The story behind the WSJ’s story of a cast-off elevator in Burlington, Colo.

Burlington 01

By Ronald Ahrens

From reading Wayne G. Broehl, Jr.’s huge history of Cargill, I’ve become alert to other news about the grain-trading behemoth. So a Wall Street Journal article, titled “Growers’ New Clout Tilts Farm Economy,” caught my eye on Aug. 16 

“Powerful farmers push Cargill, ADM for better prices, and may soon compete,” the sub-headline reads.

According to Jacob Bunge’s story, several factors have risen in importance to give large farmers more leverage.

One is that farmers have more storage capacity for their grain. They don’t have to sell soon after harvest, going to the local elevator and accepting the current price.

A second factor is more options for direct sale of crops to stock feeders or ethanol plants.

And like everything else, there’s a digital aspect. “Venture capital-backed startups are developing services that scan a wider range of grain buyers or connect farmers directly with food makers,” Bunge reports.

Burlington 02

Bunge’s story in the Journal tells of a Cargill grain buyer who “said his job got harder still after Cargill in 2016 sold the Burlington, Colo., grain elevator–and later, nearby cattle feedlots that were reliable destinations for the grain grown by many of [the buyer’s] contacts.”

Here we skidded to a stop. Burlington, Colo., is in the records of Tillotson Construction Co. My uncle, Charles J. Tillotson, worked on Burlington and recalls a 1950 incident there involving a train and cement mixer. The locomotive derailed, but no one was injured.

The 300,000-bushel Burlington elevator had eight tanks of 20 feet in diameter and 115 feet in height. It was a twin-leg elevator with a pit 19 feet deep. The cupola measured 23 feet wide, 63.75 feet long, and 44 feet high. Pulley centers were 168 feet apart.

Could this be the same elevator Cargill sold two years ago? The big company has “divested itself of some far-flung grain elevators that aren’t near a railroad or river.”

And Bunge recounts another marvel: the anecdote concerns an Illinois farmer–one who tills 9,000 acres and rents out 5,000 more–who partnered with another farmer to buy a 750,000-bushel Cargill elevator. 

If they don’t find it too expensive to operate and insure, dispatching large quantities of grain when and where they want will be a challenge for Cargill and ADM to face.

 

Book report, Part Two: In the 1800s, Cargill already had huge elevators

Cargill 03

By Ronald Ahrens

Although it’s understandable why, we fail to appreciate how big and well-developed the grain business already was by the the years after 1895, when electric motors were adopted to power internal mechanisms and reinforced-concrete was first used for elevator construction.

This much we take away from Section One of Cargill: Trading the World’s Grain. Will Cargill, the “Frontier Entrepreneur” of the section’s title, boldly expanded his operation as the railroads pushed northwest and Minneapolis became a center of trade.

In an 1889 statement of holdings, Cargill said he had “54 Elevators & Warehouses in Minn & Dakota)” worth $147,597.16 and “16 Elevators and Warehouses in Wisc, G Bay RR” worth another $18,479.29.

Cargill 02We tend to think of wooden elevators as modest structures, but in the 1870s the New York Central & Hudson River Railroad had two massive terminals in New York City holding 3.5 million bushels of grain for export. Cargill shipped over the Great Lakes to Buffalo and then by rail to the terminals.

Buffalo also had millions of bushels of capacity in its multitude of elevators.

As early as 1873, a year of economic panic and the start of a profound international depression (not to mention a Midwestern grasshopper plague), Will Cargill was building elevators and warehouses along the railroad tracks. He shelled out more than $12,000 for “a large elevator” in Cresco, Iowa.

Panic 01Three years later Cargill had settled in La Crosse, Wisc. When he and his wife, Ella, went on a pleasure trip to Chicago, a La Crosse newspaper said, “They have been making so much money on wheat they they’ll buy Chicago if they feel like it.”

And in 1879, Cargill’s office became part of a telephone network in La Crosse. Author Wayne G. Broehl, Jr. points out it was only three years after Alexander Graham Bell invented the telephone.

At the same time Cargill expanded along the Green Bay and Minnesota line with nine warehouses. As a lake port, Green Bay became an important focal point, and here Cargill and his partner bought a 30,000-bushel warehouse and leased a 250,000-bushel terminal. The latter, which stood 100 feet high, had been built in 1862 for $80,000.

Decades later, Tillotson Construction Co., of Omaha, showed the value inherent in a fire-proof elevator built of reinforced concrete. In 1946, for example, Tillotson put up a 250,000-bushel concrete elevator at Dike, Iowa, for $87,250.

