This imaginative turn-of-the-century drawing predicted that wave-energy generators, like Duffy’s Wave Motor, would be "a source of power for various purposes."
A young man with artistic aspirations could not have resisted the crowds of Market Street on a Saturday night. Nothing was more San Francisco than the street that cut through its heart. Like a weekly fair, all classes of society and the many flags of a port town mixed on the promenade from Powell to Kearny. “Everybody, anybody, left home and shop, hotel, restaurant, and beer garden to empty into Market Street in a river of color,” wrote one young woman of the time.
Among the throngs of sailors and servants, we could almost certainly have found a young Jewish kid with an overbearing father and a canted, humane take on human foibles. Long after the 1890s and far away from the city by the bay, he would make a name for himself with a set of drawings that made him the most popular cartoonist of the machine age.
It’s certainly not much of a stretch to imagine the twelve-year-old Reuben Goldberg participating in the weekly Saturday night parade and happening past a working model of one of the oddest machines he was likely to have encountered on the foggy streets of the city. The Wave-Power Air-Compressing Company was one of a half-dozen concerns that were attempting to harness the waves of the Pacific. And it just so happened to have an office at 602 Market, just a block from the main San Francisco procession. It may have been the sort of place that a machine-obsessed little boy might have found himself wandering on a Saturday night.
There he might have seen the small model that the company invited the public to come inspect. To the untrained eye, it might have looked like a very complex pier. A float attached to the structure could move up and down freely as the operator raised or lowered the level of water. Atop the pierlike contraption, there would have been a series of pipes containing compressors hooked onto a reservoir for the pressurized air. The machine’s inventor guaranteed that “whatever the extent of the perpendicular movement, the pumps take in some air and effect some compression, and thus do some work.” From there, the promoters of the company would have told anyone who cared to listen that the compressed air could be piped to shore, where it could run dynamos to generate electricity.
Like the other wave motors of the time, the model machine purported to show, step-by-step, how the horizontal or vertical motion of the waves would be converted into usable power for human beings. And always, this seemingly simple transformation seemed to require an inordinate amount of pumps, and chambers, and floats, and levers, and pulleys. They seem like terribly serious versions of what has come to be known as Rube Goldberg machines. The adjective derives from an insanely popular series of drawings Goldberg did in the 1920s called “Inventions.” One can now use his name to describe “any very complicated invention, machine, scheme, etc. laboriously contrived to perform a seemingly simple operation.”
One exemplary Goldberg cartoon shows how to build a better mousetrap, the constant aim of American inventors. In it, a mouse dives for a painting of cheese but instead breaks through the canvas, which lands him on a hot stove, so he jumps off it onto a conveniently located block of ice that is on a mechanical conveyor that drops the mouse onto a spring-loaded boxing glove that sends the mouse caroming into a basket that triggers a rocket that sends the mouse in the basket to the moon.
There’s a curious resonance between Goldberg’s famous cartoons and the wave motors of the 1890s. In both, there are no black boxes. Every part, in one way or another, has to physically touch every other part. Electronics didn’t exist and dynamos would ruin the fun. But if the classic drawings gently mock the foibles of mad inventors, it’s in the wave motor inventors of fin-de-siècle San Francisco that Goldberg could have seen the dead-serious version of ill-fated mechanical creative obsession.
A patent drawing for Duffy’s Wave Motor.
The group behind the machine might have been delightfully zany to the young Goldberg, too. The company was the brainchild of Terrence Duffy, an inventor who had recently completed a self-published book called From Darkness to Light: Or Duffy’s Compendiums of Nature’s Law, Forces, and Mind Combined in One (1893), which purported to explain all the mysteries of nature through magnetism. It served up wisdom like, “The blood is a magnetic fluid, floating in the tension of the body. The brain is the equivalent to a magnetic or electrical storage battery or coils. The brain floats in the tension of space, each organ being like millions of fine wires coiled in receptacles, for the storage of impressions, or experience, or intelligence.” A later book received a rather discourteous reception in the San Francisco Chronicle, in which the reviewer wrote, “mental unsoundness is everywhere visible in this book.” However, the only non-wave-motor or book-related mention of Duffy in the San Francisco papers of the era was his wife’s 1888 (very) public appeal that he properly support his three children.
But even if he was a deadbeat dad and a bit of a nut, Duffy had a dream as big as the Pacific Ocean and little could deter him. As a result, the Wave-Power Air-Compressing Company was incorporated in May of 1895. A florist-cum-inventor, Duffy, along with a small group of friends, offered a million dollars of stock. That is to say, they created a million shares out of thin air and offered them at $0.25, far below the “par value” of $1 each.
It was a big dream, but there’s no suggestion in the historical record that the wave motor ever became something other than the model that Goldberg may have seen. But in California at the time, it must have seemed like wave power was on the verge of a breakthrough. Starved for power, during the decades sandwiched around the turn of the century the state was home to a burst of wave motor experimentation that is startling in its intensity and seriousness.
In San Francisco, isolated even from the water power available to its easterly neighbors, the city’s promoters—who had much to gain from population increases—hungered for greater access to energy. Without it, the city could lose its spot atop the West Coast pecking order. Given the lack of cheap fuel or water power, having the Pacific Ocean sitting right there, uselessly pounding the city’s coastline, was rather galling. In fact, in 1895 the San Francisco Examiner held a contest asking its readers, “What shall San Francisco do to acquire one-half million citizens?”
This was the question of the day, upon which fortunes depended. Out of thousands of responses, the contest’s judges—including James Phelan, later mayor of the city and California senator—picked the following response: “Offer fifty thousand dollars ‘bonus’ to any inventor of a practical mechanism capable of commercially utilizing ocean ‘wave power.’” The suggestion had been submitted by one “Eureka Resurgam,” a mixed Classical pseudonym meaning, “I have found it” (Eureka) in Greek and “I will rise again” (Resurgam) in Latin. The contest’s selection was a powerful indication that San Francisco needed power—and that wave motors were considered a possible breakthrough technology that could get it.
But not everyone was buying what the wave motor guys were selling. “San Francisco is the home of the ‘wave-motor,’” one skeptic wrote in the magazine Machinery. “One comes around, as I am informed from one to three times a year. The external swell always rolling in here works the wave-motor man into an ecstasy of invention and he persuades an opulent friend to invest in the scheme.”
Expecting such responses, wave motor proponents could snap back with the prediction of America’s leading inventor: “Edison said only a few years since that electricity would be the future commercial power of the world. That is true,” went one advertisement. “He also said the ocean waves would furnish the power of the future. That is also true.”
The federal government may be cutting corners left and right, but that hasn’t stopped the NSA from requesting nearly $900 million to help beef up its supercomputing capabilities. According to budget documents released by the Department of Defense yesterday, the NSA is looking to construct a massive new High Performance Computing Center in Maryland, designed to harness plenty of supercomputing muscle within an energy efficient framework. As with many other data centers, the NSA’s $896.5 million complex would feature raised floors, chilled water systems and advanced alarm mechanisms, but it would also need about 60 megawatts of power — the same amount that powers Microsoft’s gargantuan, 700,000 square-foot data center in Chicago. According to the DoD, however, the NSA would use that juice judiciously, in the hopes of conserving enough water, energy and building materials to obtain LEED Silver certification. Another chunk of the funding, not surprisingly, would go toward fortifying the facility. The NSA is hoping to pour more than $35 million into building security and perimeter control, which would include a cargo inspection facility, advanced surveillance, and systems designed to detect any radiological, nuclear, or chemical threats. If all goes to plan, construction would wrap up by December 2015. 
InformationWeek, Department of Defense [PDF] | Email this | Comments
