The Powerhouse by Steve Levine

The technology that has the potential for a breakthrough that could revolutionize life in the next few decades is not one many might think of. It’s the battery. The next generation of battery could make affordable, long-range electric vehicles available to the masses. They could make variable energy sources like wind and solar more viable competitors to traditional, fuel-burning energy.

Though it is not widely publicized, major companies, start-ups and even government agencies are involved in a race to bring the next generation battery to the market. The company that creates it and the nation that can establish the manufacturing base for it will be in a position to make a lot of money. It’s a dramatic story, which Steve Levine relates in The Powerhouse.

Levine provides some background on the development of the lithium ion battery and improvements to it. His focus, however, is Argonne National Laboratory.

Argonne, located near Chicago, started as a lab to research nuclear energy and weaponry. It traces its history back to the Manhattan Project and the University of Chicago lab where Enrico Fermi started a manmade, self-sustained nuclear chain reaction. At the close of the book, Argonne was taking the lead of a hub of battery technology development aimed particularly at creating the battery that will put electric cars in millions of garages.

Argonne is not the only player in the field. Levine also reports on some of the companies, large and small, and countries that are staking out their places in the field. Automakers, particularly General Motors, are particularly interested in these devices that might radically change their industry.

The chemistry of these batteries, particularly the cathodes, is discussed in the book, but not deeply. It is not a textbook on electrochemistry. It is instead a book on the business and politics of an uncertain technological development that has the potential to alter the economic and environmental condition of the world.

If you’re interested in this book, you may also be interested in

Bottled Lightning by Seth Fletcher

The Grid by Gretchen Bakke

Lights Out by Ted Koppel

Professional Amateur by T. A. Boyd

Levine, Steve. The Powerhouse: Inside the Invention of a Battery to Save the World. New York: Viking, 2015.

Bottled Lightning by Seth Fletcher

Lithium is one of the most abundant elements in the universe. It is also in important part of the small, light, energy-packed rechargeable batteries that make our portable devices possible. It is also likely an important part of future batteries that might make longer-running electric cars and large-scale energy storage possible. Journalist Seth Fletcher describes the history of lithium as a battery material, especially in batteries for electric and hybrid cars, in Bottled Lightning.

Fletcher goes way back to the batteries made by Alessandro Volta in 1800 and, possibly more important, the first rechargeable batteries made by Gaston Planté in 1859 (a lead acid battery).

Fletcher treats this older history briefly. Like his readers, he is not as interested in batteries as in the uses of energy batteries enable. One of these uses is transportation. Many early cars were electric vehicles (EVs) that were powered by batteries. The technology of the time required large batters to hold relatively modest charges, which limited the range of the cars. Gasoline held much more energy than batteries, was widely available and cheap. For most motorists, gasoline beat batteries hands down.

Of course, priorities and technologies change. The energy crisis of the 1970s, along with a growing environmental movement, pressured automakers to develop electric car concepts. The technology of the time probably wasn’t up to the task for what most drivers wanted, and in combination with a return of low oil prices and automotive industry inertia the electric car development of that era came to an end.

Technology rolled on, as it does, and the development of cell phones—and the portable, networked computers they have become—put pressure on the battery industry to come up with lighter, longer lasting, rechargeable batteries. They found the answer in lithium-based batteries, especially the lithium-ion type that is common today.

When the automakers were again needing to look at alternatives to oil, mostly for fuel economy and emission control reasons, the new lithium-ion batteries changed the equation for the effectiveness and affordability of electric and hybrid cars. It is yet to become cheap, as attested by the price of the high-end electric cars made by Tesla. Even cars marketed for the mass market like the Chevy Volt is expensive without subsidies. (The Volt is technically a plug-in hybrid, but for the majority of drivers who travel less than forty miles a day it can be all-electric.)

There is a lot of potential for advance batteries becoming the industrial driver of the future. A growing electric car market will create a demand for a lot of batteries. The increased uses of renewable energy, and the eventual retirement of coal-burning and other fuel-consuming power plants, depends on energy storage to even out the waxing and waning of energy sources that vary with the cycles of the sun and the whims of the weather. The 2009 stimulus bill put a lot of money into new battery research and manufacturing, but Asia is still ahead of the U.S. in manufacturing capacity if not in innovation. If America wants a piece of this revolution (we’re going to buy a lot of these batteries, so maybe we should reap some of the benefits of making them), we’ll need to invest in these industries (as China is) and not leave to Asian manufacturers to lengthen their lead.

If you’re interested in this book, you may also be interested in

The Age of Edison by Ernest Freeburg

The Big Roads by Earl Swift

Professional Amateur by T. A. Boyd

Technology in World Civilization by Arnold Pacey

Fletcher, Seth. Bottled Lightning: Superbatteries, Electric Cards, and the New Lithium Economy. New York: Hill and Wang, 2011.

Rust by Jonathan Waldman

It can be tough to be an engineer. You live in a world in which everything falls apart in spite of your best efforts. Constraints abound, not the least of which is that even the most enduring materials last only so long. If economics is the dismal science, engineering is the dismal art.

If the technical aspects of rust, more broadly corrosion, do not impress most readers, the economic aspects of it might. The U.S. Department of Defense (DOD) estimated in 2011 that it spent $21 billion annually dealing with corrosion. One might guess that corrosion is costing us at least as much in our civil infrastructure, private businesses and homes.

Of course, corrosion isn’t a sexy subject. To make its awareness videos on corrosion more appealing, the DOD recruited LeVar Burton, known for his roles in Roots and Star Trek: The Next Generation, to host. Journalist Jonathan Waldman attempts to hook his readers by starting his book, Rust, with a story of an American icon, the Statue of Liberty.

When the Statue of Liberty was built, her makers unintentionally created something like a giant battery. While this current worked well to preserve the copper shell of the statue, atoms of the iron framework began to shuffle away, leading to serious corrosion. By the 1980s, the problem was serious enough to inspire a major renovation effort.

Waldman approaches the problem of corrosion through stories. In the Statue of Liberty we see that is something historically overlooked by engineers and actively ignored by administrators who can pass the problem on to a successor. Similarly, the military resisted Congress’ push to make it more responsive to the issues. Since then, the DOD has integrated corrosion concern into the way it does business, but civilian agencies are mostly dragging their heels.

Only a few of the stories come from government. Waldman also looks at the issue from the perspective of the aluminum can industry and the Trans-Alaska Pipeline—his recounting of a pigging of the pipeline surprisingly conveys some of the sense of drama that the people who undertake the effort must feel. He also dips into the early history of corrosion prevention in the work of chemist Sir Humphrey Davy for the British Navy and Harry Brearley, a discoverer and popularizer of stainless steel.

Waldman’s book is not a textbook on corrosion by any means; it is written for a popular audience. He does try to present how serious an issue it is—especially how costly it is. Fortunately, reasonable solutions to some of our most pressing rust problems are within reach if we have the will to do something about it.

If you’re interested in this book, you may also be interested in

The Age of Edison by Ernest Freeburg

The Big Roads by Earl Swift

Bottled Lightning by Seth Fletcher

Empires of Light by Jill Jonnes

The Grid by Gretchen Bakke

The Invention of Air by Steven Johnson

Lights Out by Ted Koppel

The Powerhouse by Steve Levine

Waldman, Jonathan. Rust: The Longest War. New York: Simon & Schuster, 2015.