In the early 1880s, a new type of wooden elevator, the cribbed elevator, became common. As Milo S. Ketchum wrote in The Design of Walls, Bins, and Grain Elevators, published in 1907, “In this construction, 2″ x 4″, 2″ x 6″, or 2″ by 8″ are laid flatwise, so as to break joints and bind the structure together and are spiked firmly.”

Some called the method a “log cabin” approach. It resisted the insistent, fluid-like pressure on the sides and made for stout construction.”

In the 1880s, with another partner, George Bagley, Cargill pushed into the Dakota Territory with a small elevator at Aberdeen and several warehouses. By 1886, Bagley & Cargill also had a 250,000-bushel terminal in Minneapolis.

Combining all Cargill-controlled storage facilities, there was 1.6 million bushels of capacity–ready for the bounty of wheat that poured in as farming began in the Red River Valley.

 

Tillotson built a 181,000-bushel annex at Weatherford, Okla., in 1954

Reader Terry Christensen found himself wondering about something, so he wrote this comment, which is lightly edited for style:

Hello and thanks millions for these awesome stories!

My dad, George T. Christensen, worked for Tillotson Construction in the early ’50s, and he died in an unrelated accident while building the elevator in Boxholm, Iowa, in 1955. My mom told us that he worked on several elevators in Oklahoma, and I would love to see the construction notes for all the elevators they built in Oklahoma. I think they built the one in Weatherford, Okla., in 1952 or 1953 and maybe the one at Hydro Okla.?

Thanks again,

Terry Christensen

Well, in fact,  we don’t know anything about Hydro, but Tillotson Construction Co. sure did build at Weatherford–a 181,000-bushel storage annex in 1954.

We find specifications in the construction record. At the top of the entry, the coded notes tell us there were eight tanks of 17 feet in diameter by 115 feet in height. Two 24-inch conveyor belts moved grain through the run atop the tanks. There was a tunnel, probably from the main house to the annex. And a tripper would sweep grain off the belt into a storage tank.

“The key feature of the steam-powered conveyor belt that ran alongside the tops of the grain bins was the ‘trimmer’ or ‘tripper,’ a device that deflected the flow of grain off the belt, and down and into a particular grain bin,” writes William J. Brown in American Colossus: The Grain Elevator 1843 to 1943.

Here are the notes for Weatherford (as well as Dacoma and Orienta, Okla.); Newell, Iowa; and Bellwood, Neb.:

Weatherford 01

Weatherford 02

 

 

The engineering behind elevator construction began with retaining walls

 

Before electronic scales weighed the grain, weights and a fulcrum did the trick.

Story by Kristen Cart

Nothing is quite so revealing as a vintage book. Ronald Ahrens alerted me to his discovery of an engineering textbook, written by Milo S. Ketchum, about retaining walls and elevator bins. Prof. Ketchum was the dean of the College of Engineering at the University of Colorado (my alma mater) when he wrote The Design of Walls, Bins, and Grain Elevators. First published in 1907 by the Engineering News Publishing Company, of New York, it boasted a second edition in 1911.

From the first few paragraphs, revelations abound. Most eye-opening is the historical context of its publication.

In 1907, surviving Civil War veterans were well-established in their old age. No one yet considered the possibility of the worldwide conflagrations to come. Comanche wars in Texas were still an ugly living memory, more recent to people than the Vietnam War is to us. Grandmothers shared their memories of living in sod houses on the Great Plains. Movies were not yet a national pastime. Airplanes and automobiles were on the drawing board–the Ford Model T would begin production the following year.

When grain was delivered to elevators, it came by barge, rail, or wagon. The business model that drove the elevator boom was in its infancy. Engineers had just begun working with reinforced concrete for bridges, dams, and skyscrapers, but much remained to be done.

Grain transport by truck was a later innovation.

In the introduction, the book gets right to the nuts and bolts of the problem it purports to solve.

A special subset of engineering concerns granular fluids. Grain acts both as a solid and as a fluid–it can be piled in a conical pile because of internal friction which is absent in liquids, but it can flow very much like water. Containing such a fluid requires an understanding of internal pressures–both vertical and outward–that are exerted on a container. All of these considerations boil down to a mathematical model that accurately describes the materials, structures, and shapes required.

The book first examines retaining walls, the simplest structure for containing granular fluids, and proceeds to bins and elevators from there.

Failure to heed safe engineering principles bore disastrous results in Fargo, North Dakota.

