<\/p>\n
On a few sunny days this spring, California\u2019s solar and wind power plants generated so much juice that grid operators had to throw it away, or curtail generation. The sun was shining, the wind was blowing, but the generators were shut down. The state lost enough electricity from January through June to power 50,000 homes for six months.<\/p>\n
The flood of clean power displaced natural gas generation on the California grid. But even as all that power was tossed away, utilities in neighboring states burned coal for their air conditioners and televisions. It\u2019s as if California avocado growers with a bumper crop had to watch their fruit rot on the trees, while folks in Colorado suffered a guacamole shortage.<\/p>\n
The problem is that the electrical grid is divided up in a way that makes it hard for different utilities to share power. Now, a growing cadre of renewable energy advocates, engineers and utility officials are working to fix that.<\/p>\n
We often describe the Western electrical grid as if it\u2019s a single, unified, vast machine of 1,000 power plants and high-voltage wires that reach across 2 million square miles. We imagine electrons from wind plants in Wyoming zipping at the speed of light to laptops in California.<\/p>\n
Not quite.<\/p>\n
The grid is physically interconnected but operationally balkanized, broken up into 38 islands, or balancing authorities. Critics compare it to a train with a separate driver for each car. It\u2019s clunky and slow, suited to outdated power sources and modes of power consumption.<\/p>\n
\u201cThe current system is too balkanized in its operations, too costly to consumers and too inefficient in its use of power and transmission infrastructure to be successful,\u201d says Carl Zichella of the Natural Resources Defense Council. The only way to take advantage of the increasing amount of renewable energy sources, and to abandon fossil fuels, he says, is for all the separate balancing authorities to come together as one.<\/p>\n
H H H<\/p>\n
One of the initial seeds of the Western electrical grid was planted near the mining town of Telluride in 1891, when an alternating current was sent from a water-powered generator across 3 miles of copper wire to a motor in a high mountain mine. The planter of that seed was neither engineer nor inventor. He was Lucien L. Nunn, a twice-failed restaurateur who once studied law \u2013 a small man who idolized Napoleon.<\/p>\n
The Ohio-born Nunn headed West in 1880, first landing in Leadville, then in Durango. When his restaurant flopped, Nunn and his companion and business partner, Malachi Kinney, headed to Telluride. They couldn\u2019t afford a horse and had to make the 70-mile journey on foot. Yet what Nunn lacked in cash he made up for in ambition and nearly boundless energy. Plus, he had studied law, and legal services were in high demand in mining country. Before long, he had his own practice.<\/p>\n
In 1889, one of his clients, the St. Louis-based owner of the Gold King Mine (not to be confused with the Gold King Mine near Silverton, which blew out in 2015), asked Nunn to whip the venture into shape. The mine had tapped rich veins, but the cost of hauling coal up to its lofty perch to power the mill\u2019s steam engines ate up the profits.<\/p>\n
The logical solution was to use hydropower to power the mill\u2019s crushers, stampers and sorters. But the mill sat at 12,000 feet elevation, 2,000 feet above the nearest viable stream. Nunn couldn\u2019t move the water to the mill. Maybe, however, he could find a way to move the water-generated power. So he brought in his younger brother, Paul, an engineer, to help.<\/p>\n
At the time, the burgeoning field of electricity was a yeasty free-for-all, with European and American inventors racing to develop and improve the technology, and a battle raging between Thomas Edison\u2019s direct current and the alternating current backed by George Westinghouse and Nikola Tesla.<\/p>\n
For $50,000 in gold, the Nunn brothers hired Westinghouse and company to build a 3,000-volt alternating current generator powered by water piped from a fork of the San Miguel River, connected by 3 miles of copper wire to an identical motor in the mill. \u201cAnd except for lightning, the plant ran smoothly and steadily 30 days and more without a stop,\u201d Paul Nunn wrote.<\/p>\n
