Enlarge (credit: Getty | Yui Mok)
The strain of H5N1 bird flu isolated from a dairy worker in Texas was 100 percent fatal in ferrets used to model influenza illnesses in humans. However, the virus appeared inefficient at spreading via respiratory droplets, according to newly released study results from the Centers for Disease Control and Prevention.
The data confirms that H5N1 infections are significantly different from seasonal influenza viruses that circulate in humans. Tho
The data confirms that H5N1 infections are significantly different from seasonal influenza viruses that circulate in humans. Those annual viruses make ferrets sick but are not deadly. They have also shown to be highly efficient at spreading via respiratory droplets, with 100 percent transmission rates in laboratory settings. In contrast, the strain from the Texas man (A/Texas/37/2024) appeared to have only a 33 percent transmission rate via respiratory droplets among ferrets.
"This suggests that A/Texas/37/2024-like viruses would need to undergo changes to spread efficiently by droplets through the air, such as from coughs and sneezes," the CDC said in its data summary. The agency went on to note that "efficient respiratory droplet spread, like what is seen with seasonal influenza viruses, is needed for sustained person-to-person spread to happen."
The United States is not building enough transmission lines to connect regional power networks. The deficit is driving up electricity prices, reducing grid reliability, and hobbling renewable-energy deployment.
At the heart of the problem are utility companies that refuse to pursue interregional transmission projects, and sometimes even impede them, because new projects threaten their profits and disrupt their industry alliances. Utilities can stall transmission expansion because out-of-date
The United States is not building enough transmission lines to connect regional power networks. The deficit is driving up electricity prices, reducing grid reliability, and hobbling renewable-energy deployment.
At the heart of the problem are utility companies that refuse to pursue interregional transmission projects, and sometimes even impede them, because new projects threaten their profits and disrupt their industry alliances. Utilities can stall transmission expansion because out-of-date laws sanction these companies’ sweeping control over transmission development.
As we increasingly electrify our homes, transportation, and factories, utility companies’ choices about transmission will have huge consequences for the nation’s economy and well-being. About 40 corporations, valued at a trillion dollars, own the vast majority of transmission lines in the United States. Their grip over the backbone of U.S. grids demands public scrutiny and accountability.
Many Lines, Stable Power
High-voltage transmission lines move large amounts of energy over long distances, linking power generation to consumption. A transmission network contains webs of connections, which create a reliable, redundant power-supply system of massive scale.
At any given time, thousands of power plants supply just enough energy to transmission networks to meet demand. The rules that orchestrate the movement of electricity through this network determine who generates power, and how much. The goal is to keep the lights on at a low cost by utilizing an efficient mix of power plants.
Building more transmission increases the capacity and connectivity of the system, allowing new power plants to connect and more power to flow between transmission networks. This is
why utility companies are not embracing transmission expansion. They don’t want their power plants to face competition or their regional alliances to lose control over their networks.
Expansion can open opportunities for new power-plant and transmission developers to undercut utility companies’ profits and take control over the rules that shape the industry’s future. Utility companies are prioritizing their shareholders over the public’s need for cleaner, cheaper, and more reliable energy.
Old Alliances, Old Technology
Transmission networks in the United States, which move alternating current, were built over the last century largely by for-profit utility companies, and to a lesser extent by nonprofit utilities operated by governments and local communities. The lines tend to be concentrated around fossil-fuel reserves and population centers but are also shaped by historic utility alliances.
Where utilities agreed to trade energy, they built sufficient transmission to move power between their local service territories. As utility alliances expanded, transmission networks grew to include new members, but connections to nonallied utilities tended to be weaker.
The result of these generations-old alliances is a U.S. system fragmented into
about a dozen regions with limited connectivity between them. The regions are distributed across three separate and largely isolated networks, called “interconnections”–Eastern, Western, and most of Texas.
An October 2023
report from the U.S. Department of Energy reveals the severity of the problem. Based on studies conducted by national labs and academic researchers, the DoE calculated that interregional transmission in the United States must expand as much as fivefold to maintain reliability and improve resilience to extreme weather and provide access to low-cost clean energy.
The value of linking regional networks
is widely accepted globally. The European Commission in 2018 set a target for each member country to transmit across its borders at least 15 percent of the electricity produced in its territories. By the end of 2022, 23 gigawatts of cross-border connections in Europe were under construction or in advanced stages of permitting, with much more on the way.
Big Benefits
One of the main values of connecting regional networks is that it enables—and is in fact
critical for—incorporating renewable energy. For instance, four proposed high-voltage lines totaling 600 kilometers along the seam of regional networks in the upper Midwest could connect at least 28 gigawatts of wind and solar. These lines have been on the drawing board for years, but utilities in the neighboring regions have not moved them forward. The cost of the project, estimated at US $1.9 billion, may seem like a major investment, but it is a fraction of what U.S. utilities spend each year rebuilding aging transmission infrastructure.
Plus, adding interregional transmission for renewables can
significantly reduce costs for consumers. Such connections allow excess wind and solar power to flow to neighboring regions when weather conditions are favorable and allow the import of energy from elsewhere when renewables are less productive.
Proposed new transmission lines in the upper Midwest could connect at least 28 gigawatts of wind and solar to regional networks.Joint Targeted Interconnection Queue Study (JTIQ), MISO, SPP
Even without renewables, better integrated networks generally lower costs for consumers because they reduce the amount of generation capacity needed overall and decrease energy market prices. Interregional transmission also enhances reliability,particularly during extreme weather.