Thus we have a textbook that gets into the weeds of that math and physics, ultimately used to teach future designers how to do grain bins. The young men schooled in the years following 1907 would be the builders, engineers, superintendents, and architects who started the concrete elevator building boom.

Early grain-storage leader Buffalo experienced the boom in full

Buffalo 07

By Ronald Ahrens

“Silent crowd watches through the long night hours as workers search mill ruins for more missing bodies,” the Buffalo Times blared in 1913.

As an early leader in grain storage and milling, Buffalo, N.Y., was also a test site (of sorts) for elevator mishaps.

This report, culled from a firefighting blog, shows how the explosion even hit a passing train: 

An explosion devastated a grain elevator, killing at least 17 men and injuring 60 more. The elevator, located at the Husted Milling and Elevating Co. at Elk and Peabody streets, was left in flames after the dust explosion. The engineer of a passing train was killed by the blast that shattered windows, injuring many passengers. A dozen boxcars loaded with grain were also destroyed. Every ambulance in the city responded, but there were so many injuries that the flatbed section of the damaged train was used to transport many of the wounded grain elevator workers. Firemen poured tons of water on the volatile remains all day and into the night, hoping to cool things enough to allow a complete search. Losses were estimated at a half-million dollars.

Grain dust is explosive. After the electrification of elevator mechanisms in the late-1890s, it took a while to figure out that electric motors should be shielded to suppress sparks.

Static electricity can build up around conveyor belts.

Machinery can overheat.

And of course, there’s a reason “No Smoking” warnings are now everywhere in an elevator.

Tillotson Construction Company’s first reinforced concrete elevator, which was built in 1939 at Goltry, Okla., had a dust collection system. Notes in the company records say, “3 H.P. fan, 42″ collector dust bin.”

We lack any more details but are striving to increase our knowledge of dust collection inside elevators.

 

 

 

 

Around 1900, electricity and concrete were advances for Buffalo’s elevators

Buffalo 03

Buffalo and Erie County Historical Society

By Ronald Ahrens

Yesterday we looked at the rise of Buffalo, N.Y., as a grain storage and processing center, one that developed after the the Erie Canal opened in 1825. Buffalo was the port where grain was unloaded from lake boats to canal boats. A bevy of steam-powered bucket elevators sprang up.

Today we consider the advances made in Buffalo after the introduction of electricity and electric motors to replace coal and steam engines. We also look at the rise of slipformed concrete to replace wooden elevator houses.

In his essay on the history of Buffalo’s elevators, Henry H. Baxter notes that inexpensive electric power permitted the electrification of elevators. It also encouraged grain processing: the milling of cereal, flour, and animal feed.

Buffalo 05The first electric elevator–a retrofitting, we assume–was soon after a large-capacity generating station started up in 1895. Two years later, the Electric and  Great Northern elevators were built solely around compact electric motors.

“In this way they eliminated steam boilers, engines, chimneys, numerous workers, and the necessity of bringing fuel to the elevator or mill site,” Baxter explains.

Nevertheless, grain scoopers were still needed, and the Irish from South Buffalo dominated the International Longshoremen’s Association Grain Shovelers Union Local 109 as late as 1940. During Buffalo’s heyday as many as 3,000 men were employed scooping grain from the holds of lake carriers. By 1996, the Buffalo News reported only 80 scoopers remained, the last of their kind in the United States.

A Facebook page offers revealing photos of scoopers at work.

The corresponding advance was the use of reinforced concrete. Baxter explains: “At first, bins were built of wood and usually lined with iron. After 1890 steel bins were built in a number of different arrangements. Since that time reinforced concrete has been used.

Buffalo 04

Buffalo and Erie County Historical Society

To get up to the headhouse, workers used a man lift. “This is an endless moving belt stretching from basement to the top with 12-inch square platforms attached every 25 feet or so. To go up or down a worker has only to step on a wooden platform going in his direction and hold on.”

Baxter does not specify what a worker might hold for security. Of course, a worker could  fall–that’s why enclosed cages replaced the more primitive method.

A reinforced-concrete elevator was built at Buffalo in 1907. Baxter’s understated description of the method is worth quoting at length:

At the beginning, a form usually four feet high was built on the foundation slab. Screw jacks placed at intervals of about seven feet were used to raise the form. Workers operated the jacks at a rate calculated to raise the form about six inches an hour. This rate gave concrete time to set at the bottom before being exposed by the slowly rising form.