To keep the operation going, Lucien Nunn hired young men, opening the Telluride Institute to train them. Each student put a pin on a map, indicating where he hailed from, earning the moniker \u201cpinheads.\u201d One of the pinheads\u2019 challenges was to match electrical supply with demand, known as \u201cfollowing the load.\u201d If the mill operator wanted to crank up his machinery, for example, the pinheads would up the output from the generator, probably by cranking open valves to increase water pressure. Today, following the load remains a grid operator\u2019s major responsibility.<\/p>\n
Other mine managers in the area liked what they saw, and the Nunns installed more generators to send the power of the area\u2019s cascading streams to the mines, and then linked the generators to provide redundancy and to make it easier to follow the load. This made it one of the nation\u2019s first electrical grids, and it had a transformative effect. In 1901, the U.S. Treasury Department credited the Nunns\u2019 Telluride Power Co. with making San Miguel County a mining powerhouse.<\/p>\n
Telluride Power\u2019s grids grew to include six big hydropower stations in Colorado, Utah and Montana, and close to 1,000 miles of transmission lines. Rival utilities put up their own grids, their wires sometimes crossing over Telluride Power\u2019s in a tangled jumble in a largely unregulated field. But in the ensuing decades, corporate behemoths swallowed up the Telluride Power Co. and other local independent utilities, combining them to create \u201csuper power systems\u201d that served tens of thousands of customers each. The vertically integrated utilities were now monopolies \u2013 a model that persists today.<\/p>\n
By the early 1950s, most of the West was electrified, and the monopolies had become corporate and political powerhouses, their advertising mascots \u2013 Miss Electra and Reddy Kilowatt \u2013 hell-bent on getting people to devour more electricity with bigger televisions, more powerful air-conditioners and brand-new devices like electric can openers. The West\u2019s population boom made it easy for the monopolies to rake in more customers and cash, so the utilities launched marketing campaigns to lure even more people to the region. But the growth also threatened to overwhelm their grids, which remained isolated from one another.<\/p>\n
In 1952, the U.S. Bureau of Reclamation proposed a new path forward with its \u201cStudy of Future Power Transmission in the West,\u201d a blueprint for an overhaul and enlargement of the Western electrical grid. The Bureau envisioned a fleet of gargantuan coal-fired power plants constructed near the Interior West\u2019s coal deposits. These centralized plants would then send juice hundreds of miles over high-voltage transmission lines to the \u201celectrified homes\u201d of Phoenix, Los Angeles and Las Vegas.<\/p>\n
At the time, hydropower supplied more than half the West\u2019s electricity, while coal provided just 10 percent. Under the Bureau\u2019s plan, coal-fired generation would increase by 3,000 percent and dominate the region\u2019s energy mix. The plan\u2019s authors also urged the utilities to tie their dozens of networks into a single integrated Western grid. That way, when a drought diminished the hydropower from, say, Hoover Dam, the Columbia River system\u2019s dams could send electrons southward. It would \u201crender all the interconnected systems more reliable and flexible.\u201d<\/p>\n
Over the next three decades, coal plants sprouted in Utah, Arizona and New Mexico, allowing urbanites to live an electrified life without breathing the pollutants that came with it; those inconvenient side effects were reserved for the rural folks near the facilities. The plants were tied into a huge web of long-distance, high-voltage transmission lines, skeletal switchyards, substations and energy hubs.<\/p>\n
The Bureau study\u2019s vision of a coal-dominated grid had been realized. But the big, unified, networked grid? Not so much. Physically, the grid was integrated, but the unity didn\u2019t extend into the operational realm. Instead, 38 separate entities, each with its own team of pinheads, operate their own portions of the grid.<\/p>\n
H H H<\/p>\n
