Cascade Tunnel

Cascade Tunnel
	The eastern portal of Cascade Tunnel in 2012
Overview
Line	BNSF Scenic Subdivision (formerly Burlington Northern and Great Northern)
Location	Stevens Pass, Washington, U.S.
Coordinates	47°44′33″N121°04′10″W / 47.74250°N 121.06944°W
Status	Active
Crosses	Cascade Range,; near Stevens Pass
Operation
Opened	1929, 95 years ago
Traffic	Railroad
Character	Primarily freight service; Some passenger service (Amtrak)
Technical
Length	7.80 miles (12.55 km)
No. of tracks	Single
Track gauge	4 ft 8+1⁄2 in (1,435 mm) standard gauge
Highest elevation	2,881 feet (880 m)
Route map

Last updated October 13, 2024 • 7 min readFrom Wikipedia, The Free Encyclopedia

The Cascade Tunnel refers to two railroad tunnels, its original tunnel and its replacement, in the northwest United States, east of the Seattle metropolitan area in the Cascade Range of Washington, at Stevens Pass. It is approximately 65 miles (105 km) east of Everett, with both portals adjacent to U.S. Route 2. Both single-track tunnels were constructed by the Great Northern Railway.

The first was 2.63 miles (4.23 km) in length and opened in 1900 to avoid problems caused by heavy winter snowfalls on the original line that had eight zig zags (switchbacks). The current tunnel is 7.8 miles (12.6 km) in length and entered service in early 1929,^[1]^[2] approximately 1.5 miles (2.4 km) south of and 500 feet (150 m) lower in elevation than the original. The present east portal is nearly four miles (6.5 km) east of the original and is at 2,881 feet (878 m) above sea level, 1,180 feet (360 m) below the pass. The tunnel connects Berne in Chelan County on its east with Scenic Hot Springs in King County on its west and is the longest railroad tunnel in the United States.

History

Original tunnel

Construction began on the first tunnel on August 20, 1897, and was completed on December 20, 1900. The tunnel was 2.6 miles (4.2 km) long. John Frank Stevens was the principal engineer on the interim switchback route (opened in 1893, with grades up to 4 percent) and the first Cascade Tunnel. Stevens Pass, located above the tunnels, was named after him.

The tunnel had a fume problem from the coal-burning steam locomotives. It was built with a 1.7% (1:58.8) gradient eastbound, which was too close to the ruling gradient of 2.2%. Because of the steepness of the line, the locomotives had to pull hard to make the grade and thus burn more coal, which would lead to immense smoke in the bore. The tunnel was electrified, with the project completed on July 10, 1909, eliminating the problem. The unusual system used was three-phase AC, 6.6 kilovolts at 25 Hz, from a 5 MW (6,700 hp) hydroelectric plant on the Wenatchee River just west of Leavenworth. The tunnel section only was electrified; 4.0 route miles (6.4 km) or 6.0 track miles (9.7 km) and 1.7 percent grade through the tunnel chamber.

The motive power for the section consisted of four GN boxcab locomotives supplied by the American Locomotive Company; they used electrical equipment from General Electric and were of 1,500 horsepower (1,100 kW) and weighed 115 short tons (104 t) each.^[3]^[4] Initially three locomotives were coupled together and hauled trains at a constant speed of 15.7 mph (25.3 km/h),^[5] but when larger trains required four locomotives the motors were concatenated (cascade control), so that the speed was halved to 7.8 mph (12.6 km/h) to avoid overloading the power supply. The consulting engineer, Cary T. Hutchinson, published a detailed description of the system in 1909.^[6]

The tunnel was still plagued by snow slides in the area. On March 1, 1910, an avalanche at Wellington (renamed Tye after the disaster) near the west portal of the original 2.6 miles (4.2 km) Cascade Tunnel, killed 96^[7]-101^[8] people, the deadliest avalanche disaster in U.S. history.^[9] This disaster prompted the construction of the current tunnel.

