. sanctions brought crypto into the federal spotlight as a matter of national security.  President Biden’s Executive Order (EO) 14067 of March 9, 2022 offers an important turning point for blockchain: when the US government began to direct innovation and government control.  Previously, discussions of whether recognition and control of crypto would threaten innovation, or a failure to do so would weaken government influence, had become a stalemate in regulatory discussion. The EO seems to have taken advantage of the Ukraine invasion to side-step the stagnant congressional debates.

Many had recognized crypto’s potential, but most seemed to wait out the unregulated and mystical prospect of decentralized finance until it became less risky.  Crypto is the modern equivalent of private-issued currencies, which were common during the Free Banking Era, before national banks were established at the end of the Civil War.  They were notoriously unreliable.  Only the SEC had been giving crypto plenty of attention, until (and especially) more recently, when the general public noticed how profitable bitcoin became despite its volatility.

EO 14067’s policy reasoning includes crypto user protection, stability of the financial system, national security (e.g., Russia’s potential for skirting sanctions), preventing crime enablement (viz., modern equivalents to The Silk Road dark web), global competition, and, generally, federal recognition and support for blockchain innovation.  The president asked for research of blockchain technology from departments of Treasury, Defense, Commerce, Labor, Energy, Homeland Security, the Consumer Financial Protection Bureau (CFPB), Federal Trade Commission (FTC), SEC, Commodity Futures Trading Commission (CFTC), Environmental Protection Agency (EPA), and a handful of other federal agencies.

While promoting security and a general understanding of blockchain’s potential uses and feasibility, the order also proposes Central Bank Digital Currencies (CBDC).  CBDCs are FedCoins – a stablecoin issued by the government instead of by private entities.  Stablecoins (e.g., Tether) are a type of crypto whose value is backed by the US Dollar, whereas privately issued crypto (e.g., Bitcoin, Ether) are more volatile because their value is backed by practically nothing.  So, unlike Tether, a privately issued stablecoin, CBDCs would be crypto issued and controlled by the U.S. Treasury.

Imagine CBDCs as a dollar bill made of blockchain technology instead of paper.  A future “cash transaction” could feel more like using Venmo, but without the intermediary host, Venmo.

 

Relationship # 3: Crypto and Energy

Without getting into too many more details, blockchain technology, on which crypto is based, requires an enormous amount of energy-consuming computing power.

Blockchain is a decentralized “distributed ledger technology.” The permanent recordings of transactions are stored and verifiable at every “node” – the computer in front of you could be a node – instead of in a centralized database.  In contrast, the post you are now reading is not decentralized; it is “located” in a UMN database somewhere, not in your computer’s hard drive.  Even a shared Google Doc is in a Google database, not in each of the contributor’s computers.  In a distributed system, if one node changes its version of the distributed ledger, some of the other nodes verify the change.  If the change represents a valid transaction, the change is applied to all versions at each node, if not, the change is rejected, and the ledger remains intact.

These repeated verifications give blockchain its core features, but also require a significant amount of energy.

For most of the history of computers, computing innovation has focused primarily on function, especially increased speed.  Computer processing power eventually became sufficiently fast that, in the last twenty-ish years, computing innovation began to focus on achieving the same speed using less energy and/or with more affordability.  Automotive innovation experienced a similar shift on a different timeline.

Blockchain will likely undergo the same evolution.  First, innovators will focus on function and standardization.  Despite the popularity, this technology still lacks in these areas.  Crypto assets have sometimes disappeared into thin air due to faulty coding or have been siphoned off by anonymous users who found loopholes in the software.  Others, who became interested in crypto during November 2021, after hearing that Ether had increased in value by 989% that year and the crypto market was then worth over $3 trillion, may have been surprised when the value nearly halved by February.

Second, and it if it is a profitable investment – or incentivized by future regulations resulting from EO14067 – innovators will focus on reducing the processing power required for maintaining a distributed ledger.

 

Decentralization, and Other Fanciful Policies

Decentralization and green tech share the same fundamental problem.  The ideas are compelling and revolutionary.  However, their underlying philosophy does not yet match our underlying policy.  In some ways, they are still too revolutionary because, in this author’s opinion, they will require either a complete change in infrastructure or significantly more creativity to be effective.  Neither of these requirements are possible without sufficient policy incentive.  Without the incentive, the ideas are innovative, but not yet truly disruptive.