Using this method it took about ten days for the Standard Elevator to reach the height of 125 feet. This was the average height of the bins. After completion of the bins, the workhouse was slipformed up until the structure reached a height of about 200 feet.

The top or deck of a grain elevator under construction was an extremely busy place. Placement of steel rods, pouring of concrete, and jacking of the form were continuous processes. Generally, each jack man had twelve jacks to tend to. A whistle sounded as a signal for each man to make one turn on each jack. Raising the form six inches required 24 whistle signals each hour. During that time a jack man would make 288 turns–almost five a minute–on his jack. Understandably a jack man occasionally got tired enough to miss a few turns. This caused his section of the form to be lower than the rest, resulting in a considerable stress on the form. Such an imbalance brought distress to the job superintendent.

 

In the 1800s, Buffalo grew as a steam-powered grain-transfer center

Buffalo 02

By Ronald Ahrens

Early in the 19th century, surplus grain could be a problem, whether for the farmer or grain traders. It was better to turn it into hooch rather than let it rot.

The advent of grain elevators changed all that, as we learn from Henry H. Baxter’s essay explaining how Buffalo, N.Y., became one of the world’s leading grain storage and processing centers.

Baxter’s essay, published by the Buffalo and Erie County Historical Society, explains that the Erie Canal changed everything when it opened in 1825. “Thus, grain had to be unloaded from lake boats and transferred to canal boats at Buffalo,” Baxter writes.

Buffalo 01

Buffalo and Erie County Historical Society

By 1842, Joseph Dart had figured out how to build a steam-powered bucket elevator to raise grain from lake boats to storage bins. There the grain stayed until it was needed for milling, malting, or moving to another location.

“Dart, I am sorry for you,” one skeptic said. “It won’t do. Remember what I say–Irishmen’s backs are the cheapest elevators ever built.”

Within just 15 years, Buffalo’s harbor had 10 wooden elevators with capacity of more than 1.5 million bushels.

Years later, Dart credited Oliver Evans with devising the mechanical operation for that first 55,000-bushel elevator.

Elevators solved problems in keeping grain “dry, cool, free from vermin, and safe from pilferage,” Baxter writes. “Moreover, elevators make it possible to weigh and sample grain to determine the quality, quantity, and grade as a basis of payment. Elevator-stored grain can be improved by drying, cleaning, grading, and blending.”

By 1865 Buffalo could boast some 29 elevators, including two “floaters”–elevators that “could travel to a lake boat in the outer harbor or in the Erie Basin.” They would unload the lake boat’s cargo into the string of canal boats that followed behind.

The next big innovation would come around 1900 when electric power replaced steam. And soon, slipformed elevators of reinforced concrete would start to replace the wooden grain houses.

Looking to Greenwood from I-80, we see it, twice as tall as the trees

Co-op from Greenwood from I80 overpass IIII

In this photo, our friend Kim David Cooper shows the same refined sense of composition as in his oil paintings. “A different view of your Greenwood elevator,” he says.

The photo’s slug line notes the shot was taken from an overpass on Interstate 80.

Standing at least twice the height of the tallest tree, doesn’t the elevator make a handsome addition to the landscape?

Book report, Part One: Cargill’s first elevators and the blind-horse phenomenon

By Ronald Ahrens

Good fortune has led to my acquiring a copy of Cargill: Trading the World’s Grain, by Wayne G. Broehl, Jr., published in 1992. I got a like-new copy on Amazon for (he goes to the closet to consult credit card records) $7.99—a screamin’ deal.

The massive, 1,007-page book is just part one of Prof. Broehl’s ambitious and masterful history of Cargill—the company let him look at everything, and the reader is left with a detailed account that’s also based on public sources as specific as records on local water wells.

Reading this behemoth will be like skinning a whale with a pocket knife, but as I progress you can look for periodic posts showing what I’ve learned.

Cargill 01In this volume Prof. Broehl starts with Will Cargill’s reaching his majority after the Civil War. As a young man, Cargill showed a disposition for trading grain. It led to a few elevators but also many “flathouses.” These single-story warehouses proliferated along the railroad tracks in northeastern Iowa and southern Minnesota, where Cargill got his start; they could hold a lot of grain but of course they were subject to fire.

Not only could a flathouse burn down in an instant, but other misfortunes could strike.

“This particular spring of 1874 produced a string of bad luck for Will Cargill; in May, his Albert Lea [Minn.] warehouse collapsed, spilling some 2000 bushels of grain,” the professor tells us.