The old tunnel was abandoned in 1929, after the new longer and lower tunnel was opened. During the winter of 2007–2008, a section of the roof caved in and created a debris dam inside the tunnel, making it impassable to pedestrians due to standing water and ceiling debris. A warning was issued to stay clear of the western side of the old tunnel for a distance of 0.5 mi (0.80 km) for the indeterminate future.

Current tunnel

The new Cascade Tunnel was opened on January 12, 1929.^[1]^[2] The new line had 72.9 route mi (117.3 km) or 93.2 route miles (150.0 km) electrified, between Skykomish and Wenatchee. The ruling grade was still 2.2 percent, although 21 miles (34 km) of 2 percent or worse grade was eliminated. The line length was reduced by 8.7 miles (14 km), and maximum elevation was lowered by 502 feet (153 m) from 3,382 feet (1,031 m) to 2,881 feet (878 m).

The new tunnel was started in December 1925, and was built in just over three years by A. Guthrie of St. Paul, Minnesota; the aim was to finish by the winter of 1928–1929 so that further maintenance on deteriorating snow sheds could be avoided. Project manager and engineer Frederick Mears was assigned to make sure the project was completed.^[10]^[11]

While the new tunnel was being constructed, the Great Northern received delivery of five new electric locomotives. The new locomotives had a motor-generator supplying DC traction motors, and the single-phase AC supply required only one instead of two overhead conductors. Hence, the Great Northern re-electrified 21 miles (34 km) of the original route at single-phase (11 kV, 25 Hz) AC, including 8 miles (13 km) that were subsequently abandoned upon completion of the new tunnel, and used steam locomotives on the short remaining stretches of the old line.

On March 5, 1927, the three-phase electrification was abandoned, and the new locomotives were placed in service between Skykomish and the east portal of the old tunnel; the time was reduced from 4 hours for a 2,500 short tons (2,300 t) eastbound train to 1 hour 45 minutes for a 3,500 short tons (3,200 t) train. Furthermore, for the first time regenerated power could be used by another train or fed back to the utility company (power from regenerative braking was previously dissipated in a water rheostat at the power station).^[12]

Two years later, the new tunnel opened.^[12] It was the longest railroad tunnel in the Americas until 1989, when the Mount Macdonald Tunnel in British Columbia was completed, moving the Cascade into second place.

Electrification was removed in 1956, after a ventilation system was installed to eliminate diesel fumes.^[13]

On April 4, 1996 an eastbound freight train broke through the doors at the east portal after they did not open properly. There were no injuries, but the broken doors slowed operations for a couple of days while replacement doors were brought up from the Seattle area.^{[ citation needed ]}

Operations

West Portal in 2011 CascadeTunnelWestPortal.jpg — West Portal in 2011

The current Cascade Tunnel is in full operation and receives regular maintenance from BNSF Railway. The new alignment is a straight-line tunnel running between Berne and Scenic Hot Springs. It is currently part of the BNSF Scenic Subdivision between Seattle and Wenatchee, and Amtrak's Empire Builder runs through it. Because of safety and ventilation issues, this tunnel is a limiting factor on how many trains the railroad can operate over this route from Seattle to Spokane. The current limit is 28 trains per day.^[14] Speed through the tunnel is 30 miles per hour (48 km/h) for passenger trains, 25 miles per hour (40 km/h) for freight trains.

The gradient in this tunnel is 1.565% (1:64), with the rise from west to east. The gradient is 2.2% on the west side from the town of Skykomish. Most recently, telecommunications assets and track sections inside the tunnel were improved.^{[ when? ]}

Ventilation operations

Because of the length of the tunnel, an unusual system is used to ensure that the air inside remains breathable and reduce problems with excess fumes. As a train enters the west portal of the tunnel, a red-and-white-checkered door closes on the east portal and high-power fans blow in cool air through a second portal to help the diesel engines. As long as the train is within the tunnel, the fans work with reduced power to avoid pressure problems. When the train is 0.5 miles (1 km) to the tunnel exit, the door begins to open.^{[ citation needed ]}

