Christmas 2013

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Grimy!

Union Pacific Railroad 229, Argo Yard Seattle, February 9, 1961.
 

Access at Argo, like everywhere else in Seattle in those days was not a problem. You could darn near drive your vehicle up to the units – except at Interbay, where you could park right behind the round house.

It's a miserable cold and wet day when I located this unit awaiting assignment at Argo Yard. She needs a good bath!

In a cost saving measure, Union Pacific ordered 40 of these units – 205 through 244 – without dynamic brakes, which limited their use to tidewater and undemanding gradients.

Railroad Stuff: Union Pacific Railroad 229, built by EMD as a GP-9, 1,750 hp, in January 1954, serial number 19115. Retired in October 1980.

Delano Files: Stop!

Jack Delano took this photo of a switchman's  signal to the engineer to "Stop!" Jack Delano was a photographer with the Farm Security Administration - Office of War Information. The photo was taken on the Indiana Harbor Belt Railroad in 1943, at Calumet City.

I spent many hours as a young man, riding Canadian National Railways (CNR) 7242 yard switcher in Prince Rupert, British Columbia between 1957 and 1959.

Sundown in Prince Rupert in December was just after 4 p.m. Signaling between switchman and engineer was accomplished with a lamp, not a radio, back in those days. This pattern is carved by the switchman's lamp, signaling the engineer to stop.

CNR 7242 shlepped oil tank cars to the various fish processing plants and ran them over the scales. She constructed and de-constructed time freights.

In the view above, she is loading the ABC rail barge at Pillsbury Point.

Railroad Stuff: General Motors Division (GMD), London, Ontario built CNR 7242 as an SW-900 in December 1957, Serial Number A-1194. Road Class GC-9c, renumbered 7942 in 1985. Retired in 1988.

See Also:  Super Chief

Oil-Electric's 2014 Calendar

Oil-Electric's 2014 "year-at-a-glance" calendar is ready for downloading.  Rendered as a 300 dpi .pdf file, you should obtain an impressive image when printed at 300 dpi on photo paper!

For some time I pondered which of my collectibles would be showcased. Long-time readers know I dropped out of "active" train chasing when the Great Merger began to homogenize trackside viewing. I settled on a photo never posted on Oil-Electric.

I have a hand full of Kodak 130 negatives I must have received in trade as a young man, from a train photographer lost to history. Kodak Safety Film 130 was introduced in 1916 and discontinued in August 1961.

This format - 7 cm x 11.5 cm - yields a stunning photo -  assuming the exposure was correct!

Canadian National Railways (CNR) 1631 was 1 of 10 Fairbanks-Morse (FM) H12-44 locomotives built at FM's Canadian subsidiary, Canadian Locomotive Company (CLC), in Kingston Ontario.

Reading FM's Model Number

                         •  H = hood unit

                         • 12 = 1200 horsepower
                         • 44 = B-B wheel arrangement

FM's CLC built CNR road numbers 1630-1639 in 1955-1956. Notably, Canadian Pacific Railway did not purchase this model. FM produced 336 H12-44's. The first unit was out shopped in 1950; the last in 1961.

The carbody of the H12-44 is yet another example of famed industrial designer Raymond Loewy's creativity. His hand is on a number of memorable locomotives including renowned GG1 electrics and Fairbanks-Morse "Consolidation" Lines (C-Liners).

In September 1952 the Raymond Loewy design elements were removed as a cost-saving measure:

•  Cab lines were squared-off
•  Slanted-nose styling discontinued
•  Roof visor eliminated.
•  And in 1953, fairing over the battery box was removed and louvers added to reduce the possibility of battery explosions. (Note louvers on battery box of CN 1631)

No H12-44 were erected in 1959 or 1960. When production resumed, the carbody had been shortened by three feet and outfitted with a deeper side skirt. The one and only unit was delivered to Chihuahua-Pacific (a.k.a. El Chepe - the Copper Canyon Route,)  in 1961.

•  No locomotives were built by F-M in 1962.
•  The last 8 locomotives built by F-M were H-16-44's delivered in 1963. 

Today, Fairbanks-Morse remains a thriving engine manufacture in Wisconsin. Be sure to click on "Watch the O-P in Action."