Using Coinbase on an iPhone to execute a crypto transaction is to “decentralization” what driving a Tesla running on coal-sourced electricity is to “environmentalism.”  They are merely trendy and well-intentioned.  Tesla solves one problem – automotive transportation without gasoline – while creating another – a corresponding demand for electricity – because it relies on existing infrastructure.  Similarly, crypto cannot survive without centralization.  Nor should it, according to the SEC, who has been fighting to regulate privately issued crypto for years.

At first glance, EO 14067 seems to be the nail in the coffin for decentralization.  Proponents designed crypto after the 2008 housing market crash specifically hoping to avoid federal involvement in transactions.  Purists, especially during The Digital Revolution in the 90s, hoped peer-to-peer technology like blockchain (although it did not exist at that time) would eventually replace government institutions entirely – summarized in the term, “code is law.”  This has marked the tension between crypto innovators and regulators, each finding the other uncooperative with its goals.

However, some, such as Kevin Werbach, a prominent blockchain scholar, suggest that peer-to-peer technology and traditional legal institutions need not be mutually exclusive.  Each offers unique elements of “trust,” and each has its weaknesses.  Naturally, the cooperation of novel technologies and existing legal and financial structures can mean mutual benefit.  The SEC seems to share a similarly cooperative perspective, but distinguished, importantly, by the expectation that crypto will succumb to the existing financial infrastructure.  Werbach praises EO 14067, Biden’s request that the “alphabet soup” of federal agencies investigate, regulate, and implement blockchain, as the awaited opportunity for government and innovation to join forces.

The EPA is one of the agencies engaged by the EO.  Pushing for more energy efficient methods of implementing blockchain technology will be as essential as the other stated policies of national security, global competition, and user friendliness.  If the well runs dry, as discussed above, blockchain use will stall, as long as blockchain requires huge amounts of energy.  Alternatively, if energy efficiency can be attained preemptively, the result of ongoing blockchain innovation could play a unique role in addressing climate change and other political issues, viz., decentralization.

In her book, Smart Citizens, Smarter State: The Technologies of Expertise and the Future of Governing, Beth Simone Noveck suggests an innovative philosophy for future democracies could use peer-to-peer technology to gather wide-spread public expertise for addressing complex issues.  We have outgrown the use of “government bureaucracies that are supposed to solve critical problems on their own”; by analogy, we are only using part of our available brainpower.  More recently, Decentralization: Technology’s Impact on Organizational and Societal Structure, by local scholars Wulf Kaal and Craig Calcaterra, further suggests ways of deploying decentralization concepts.

Decentralized autonomous organizations (“DAOs”) are created with use of smart contracts, a blockchain-based technology, to implement more effectively democratic means of consensus and information sharing.  However, DAOs are still precarious.  Many of these have failed because of exploitation, hacks, fraud, sporadic participation, and, most importantly, lack of central leadership.  Remember, central leadership is exactly what DAOs and other decentralized proposals seek to avoid.  Ironically, in existing DAOs, without regulatory leadership, small, centralized groups of insiders tend to hold all the cards.

Some claim that federal regulation of DAOs could provide transparency and disclosure standards, authentication and background checks, and other means of structural support.  The SEC blocked American CryptoFed, the first “legally sanctioned” DAO, in the state of Wyoming.  Following the recent EO, the SEC’s position may shift.

 

Mutual Opportunity

To summarize:  The invasion of Ukraine may provide the necessary incentive for actuating decentralized or environmentalist ideologies.  EO 14067 initiates federal regulatory structure for crypto and researching blockchain implementation in the U.S.  The result could facilitate eventual decentralized and energy-conscious systems which, in turn, could facilitate resolutions to grave impending climate change troubles.  Furthermore, a new tool for gathering public consensus and expertise could shed new light on other political issues, foreign and domestic.

This sounds suspiciously like, “idea/product X will end climate change, all political disagreements, (solve world hunger?) and create global utopia,” and we all know better than to trust such assertions.

It does sound like it, but Noveck and Kaal & Calcaterra both say no, decentralization will not solve all our problems, nor does it seek to.  Instead, decentralization offers to make us, as a coordinated society, significantly more efficient problem solvers.  A decentralized organizational structure hopes to allow humans to react and adapt to situations more naturally, the way other living organisms adapt to changing environments.  We will always have problems.  Centralization, proponents argue, is no longer the best means of obtaining solutions.

In other words, one hopes that addressing critical issues in the future – like potential military conflict, economic concerns, and global warming – will not be exasperated or limited by the very structures with which we seek to devise and implement a resolution.