If that had been the season’s lone calamity, Cargill would have gotten off easy. “It had hardly been cleaned up when reports reached Will that another warehouse, at Ridgeway, Iowa, had burned to the ground, ‘the only piece of property which he had neglected to insure…”

Near Austin, Minn., Cargill lost another flathouse “after a couple of years by overloading.” He built an 18,000-bushel elevator with an eight-horsepower steam engine providing the power.

Screen shot 2018-08-06 at 10.49.59 AM

Screen shot from the Northwestern Miller. Wikimedia Commons say, “The Northwestern Miller (1880–1973) was a periodical founded by the Miller Publishing Company of Minneapolis, Minnesota. A trade publication for the grain and flour industry, it also published short fiction.”

Yes, besides flathouses, we learn of “elevator[s] with power machinery for elevating grain, like the large Cresco [Iowa] operation of Beadle & Slee. “By this time, however, elevating mechanisms were more widespread, sometimes simple ‘cup and belt’ devices run by a horse led in a circle, a ‘blind horse’ elevator, so-called. An old-timer recounted how one elevator ‘had a whip attached above the horse, and there was a hole in the wall where the men … could holler down and the horse … and a string attached to the whip so they could pull and hit the horse.”

Seeking more information about blind-horse elevators I went online and found this passage from the Northwestern Miller as reported in Volume 47, published May 24, 1899:

“By some happy, or otherwise, chance, it was discovered that a blind horse will keep on in his circular path, never seeming to know that he isn’t going anywhere, nor can he tell when the man in charge is out of sight. The poor brute will follow his halter around his little circle from noon till night, thinking all the time that he is getting along in the world.

“This set the elevator men thinking with the result that the blind-horse market immediately began to pick up. Poor old blind nags in the Dakotas, Minnesota, and Iowa were surprised to find themselves in demand. Instead of being allowed to die peacefully in pastures and their bones to be forgotten, they were sought after with an eagerness that made them feel there was really some distinction in being blind. It was not unusual, a few years ago, for an elevator company to buy up a carload of blind horses in Iowa and ship them into Minnesota or the Dakotas. But that time has passed and the day of the blind horse is nearly over. Even now, in the odor of gasoline he can smell, if he can’t see, his finish.”

Blind horses happily acceded this odious role to power machinery. Steam engines producing up to 10 horsepower were used to drive the machinery, and they allowed for construction of larger elevators. In 1873—the year of a financial panic as well as a grasshopper plague—Cargill “decided to increase his operations along the McGregor Western tracks and contracted for a large elevator at Cresco. Its total cost eventually came to over $12,000.”

Anyone who wants to read along will find passages of the book online, thanks to Google Books.

A glimpse of Firth makes us go forth with speculations and an investigation

Firth, NE Cemetery 2012 II

By Ronald Ahrens

As with yesterday’s post, we’re working from a photo sent by Kim Cooper, a friend of this blog who happens to have grain elevators in his heritage, too. He likes to incorporate them into his superb, plein air landscape paintings.

Sometimes Cooper sends pictures.

“Here’s one from Firth, Nebraska,” he said. “Looks like a rounded top.”

Indeed, the rounded headhouse was the signature on Tillotson Construction Co.’s elevators after about 1950.

But other builders could have used this style. We see no mention of Firth in Tillotson’s records. We see Minatare (1941), Rushville (1947), Polk and Richland (1948), Hordville (1949), Bellwood (1950), Cedar Bluffs (1950), Aurora and Omaha and Wahoo (1950), Greenwood and David City and York (1951), Fairfield (1952), Bellwood (340,000 bushels of storage in 1954), and Waverly (1955).

That’s 15 locations. Tillotson built far more elevators in Iowa and Oklahoma than in the company’s home state of Nebraska. But 15 isn’t bad. Based on anecdotal information we also suspect a couple of other locations. 

But after calling up Dennis Kenning, we’ve ruled out Firth as an unrecorded job by Tillotson. Kenning is sales and marketing manager for Farmers Cooperative, which has headquarters in Dorchester, Neb. and dozens of elevators throughout southeastern Nebraska.

Kenning expressed curiosity, looked into the matter, and emailed his findings:

“Here’s what we found out,” he wrote.

  • Constructed sometime in the ’60s
  • Roberts Const Co.
  • Hutchinson Foundry & Steel
  • Sabetha, Kansas

We found Roberts Construction Co. located in Axtell but were unable to reach them. The question arises about Roberts’ design source–were there any Tillotson connections?