Once the train has cleared the tunnel, the door closes again and the fans operate for 20 to 30 minutes with maximum power to clear the tunnel of exhaust before the next train passes through. In the opposite direction, the door opens when the train is within 0.6 miles (1 km). The fans are powered by two 800 horsepower (600 kW) electric motors, clearing the air through the seven miles (11 km) of tunnel within 20 minutes. Present-day train crews carry portable respirators for use in the event of a fan failure or a train stalling inside the tunnel. In addition, there are emergency/safety stations spaced 1,500–2,500 feet (460–760 m) apart, depending on the location within the tunnel, that provide additional air tanks and equipment to be used in the event of a ventilation/other failure.

The tunnel door is protected by an absolute signal near the east portal; on the west side, another signal with dual-flashing lunar aspects indicates to eastbound trains that the tunnel fans are operating.

Notes

1 2 3 "Great tunnel opening ready". Spokane Daily Chronicle. (Washington). Associated Press. January 12, 1929. p. 1.
1 2 3 "Wheels thunder in wonder bore". Spokesman-Review. (Spokane, Washington). January 13, 1929. p. 1, part 1.
↑ "Electric Locomotives for the Great Northern". The Railroad Gazette. 46 (1): 120–122. 1909.
↑ Haut (1969), p. 27.
↑ American Railway Association, (Division V - Mechanical) (1922), p. 901.
↑ Hutchinson (1909).
↑ Roe 1995, pp. 79–91.
↑ Middleton 1974 ^{[ page needed ]}
↑ "Deadliest US avalanche was 111 years ago near Stevens Pass". KING5. March 1, 2021.
↑ Cascade Tunnel (Part 1) (1929).
↑ Jordan, Lee. "Railroad Created Alaska's Largest City". Echo News. Retrieved July 3, 2017.
1 2 Middleton 1974 , pp. 163–169
↑ Hidy et al. 2004 , pp. 267–268
↑ "Washington State, 2010–2030 Freight Rail Plan, pg 81" (PDF). Archived from the original (PDF) on December 24, 2012. Retrieved February 12, 2011.

Related Research Articles

Skykomish is a town in King County, Washington, United States. The population was 161 as of the 2020 census, down from an estimated peak of "several thousand" in the 1920s.

The Great Northern Railway was an American Class I railroad. Running from Saint Paul, Minnesota, to Seattle, Washington, it was the creation of 19th-century railroad entrepreneur James J. Hill and was developed from the Saint Paul & Pacific Railroad. The Great Northern's route was the northernmost transcontinental railroad route in the U.S.

The Chicago, Milwaukee, St. Paul and Pacific Railroad (CMStP&P), better known as the Milwaukee Road, was a Class I railroad that operated in the Midwest and Northwest of the United States from 1847 until 1986.

The Empire Builder is a daily long-distance passenger train operated by Amtrak between Chicago and either Seattle or Portland via two sections west of Spokane. Introduced in 1929, it was the flagship passenger train of the Great Northern Railway and was retained by Amtrak when it took over intercity rail service in 1971.

The Connaught Tunnel is in southeastern British Columbia, on the Revelstoke–Donald segment. The 5.022-mile (8.082 km) tunnel carries the Canadian Pacific Kansas City (CPKC) main line under Mount Macdonald in the Selkirk Mountains. The tunnel, opened by the Canadian Pacific Railway (CP) in 1916, replaced the previous routing over Rogers Pass.

Stevens Pass is a mountain pass through the Cascade Mountains located at the border of King County and Chelan County in Washington, United States. U.S. Route 2 travels over the pass, reaching a maximum elevation of 4,061 feet (1,238 m). The Pacific Crest Trail crosses the highway at Stevens Pass. The BNSF Railway's Cascade Tunnel lies 1,180 feet (400 m) below the pass summit.