Hydrogen – The Fuel of the Future?

Max Meyer, MJLST Staffer

Hydrogen is viewed by many as being a key part of reducing global greenhouse gas emissions. Recently, a bipartisan group of lawmakers expressed interest in hydrogen and want to support its adoption in the United States. When used as a fuel source, hydrogen produces only water and heat. It could potentially be used to power cars, trucks, and airplanes and generate electricity. Hydrogen is used on a fairly minimal scale today, but entities ranging from industry to government are increasing investment in the technology. Currently, hydrogen is regulated by a variety of federal agencies, but no comprehensive regulatory scheme exists.

 

Hydrogen Production 

Hydrogen is one of the most abundant elements on earth, but it only exists in compound form with other elements. Hydrogen has the highest fuel content of any fuel by weight.

Hydrogen can be separated from compounds in a few different ways. It can be produced from steam-methane reforming which accounts for 95% of hydrogen production in the U.S. In this process, “natural gas (which is mostly methane) reacts with high pressure, high temperature steam in the presence of a catalyst to produce a mixture of mostly hydrogen and carbon monoxide.” The product stream is then processed further to produce a stream of mostly hydrogen. Water can be added to this mixture to convert the carbon monoxide into carbon dioxide. If the carbon dioxide is subsequently capture and stored underground, the hydrogen produced is referred to as blue hydrogen. If the carbon dioxide is not captured, the hydrogen is called grey hydrogen.

Hydrogen can also be produced from water by electrolysis which splits water molecules into pure hydrogen and oxygen using electricity. When renewable energy is used for electrolysis the resulting hydrogen is often referred to as green hydrogen.

 

Why Is It Important?

Using fuel cells, hydrogen can produce electricity. A fuel cell contains two electrodes, one negative and one positive, with an electrolyte in the middle. Hydrogen is fed into the negative electrode and air is fed into the positive end. At the negative end, a catalyst separates the hydrogen molecules into protons and electrons. To produce electricity, the electrons go through an external circuit before entering the positive electrode. Then, the protons, electrons, oxygen unite to produce water and heat. Fuel cells can be used in a number of applications ranging passenger and commercial vehicles to powering buildings.

 

Current Regulatory Framework

Hydrogen is regulated by several federal agencies. The Pipeline and Hazardous Materials Safety Administration (PHMSA) regulates hydrogen pipelines. PHMSA’s mission is to “protect people and the environment by advancing the safe transportation of energy and other hazardous materials[.]” Thus, PHMSA’s regulation of hydrogen pipelines is focused on safety. The Occupational Safety and Health Administration (OSHA) regulates hydrogen in workplaces OSHA’s regulation of hydrogen specifically covers the installation of hydrogen systems. The Environmental Protection Agency (EPA) also regulates hydrogen in several ways. Hydrogen is regulated under the EPA’s Mandator Greenhouse Gas Reporting Program, Effluent Standards under the Clean Water Act, and Chemical Accident Prevention program. However, the EPA’s regulation of hydrogen is primarily a result of hydrogen’s relationship to fossil fuels. The regulations are concerned with the production of hydrogen from fossil fuels such as the methane steam reform process outlined above.

The Department of Energy (DOE) has invested in research and development concerning hydrogen. In 2020, the DOE released its Hydrogen Program Plan. The DOE’s program is intended to “research, develop and validate transformational hydrogen and related technologies… and to address institutional and market barriers, to ultimately enable adoption across multiple applications and sectors.”

In 2021, Congress passed an infrastructure bill with $9.5 billion of funding for clean hydrogen initiatives. $8 billion of that funding is directed towards the creation of Regional Clean Hydrogen Hubs across the country to increase the use of hydrogen in the industrial sector. $1 billion is for clean hydrogen electrolysis research to lower costs from producing hydrogen using renewable energy. Finally, $500 million is for Clean Hydrogen Manufacturing and Recycling to “support equipment manufacturing and strong domestic supply chains.”

 

Regulation in the Future

The federal government currently does not regulate the construction of hydrogen pipelines. Presently, the Federal Energy Regulatory Commission (FERC) under the Natural Gas Act “regulates the siting, construction, and operation of interstate natural gas pipelines.” If Congress were to give FERC this same power for hydrogen pipelines it would allow for national planning of the infrastructure and lead to a comprehensive pipeline network. Recently, members of Congress have considered the regulatory framework covering hydrogen pipelines and if additional authority over these pipelines should be given to FERC or other federal agencies. However, these discussions are still in the preliminary stages.