This video of an H12-44 has a few good moments when you can hear the "drumming" sound emitted by the opposed piston design. (As compared to the GM-EMD "chant" or the "asthmatic" sounds of the Alco.)

I worked on a summer permit aboard a tug - M/V Martin - owned and operated by Alaska Freight Lines out of Seattle Washington.  It was between my freshman and sophomore years at Washington State University.

She was powered by two Fairbanks-Morse 37F12 Opposed Piston motors, developing 600 horsepower at 400 r.p.m.  And I  remember very well the drumming sound emitted by these engines. My work station as a Wiper was right between the two air intakes at the head of the engines. Here is one of the engine plates of two, off the Martin, from my late Dad's collection:

"Whoop-whoop-whoop-whoop" from Seattle to Anchorage - and back! If you look at the animation on FM's web site of the engine components, you can see the rectangular air intake. Would grab at my tee shirt a foot a way!

Those machines carboned up quickly.  After a 12 day run to Anchorage, we would remove the cylinder port holes, and use a punch bar and compressed air to clear the exhaust ports of carbon deposits.

Whilst making toast this morning, I realized I own a piece of Raymond Loewy! My Sunbeam Toaster, Model T-9, was designed by Raymond Loewy to commemorate the 1939 Chicago World's Fair.

My parents bought it in the 1940's, and I use it two or three times a week! Other than some scuff marks, incurred by dozens of moves up and down the West Coat, it works flawlessly. Still has the original cloth covered cord with Bakelite plug.  And the jewel "light," which is nothing more than a lens in front of the heating elements, shines as you can see!

How many toasters given as Christmas presents this year will still be working 70+ years from now?

See Also: Reader Service Request Part II

Bertha Hits a Wall!

It's been a chuckle-fest watching local prognosticators speculate as to what has brought the world's largest tunnel boring machine (TBM), digging a highway tunnel under Seattle, to a screeching halt near Pioneer Square.

A week ago - December 6th - having just achieved the 1,000 foot mark, Bertha, so named to honor the female mayor of Seattle, Bertha Landes, has nosed into a mysterious circumstance, unable to continue forward movement.

Click magnifier glass for full resolution

Everything from a buried locomotive to outgoing Mayor McGinn's buried bicycle has been suspected to be the cause for the shut down. This, despite numerous reports from Tunnel Partners and Washington State Department of Transportation spokesmen, that Bertha has progressed beyond former land fills, and is well into "native" ground.

Bertha is an Earth Pressure Balance Shield. (EPB). EPB's are shield machines designed  to burrow through soft under ground conditions containing water under pressure, such as loose sedimentary deposits with large boulders and a high water table.

Because the cutting face is pressurized, divers from Ballard Diving & Hyperbaric Services may be deployed into the cutting face.   Bertha can only back up about 18", allowing a crew to enter the void and determine was is causing the blockage.

(As an example, pressure measured in a South African gold mine, two miles below the surface, approached 12,000 pounds per square inch!)

Cick to open; click magnifier glass for full view

It is riveting to see the results of Bertha's progress thus far!

See Also:  
•  Some Assembly Required
•  Some Assembly Required - Part Two
•  Some Assembly Required - Part Three
•  Off in a Cloud of Dust!

December 7, 1941

Rails to Trails - Part 2: To Market to Market!

CONTINUES FROM PART ONE

In Part 1 we discovered that the soil under the Palouse Region was perfect for dry farming. So began in the late 1800's a land rush, converting the Palouse from cattle and sheep ranching to golden fields of wheat. In the UP advertisement, the price per acre, in 2013 dollars, would range from approximately $80 to $250 (USD.)

By 1890 nearly all the Palouse lands had been taken up and converted to wheat, pea. Lentil, and other dry farming crops.

PALOUSE SUCCESS CAPTURES GLOBAL INTEREST 

In Pacific Monthly Magazine, October 1874, Rinaldo M. Hall wrote:

"The repute of the Palouse development grabs the attention of international markets. Names Walla Walla, Palouse, Colfax, was uttered on the commodity exchanges in Liverpool and Europe.

 "In 1903 the estimate of the chief of the United States Bureau of Statistics of the Department of Agriculture was 14.4 bushels per acre for the wheat yield of the entire country. For the states of Oregon, Washington and Idaho the average was 21.2 bushels per acre, nearly 48 per cent higher than for the country as a whole.