The Skykomish River is a 29-mile (47 km) long river in the U.S. state of Washington which drains the west side of the Cascade Mountains in the southeast section of Snohomish County and the northeast corner of King County. The river starts with the confluence of the North Fork Skykomish River and South Fork Skykomish River approximately one mile west of Index, then flowing northwesterly towards Puget Sound. It is joined by the Sultan River and the Wallace River at Sultan. It then meets the Snoqualmie River to form the Snohomish River at Monroe. The Snohomish River continues along the river valley eventually dumping into Port Gardner Bay on Possession Sound.

The Great Northern Railway's class Y-1 comprised eight electric locomotives with AAR 1-C+C-1 wheel arrangements. The locomotives were used on the 73-mile (117 km) electrified portion of the railroad, from Wenatchee, Washington to Skykomish, Washington, including the Cascade Tunnel.

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The Scenic Subdivision or Scenic Sub is a railroad line running about 155 miles (249 km) from Seattle, Washington to Wenatchee, Washington. It is operated by BNSF Railway as part of their Northern Transcon. This route includes the Cascade Tunnel, as well as the 1893 site of the "last spike" near Scenic, Washington, which marked the completion for the Great Northern Railway transcontinental railway line built by James J. Hill.

The Tye River is a river in the U.S. state of Washington. It rises near Stevens Pass in the Cascade Mountains and flows west, joining the Foss River to form the South Fork Skykomish River. Its waters eventually empty into Puget Sound near Everett via the Skykomish River and Snohomish River. U.S. Route 2 follows the river's entire length. A BNSF Railway line follows most of the river except near the pass where the tracks use the Cascade Tunnel. Powerlines run by the Bonneville Power Administration (BPA) follow the Tye River west of Tunnel Creek.

Three-phase AC railway electrification was used in Italy, Switzerland and the United States in the early twentieth century. Italy was the major user, from 1901 until 1976, although lines through two tunnels also used the system; the Simplon Tunnel between Switzerland and Italy from 1906 to 1930, and the Cascade Tunnel of the Great Northern Railway in the United States from 1909 to 1939. The first standard gauge line was in Switzerland, from Burgdorf to Thun, from 1899 to 1933.

Baldwin, the locomotive manufacturer, and Westinghouse, the promoter of AC electrification, joined forces in 1895 to develop AC railway electrification. Soon after the turn of the century, they marketed a single-phase high-voltage system to railroads. From 1904 to 1905 they supplied locomotives carrying a joint builder's plate to a number of American railroads, particularly for the New Haven line from New York to New Haven, and other New Haven lines. Westinghouse would produce the motors, controls, and other electrical gear, while Baldwin would produce the running gear, frame, body, and perform final assembly.

The Stevens Pass Historic District is an area within a large rectangle 3.2 by 18.2 miles and extends from the Martin Creek Tunnel on the western slope of the crest to the eastern portal of the present Cascade Tunnel above Nason Creek on the eastern slope. The area is ruggedly mountainous and the terrain is covered with timber and granitic outcroppings. The Cascade Range interfered with the Great Northern Railway effort to develop a deep water western terminus in Puget Sound. A gap in the Cascade Range, at Stevens Pass, was found suitable at an elevation slightly in excess of 4,000 feet (1,200 m) about 45 miles (72 km) east of Seattle. The first effort an elaborate switchback system, replaced by a tunnel which was itself replaced by a second tunnel.

The St. Paul Pass Tunnel was a railway tunnel in the northwest United States at St. Paul Pass, on the Montana-Idaho border. The tunnel was on the main line of the Chicago, Milwaukee, St. Paul & Pacific Railroad, commonly known as "The Milwaukee Road."

The Great Northern Z-1 was a class of ten electric locomotives built for the Great Northern Railway They were used to work the route through the second Cascade Tunnel. They were built between 1926–1928 by Baldwin Locomotive Works, with Westinghouse electrics, and stayed in service until dieselisation in 1956. Each was of 1,830 horsepower (1,360 kW) with a 1-D-1 wheel arrangement, although they were always used in coupled pairs.