Hydrogen has the potential to play a large role in the United States’ effort to reduce greenhouse gas emissions. It can be used in a variety of industries including the transportation and industrial sectors. Congress has recognized hydrogen’s importance and must continue to invest in lowering the costs of hydrogen production and building hydrogen infrastructure.


How the Biden Administration Has Made Offshore Wind a Priority

Max Meyer, MJLST Staffer

Since coming into office in January of 2021, the Biden Administration has made fighting climate change and reducing domestic greenhouse gas (GHG) emissions a priority. In particular, the Biden Administration set a goal of doubling the nation’s offshore wind capacity in Executive Order 14008. Reaching this goal would result in 30 Gigawatts (GW) of offshore wind capacity. Developing offshore wind energy will help states reach their clean and renewable energy goals as many sates on the coast do not have large wind energy resources on land. Since the issuance of Executive Order 14008, the Department of the Interior (DOI) has taken several steps towards reaching that goal.

Statutory Authority

Under the Outer Continental Shelf Lands Act (OCSLA) (codified at 43 U.S.C. ch. 29), passed in 1953, the Secretary of the Interior is charged with the administration of mineral exploration and development of the Outer Continental Shelf (OCS). The OCS is defined as “all submerged lands lying seaward of state coastal waters (3 miles offshore) which are under U.S. jurisdiction.”

In the Energy Policy Act of 2005 (EPAct), Congress created the OCS Renewable Energy Program to be administered by the DOI. Under this authority, the DOI in 2009 promulgated regulations for leases, easements, and rights-of-way for renewable energy development in the OCS. The Bureau of Ocean Energy Management (BOEM), under the DOI, is the agency tasked with overseeing the renewable energy development program.

Regulatory Authority

The BOEM renewable energy development program is broken into four steps: (1) planning, (2) leasing, (3), site assessment, and (4) construction and operations. During the first step, BOEM identifies Wind Energy Areas (WEAs) which are “locations that appear most suitable for wind energy development.” After WEAs have been identified, BOEM issues a public notice to gauge the interest in leasing land in the WEA. Depending on the interest received from BOEM, leasing is done through either a competitive or noncompetitive leasing process.

After leasing is completed, the lessee must submit a Site Assessment Plan (SAP) to BOEM. The purpose of the SAP is for the lessee to provide documentation so that BOEM can evaluate whether the project will comply with applicable regulations. The agency can either approve, approve with modification, or disapprove the SAP. Finally, the lessee must produce a Construction and Operations Plan (COP). As the name suggests, this submission includes a “detailed plan for the construction and operation of a wind energy project on the lease.” BOEM reviews the COP, including environmental review, and can either approve, approve with modification, or disapprove the COP.

Recent Offshore Wind Developments

In May 2021, the DOI approved the COP for the Vineyard Wind project located near Martha’s Vineyard and Nantucket. This is the first large-scale, offshore wind project in the United States. The project will have 800 Megawatt (MW) of energy capacity which is enough to power 400,000 homes and businesses. Construction of the project began in November 2021. One of the first steps in the construction process will be placing two transmission cables to transmit electricity from the Vineyard Wind project to the mainland.

Also in November 2021, the DOI approved the COP for the South Fork Wind making it the second large-scale, offshore wind project in the United States. This project off the coasts of New York and Rhode Island will have a capacity of 130 MW which is enough to power approximately 70,000 homes.

In addition to granting final approval of several projects, BOEM has also taken action in the earlier steps of the OCS renewable energy process. For the Carolina Long Bay WEA, located off the coast of the Carolinas, the BOEM began taking public comments on a proposed lease. In October, BOEM received the COP for the Mayflower Wind project. This project would also be located near Martha’s Vineyard and Nantucket and would have an energy capacity of more than 2 GW. If approved, the Mayflower Wind project would be one of the largest offshore wind projects in the United States. BOEM also published a Call for Information and Nominations to gauge commercial interest in wind energy development in the Gulf of Mexico.

BOEM has also taken steps to advance offshore wind in the Pacific Ocean in 2021. In July, BOEM published a Call for Information and Nominations to determine commercial interest in the Morro Bay Call Area East and West Extensions, a portion of the Morro Bay WEA. This WEA is located off the coast of Central California. Finally, BOEM designated the Humboldt WEA off the northern coast of California moving closer to the leasing process in this area.