In December 2022, Winter Storm Elliott
disabled power plants and pipelines from North Dakota to Georgia, leading to power outages in the South and billions of dollars in excess energy charges across the Eastern United States. Limited interregional connections staved off disaster. These links moved electricity to where it was most needed, helping to avoid the sort of catastrophe that befell Texas’s isolated electric grid the year before, when a deep freeze left millions without power for days.
Power, Profit, and Control
But from the perspective of utility companies, interregional transmission presents several drawbacks. First, building such connections
opens the door for competitors who may sell lower-priced power into their region. Second, utilities make far more money constructing power plants than building transmission lines, so they are reluctant to build connections that might permanently reduce their opportunities for future generation investments.
This comparison of current interregional transfer capacity and anticipated need shows that regions will need to increase transmission significantly, assuming moderate load and high clean-energy growth.“National Transmission Needs Study,” U.S. Department of Energy
Third, major interregional transmission projects are less financially attractive to utility companies in comparison with smaller ones. For larger projects, utilities may have to compete against other developers for the opportunity to profit from construction. The utility industry sponsors
third-party oversight of such projects, while smaller projects are less scrutinized by the industry. Smaller projects are easier to pull off and more profitable than the larger ones, because they need fewer construction permits, face less review by regulators and industry, and are built by utilities without competition from other developers.
Fourth, interregional lines threaten utility companies’ dominance over the nation’s power supply. In the power industry,
asset ownership provides control over rules that govern energy markets and transmission service and expansion. When upstart entities build power plants and transmission lines, they may be able to dilute utility companies’ control over power-industry rules and prevent utilities from dictating decisions about transmission expansion.
Help on the Hill
Addressing the transmission shortage is on the agenda in Washington, but utility companies are lobbying against reforms. In September, Senator John Hickenlooper (D-Colo.) and Representative Scott Peters (D-Calif.) introduced the
BIG WIRES Act to force utilities or competing developers to build more interregional links. In 2022, Senator Joe Manchin (D-W.Va.) proposed an approach in which transmission developers recommend projects to the DoE. If the agency deems a project to be in the national interest, federal regulators could permit the project’s construction and force utilities to pay for it.
Meanwhile, the Federal Energy Regulatory Commission (FERC) is currently reevaluating how utilities develop and operate transmission networks and
may issue new rules in the coming months. In response, utilities are preparing litigation that could strip FERC of authority to impose any transmission rules at all. Their goal is to protect their profits and control, even if it comes at the consumer’s expense.
The U.S. Department of Energy is pitching in too. On 6 February, the department announced it would award $1.2 billion to support new high-voltage transmission lines, on top of the $1.3 billion it provided last fall to three interstate projects. Later this year, it plans to unveil its long-awaited
national plan for a large-scale transmission build-out. But without industry support or tens of billions in additional funding from Congress to build these projects, the agency’s vision will not be realized.
Leading With Technology
New business models and technologies offer hope. Investors and entrepreneurs are developing long-distance
direct-current lines, which are more efficient at moving large amounts of energy over long distances, compared with AC. These DC projects sidestep the utility-dominated transmission-expansion planning processes.
Many high-voltage DC (HVDC) transmission lines are already in operation, especially in
China and Europe. In fact, DC lines are now the preferred choice in Europe’s plans to unite the continent.
The United States lacks a coordinated national planning effort to connect regional networks, but developers can make progress project by project. For example, future DC lines will connect generators in
Kansas to a neighboring network in Illinois, stretch from Wyoming to California, and move wind and solar energy across the Southwest. Each of these projects will move renewable energy from where it can be generated cheaply to larger markets where power prices are higher, and in doing so they will help bolster the country’s regional transmission networks.
These pioneering projects show that utility companies in the United States don’t have to build interregional lines, but they do need to get out of the way. Transmission rules written by utilities and their industry allies can
obstruct, delay, and add costs to these new projects. Streamlining federal and state permitting processes can encourage more investment, but cutting government red tape will not neutralize utility companies’ objections to interregional transmission.
U.S. regulators and Congress must press forward. Promising proposals that promote new business models and limit utility control are on the table. Our energy future is on the line.
Face of boy after three days with measles rash. (credit: CDC)
Florida health officials on Sunday announced an investigation into a cluster of measles cases at an elementary school in the Fort Lauderdale area with a low vaccination rate, a scenario health experts fear will become more and more common amid slipping vaccination rates nationwide.
On Friday, Broward County Public School reported a confirmed case of measles in a student at Manatee Bay Elementary School in the city
Florida health officials on Sunday announced an investigation into a cluster of measles cases at an elementary school in the Fort Lauderdale area with a low vaccination rate, a scenario health experts fear will become more and more common amid slipping vaccination rates nationwide.
On Friday, Broward County Public School reported a confirmed case of measles in a student at Manatee Bay Elementary School in the city of Weston. A local CBS affiliate reported that the case was in a third-grade student who had not recently traveled. On Saturday, the school system announced that three additional cases at the same school had been reported, bringing the current reported total to four cases.
On Sunday, the Florida Department of Health in Broward County (DOH-Broward) released a health advisory about the cases and announced it was opening an investigation to track contacts at risk of infection.