Back in Nunn\u2019s day, and even in the 1950s, the pinheads had to supply a reasonably steady demand. Factories and mines were the big power gulpers, and they operated on regular schedules. Residential customers also followed routines and consumed power in a predictable fashion. That meant that pinheads could cover the base needs, and the big hydroelectric generators could cover fluctuations.<\/p>\n
But today the old factories and mines and the 9-to-5 workdays are falling by the wayside. Patterns of electricity consumption are becoming more erratic, wrinkling that smooth demand curve. Increasing amounts of solar and wind power have complicated pinheads\u2019 calculations, as well. Because grid operators can\u2019t control these variable power sources, they count them as negative demand rather than supply, further complicating the demand curve. Strong and steady coal won\u2019t cut it anymore. Today\u2019s pinheads need more nimble power.<\/p>\n
For most utilities, particularly in the desert Southwest, the line delineating net demand is shaped kind of like a duck, with its belly sagging around midday, when demand is low and solar generation high, and a long, steep neck stretching back up in the late afternoon as folks kick on their air conditioners and solar drops off. This model is known as the \u201cCalifornia duck curve\u201d because it\u2019s most pronounced in that state, with its high penetration of solar power.<\/p>\n
Pinheads don\u2019t like ducks. If the belly dips too low, there\u2019s a risk of over-generation, so the pinheads have to force power providers to shut down their plants, as happened in California this spring. But they still have to keep a fleet of backup generators \u2013 most often natural gas-fired \u2013 on hand and \u201cspinning\u201d to follow the demand curve back up that steep neck. That process creates a lot of emissions, and, as the neck gets longer, it becomes less and less sustainable.<\/p>\n
The pinhead must always have enough generating capacity o meet the peak of the demand curve, even if that peak only lasts an hour per day.<\/p>\n
An integrated grid, as its proponents envision it, would allow multiple utilities to share that generating capacity. It would create a centralized power market and put a single team of pinheads \u2013 also called an independent system operator \u2013 in charge of following the load of the entire West, with a huge fleet of generators at their disposal. Operators could then send excess California-generated solar power to New Mexico to meet that state\u2019s demand peak, and pump Wyoming wind power to California to keep up with the late-afternoon load.<\/p>\n
A sort of integrated Western grid \u201clite\u201d is already in operation. In 2014, the California Independent System Operator, or CAISO, which runs most of the state\u2019s grid, joined up with utility giant PacifiCorp to form a centralized market where they could buy or sell power in real time to make up for unforeseen supply-and-demand imbalances.<\/p>\n
Several other utilities have joined, including Arizona Public Service and the Los Angeles Department of Water and Power. Salt River Project, the Arizona operator of the coal-fired Navajo Generating Station, signaled its intent to join the market shortly after the plant shuts down in 2019. Public Service Co. of New Mexico, which is looking to ditch coal by 2035, is also interested in participating, and NV Energy, which shut down Reid Gardner coal plant this spring, has long been a member.<\/p>\n
When California has extra solar, the market allows other participants to buy it far more cheaply than coal or natural gas, allowing neighboring utilities to displace some fossil fuel generation. The Energy Imbalance Market, as it\u2019s called, or EIM, has so far saved participants $173 million, according to CAISO, and helped California avoid major solar curtailments.<\/p>\n
Yet the real-time EIM is a mere shadow of a truly integrated grid, because it applies only to imbalances, which make up just about 5 percent of the wholesale electricity market. The bulk of the market is made up of day-ahead trades, where pinheads use sophisticated models to forecast the following day\u2019s net power demand hour by hour, then commit generators to ramp up accordingly. An integrated grid would take the EIM model and apply it to all power purchases. It would radically transform the way the Western grid works, and CAISO estimates that it would save participants more than $1 billion per year. \u201cIt\u2019s cleaner, cheaper and more reliable,\u201d says Zichella.<\/p>\n