"Then, again, Inland Empire wheat weighs too much that it is next to impossible to find any sufficiently light [weight] to grade as "No. 1.

"While in the wheat sections of the Middle West the farmer counts himself fortunate who can raise a crop that is good enough to get into the "No. 1" classification, 58 pounds per bushel, Inland Empire wheat averages from 59 to 65½ pounds per bushel.

 "In Minnesota a sack of wheat weighs on an average of about 115 pounds; in the Inland Empire, in 1903, it tipped the scale at about 130 pounds.

Wheat quickly became King."  (Note two bag sewers on combine.)


 Hall continued:

•  "There had never been anything like a complete crop failure since the first settler arrived.
•  Grain is sown in the autumn, about the time the rains begin; remains in the ground during the period of greatest precipitation (usually in the form of snow); matures and ripens with the decreasing rainfall of early spring and summer, and is harvested from July to December, the driest part of the year.
•  With a rainfall of twenty inches, a yield of 40 bushels to the acre is an ordinary thing, while 50, 60 and 70 [bushels] are often grown. Spring wheat, under favorable conditions, yields from 20 to 30 bushels per acre. 
•  The cost of wheat production in the Inland Empire is relatively so much less and the yield so far ahead of many much advertised …that those who have not visited the region often discredit actual returns from harvest fields. o Average yield of wheat for United States is about 15 bushels per acre.
•  Yield in the Red River Valley, North Dakota, is from 5 to 35 bushels per acre.
•  Yield in the Inland Empire, 40 to 68 bushels per acre.
•  Oats, barley, flax and rye are also grown in large quantities and in a profitable manner.

The profit of wheat-raising in Oregon, Washington and Idaho was readily seen."

TO MARKET TO MARKET

People could not profit from such abundance, however, unless they could ship their crops to market. Before the arrival of the railroads in the 1880s, the only route out was by steamboat via the Clearwater, Snake and Columbia Rivers.

And there were the added bottlenecks at Celilo Falls (The Dalles) and Cascade Rapids, now Cascade Locks, around which the sacks of wheat had to be unloaded a sack at a time, loaded onto rail cars, transported via wagon portage, and then loaded back on to river steamboat, to continue to Portland Oregon.

The demand for this portage railroad in fact became the first railroad in Oregon!  This "Oregon Pony" was one of three placed into service, moving not only wheat, but passengers and freight around the rapids.

And while river transport was a challenge, the real challenge came in transporting the wheat down to the river bank!

The lower Snake cuts a canyon that is in places more than 2,000 feet (609 meters) below productive farmland, and the richest agricultural country lies in the northwest, the section highest above the river. The Palouse elevation ranges from 700 feet (213 meters) above sea level in the Snake River valley, to 2,600 feet (792 meters) to the southeastern part, not including two elevations of 3,300 feet and 3,700 feet (1,006 - 1,128 meters.)

The simplest solution was an exhausting and dangerous scramble down from the canyon rim by horse and wagon. Sometimes drivers tied logs or brush behind their rig to slow their descent. The roads themselves contained many switchbacks, and in some places imaginative farmers constructed turntables allowing wagons and teams to negotiate sharp corners.

A great "before and after" comparison demonstrates the problematic descent to a river landing:

On the left, in blue, is what became known as the Spiral Highway. We students from WSU referred to it as the Lewiston Grade. Idaho Department of Transportation (IDT), refers to the route as US 195 or 5 Mile Hill.

This was the last leg from Genesse Idaho down to the Clearwater River at Lewiston Idaho. The paved 0highway, completed in 1917, followed the original ungraded wagon trail. It is nine and a half miles long, average gradient 4%.

On October 28, 1977, the much-simplified "dog leg" alignment was opened to the public. It chops nearly four miles off the descent down 5 Mile Hill but with an added risk; 2½ miles of 6% grade, followed by 4½ miles of 7% grade! With 5 truck escape ramps!

But this was no way to get huge crops to market!  Inventive settlers searched for other methods of transporting the crop, coming up with logical solutions such as chutes and tramways.