Despite heavy support from the Biden Administration, offshore wind does face opposition. The commercial fishing industry has emerged as a strong opponent of these projects. The industry is concerned that the turbines will impact fish and hinder access to fishing grounds. The Biden Administration could face legal challenges to offshore wind development, particularly under the National Environmental Policy Act (NEPA), from the fishing industry. One such challenge in Fisheries Survival Fund v. Haaland, 858 F. App’x 371 (D.C. Cir. 2021) has proven unsuccessful for the fishing industry.

While the DOI and BOEM have taken many actions to further develop offshore wind in the United States, much more will have to be done to reach the Biden Administration’s goal of 30 MW of offshore wind capacity by 2030. Nonetheless, offshore wind is an important resource for coastal states looking to decarbonize their energy generation and for reaching the Biden Administration’s decarbonization goals.


Being Green by Helping the Giants Beat the Eagles

by Nathanial Weimer, UMN Law Student, MJLST Staff

Thumbnail-Nathanial-Weimer.jpgSporting events are a nightmare in terms of the environment. The vast number of spectators involved–over 16 million paying fans attended NFL games last year, according to NBC Sports–leave behind massive amounts of trash, while stadiums face huge challenges with water conservation and electricity consumption on game days. Fans also have to transport themselves to and from the event, using large quantities of fuel. And, of course, the problem extends to all stadium events, whether professional or college, football or a different sport. Such a widespread problem needs a powerful solution, one that goes beyond merely suggesting that teams “do the right thing”. The fact is, teams that effectively deal with this problem must be rewarded, and those rewards must contribute to on-field success. By linking sustainability to team performance, the green movement can benefit from the competitive spirit that drives sports.

Many sports teams have already taken steps toward making their stadiums green. SustainableBusiness.com lists professional sports teams with effective environmental strategies, while the EPA has organized waste reduction competitions between collegiate football programs. The University of Minnesota became a leader with the construction of its new football field; upon completion, TCF Bank Stadium became the first collegiate or professional football facility to achieve LEED Silver Certification for environmental design.

Several motivations have contributed to this move towards sustainability. Some owners have used environmental campaigns as a way to strengthen community ties, or improve a team’s brand image to attract sponsors, according to Switchboard. Reductions in energy consumption, often through the installation of solar panels, can greatly reduce utility costs. Groups such as the Green Sports Alliance, a non-profit originating in the Pacific Northwest, have collaborated with professional teams across different sports to incite a higher level of environmental responsibility. Still, the greatest motivation in sports is noticeably missing–winning.

Achieving environmental sustainability requires continuous improvement. In order to ensure that sports teams continue to innovate and strive for improvement, their waste management accomplishments must be able to contribute to their on-field success. In professional leagues, this could easily be accomplished through a salary-cap bump. An NBA team with a model sustainability program could be allowed to spend, say, $5 million more a year on its roster than a team without such a program. Alternatively, draft odds could be adjusted. Instead of losing 59 games in the hopes of landing number one draft pick Anthony Davis, the Charlotte Bobcats could have installed low-flush, dual flush toilets and aerated faucets like those at Target Field. College programs, “arguably the next frontier for the sports greening movement” according to Switchboard, could be rewarded for their environmental initiatives through postseason considerations. Bowl Games could be allowed, or even encouraged, to take a program’s sustainability accomplishments into consideration. NCAA basketball tournament seeds could be similarly tweaked.

While going green might save money on utilities and attract corporate sponsors, the fastest way to make money in sports is to put a successful product on the field. Connecting greenness to on-field benefits would boost community involvement as well–an NBA fan is far more likely to volunteer to sort recycling when she thinks her efforts might help her team find cap room to sign a Dwight Howard. By the same token, collegiate boosters are more likely to donate money towards sustainability projects when those projects earn benefits that would otherwise go to a bitter rival. Sports, after all, are about competition, and winning feels better when you defeat somebody. Giants owner John Mara, when asked about the competitive outlet provided by greening efforts, agreed: “Most of all, I want to beat the Philadelphia Eagles.” It shouldn’t matter that by bringing competition into the quest for sustainability, we all win.

The environmental responsibility of sports events has come a long way. Many stadiums feature technology aimed at tackling the challenging problem of waste management. Still, the fight for sustainability remains an uphill battle, and teams must strive to find new ways to improve their stadiums. Rewarding committed teams with performance-related benefits not only preserves this commitment to innovation, it strengthens it.

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