For the most part, the current Western grid is technically ready for integration. Western politics, however, have hindered the move to de-balkanize.<\/p>\n
Conservative Western politicians worry about giving up control: Put them on the same grid with California and they might be nudged into complying with the Golden State\u2019s green agenda and high renewable-energy requirements. Pro-coal lawmakers fear that it would phase out coal. Their concerns are well founded, as the centralized market would put cheaper solar, wind and natural gas power in competition with the coal plants.<\/p>\n
California Sierra Club chapters, meanwhile, worry that the state\u2019s green goals could be diluted by sharing energy with coal-heavy regions, since that would also open up markets for coal-power sales. And it\u2019s also possible that an Arizona utility might purchase cheap solar from California, but use it to displace its own solar generation and keep its coal plants running, thus resulting in no net reduction in emissions.<\/p>\n
But integrated grid proponents, and a number of independent studies, point out that coal-generated power is more expensive than other forms of power, thanks to cheap natural gas and a greater abundance of renewables. In the East, where regional grids and markets are the norm, coal is losing ground. Even without an integrated grid, nearly every major Western coal plant has seen its generation decrease in recent years as utilities choose to draw from cheaper, more flexible generating sources.<\/p>\n
Meanwhile, the integration effort is moving ahead. Most of the utilities that are involved in the EIM are eager to take the next step toward full integration. California lawmakers are hoping to ease neighboring states\u2019 concerns about loss of control by restructuring CAISO\u2019s board to include members from other states.<\/p>\n
\u201cThe trend away from high carbon fuels is clear, and we believe irreversible,\u201d Zichella says.<\/p>\n
\u201cRegional integration accelerates this trend. \u2026 In a climate in which new national policy initiatives for climate mitigation are highly unlikely, regional integration provides an elegant and non-coercive mechanism for the clean energy transition across the West.\u201d<\/p>\n","protected":false},"excerpt":{"rendered":"
the darkness, bind them: The West\u2019s bid for one big electric grid<\/p>\n","protected":false},"author":1,"featured_media":69646,"comment_status":"open","ping_status":"open","sticky":false,"template":"","format":"standard","meta":{"_acf_changed":false,"footnotes":""},"categories":[],"tags":[21,490,13,221,28,1426,258],"naviga_topic":[],"class_list":["post-69645","post","type-post","status-publish","format-standard","has-post-thumbnail","hentry","tag-cortez","tag-electricity-production-and-distribution","tag-frontpage-lead","tag-gas-and-oil","tag-headlines","tag-renewable-energy","tag-western-slope"],"acf":[],"author_name":"dh_admin","_links":{"self":[{"href":"https:\/\/dh.durangoherald.com\/tj\/wp-json\/wp\/v2\/posts\/69645","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/dh.durangoherald.com\/tj\/wp-json\/wp\/v2\/posts"}],"about":[{"href":"https:\/\/dh.durangoherald.com\/tj\/wp-json\/wp\/v2\/types\/post"}],"author":[{"embeddable":true,"href":"https:\/\/dh.durangoherald.com\/tj\/wp-json\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/dh.durangoherald.com\/tj\/wp-json\/wp\/v2\/comments?post=69645"}],"version-history":[{"count":0,"href":"https:\/\/dh.durangoherald.com\/tj\/wp-json\/wp\/v2\/posts\/69645\/revisions"}],"wp:featuredmedia":[{"embeddable":true,"href":"https:\/\/dh.durangoherald.com\/tj\/wp-json\/wp\/v2\/media\/69646"}],"wp:attachment":[{"href":"https:\/\/dh.durangoherald.com\/tj\/wp-json\/wp\/v2\/media?parent=69645"}],"wp:term":[{"taxonomy":"category","embeddable":true,"href":"https:\/\/dh.durangoherald.com\/tj\/wp-json\/wp\/v2\/categories?post=69645"},{"taxonomy":"post_tag","embeddable":true,"href":"https:\/\/dh.durangoherald.com\/tj\/wp-json\/wp\/v2\/tags?post=69645"},{"taxonomy":"naviga_topic","embeddable":true,"href":"https:\/\/dh.durangoherald.com\/tj\/wp-json\/wp\/v2\/naviga_topic?post=69645"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}