CHUTES & TRAMWAYS

The first grain chute was a four-inch-square wooden pipe, 3,200 feet long, constructed on the Snake River's southern wall at Moxwai (now Knoxway) Canyon in 1879 in what is now Garfield County. It was designed and built by local settler and entrepreneur Major Sewell Truax.

The Majors effort hardly became an instant success. It was labor intensive, and toasted the wheat!

At the top of the chute, workers had to un-sack the wheat that had been sacked aboard the combine, pour it into the four-inch square pipe, and then re-sack the wheat at the bottom of the chute. It was time consuming and hazardous.

Friction often ruined the grain, scorched or pulverized through friction in the tube. Here is an example of how flowing wheat scours wood:

Passage of grain was as though the pipe was though sand blasting the pipe! This section of wall was taken from the demolition of Globe Elevator in Superior Wisconsin.  Scenes of the reclaiming of old timber was featured on Discovery's "Ax Men" some time back.

Truax installed novel approaches, such as baffles, which slowed the descent. However, the "fix" created the chute to clog. Primitive though it was, Truax's device proved more efficient than hauling wheat downhill by wagon, and within a few years other chutes lined both sides of the river.

Studying a detailed foot-by-foot assessment of the Snake River by the U.S. Corps of Army Engineers, I found references to a handful of chutes located on the Snake River:

•  Shelton's Landing
•  Kelly's Bar (2 warehouses)
•  Bishop's Bar (1 warehouse)
•  Truaxe's Upper Landing (inventor of the chute, 1 warehouse)
•  Truaxe's Lower Landing (1 warehouse)
•  Paine's Landing (1 warehouse)

There may have been other locations, which are now lost to history.

TRAMWAYS

Tramways were an alternative to wagon road or chute.

There were two types of tramways installed to gain the River.

•  Aerial or Bucket
•  Rail Car

Think of the bucket tramway as being similar to a ski lift.
•  A mile-long bucket tram was erected at Interior, one mile below Wawawai in Whitman County. It operated from 1901 until 1938.
•  Upriver, the Judkins bucket tram, with a 2-1/2-mile-long cable.  It replaced a grain chute at Kelly Bar in 1893 and continued in service until 1929. The Judkins Bucket Tramway, transported individual sacks, weighting between 110 and 120 pounds (50 to 55 kg.) 2,000 feet (610 meters) from Valentine Ridge down to the Snake River landing.
•  Here they unloaded the wheat, sack by sack, at a staging area at the top of the tram. Sacks were placed on arm-like metal seats, and like a modern day ski lift, the wheat descended on a heavy cable. The genius of the bucket tram was in the spacing of the buckets; an equal number of buckets, on the ascent and descent sides of the cable. The weight of the sacks of wheat (approximately 130 pounds each) powered the system!

 

While the bucket tram was a vast improvement over the wooden chute, it was a tedious sack-by-sack descent.

The second type of tramway used rail cars. The Mayview Tram was located several miles down stream from Valentine Ridge, at Mayview, Garfield County.

 Constructed in 1891, he Mayview Tram proved to be the most intricate and long lasting of all. Tram cars rain on wooden rails, topped with an iron strap. over nearly a half-mile of rails and trestles, for more than a half-century. It appears to have been the only rail tram on the Snake River in Washington, but at least one other stood on a tributary in nearby Idaho.

As with the bucket tram, the Mayview Tram was powered by gravity! A cable with a car attached to each end, looped over a pulley at the top. Exquisite in its simplicity, requiring only a brakeman to control the system.

Workers loaded the upper ear with wheat and, when started downhill; it pulled the empty buggy up. Halfway down, the tracks split so the cars could pass each other. 

In 1891, residents of Mayview dismantled this tram, using its parts to build the Mayview tramway about a mile away, the biggest and longest lasting of the region's many trams. The Mayview tramway and a few other Snake River grain conveyances operated into the 1940s. Its

Click to view video of Mayview Tram in action!

 

Clearly,  the pioneering farmers who converted the vast Palouse grasslands into the most highly productive acreage in the United States, demonstrated resourcefulness in moving their crops to market.

However, the process of transporting grain down to the Snake River landings was painstakingly slow and labor intensive.

And they were at the mercy of the "Great Wheat Fleet" to finally reach market.

Next:  A River Runs Through It