The Glacier Park Limited was a named passenger train operated by the Great Northern Railway in the United States that ran between St. Paul and Seattle between 1915 and 1929. The Glacier Park Limited came to be when another one of Great Northern's St. Paul to Seattle routes, The Oregonian was renamed. The Limited also had a split with a small consist going to Portland along the route of the Spokane, Portland and Seattle Railway. The train was meant to promote Great Northern's on-line scenic attraction Glacier Park as a tourist destination, advertising the park's unequaled scenery and easy access by its trains, which stopped on both the Eastern and Western edge of the park.

References

American Railway Association, (Division V - Mechanical) (1922). Wright, Roy V.; Winter, Charles (eds.). Locomotive Cyclopedia of American Practice (6th ed.). New York, NY: Simmons-Boardman Publishing. OCLC 6201422.
Cascade Tunnel (Part 1) (June 14, 1929), "The Cascade Tunnel : Great Northern Railway, U.S.A (No.I)" (PDF), The Engineer, 147: 644–646{{citation}}: CS1 maint: numeric names: authors list (link)
Cascade Tunnel (Part 2) (June 21, 1929), "The Cascade Tunnel : Great Northern Railway, U.S.A (No.II)" (PDF), The Engineer, 147: 672–674{{citation}}: CS1 maint: numeric names: authors list (link)
Cascade Tunnel (Part 3) (June 28, 1929), "The Cascade Tunnel : Great Northern Railway, U.S.A (No.III)" (PDF), The Engineer, 147: 698–700{{citation}}: CS1 maint: numeric names: authors list (link)
Haut, F.J.G. (1969). The History of the Electric Locomotive. London: George Allen and Unwin Ltd. ISBN 004-385042-1.
Hidy, Ralph W.; Hidy, Muriel E.; Scott, Roy V.; Hofsummer, Don L. (2004) [1988]. The Great Northern Railway: A History. Minneapolis: Minnesota University Press. ISBN 978-0-816-64429-2. OCLC 54885353.
Hutchinson, Cary T. (1909). "The electric system of the Great Northern railway company at Cascade tunnel". Proceedings of the American Institute of Electrical Engineers. 28 (11): 1409–1447. doi:10.1109/PAIEE.1909.6660192. S2CID 51673934.
Legg, John F. "UCRS-Reference (GN Stevens Pass)". Archived from the original on March 14, 2005. Retrieved February 25, 2005.
Middleton, William D. (1974). When the steam railroads electrified. Kalmbach Books. ISBN 0-89024-028-0.
Roe, JoAnn (1995). Stevens Pass. Seattle, WA: The Mountaineers. ISBN 0-89886-371-6.
Wood, Charles; Wood, Dorothy (June 1, 1989). The Great Northern Railway. Pacific Fast Mail. ISBN 978-0-915713-19-6.

External links

Scientific American n.s. v.137 1927. Scientific American, July 1927 - America's Longest Tunnel.
University of Washington Libraries Digital Collections – Lee Pickett Photographs Over 1400 photographs documenting scenes from Snohomish, King and Chelan Counties in Washington State from the early 1900s to the 1940s. Includes images of the Cascade Tunnel construction.
Cascade Tunnel # 15 — Pictures and details of the "Fanhouse" at the east portal of the tunnel
Radio Broadcast of the 1929 Cascade Tunnel Dedication
Winchester, Clarence, ed. (1936), "Tunnelling against time", Railway Wonders of the World, pp. 47–52 illustrated description of the construction of the second Cascade tunnel

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[gtoprdy-1] 1 2 3 "Great tunnel opening ready". Spokane Daily Chronicle. (Washington). Associated Press. January 12, 1929. p. 1.

[wonbore-2] 1 2 3 "Wheels thunder in wonder bore". Spokesman-Review. (Spokane, Washington). January 13, 1929. p. 1, part 1.

[3] "Electric Locomotives for the Great Northern". The Railroad Gazette. 46 (1): 120–122. 1909.

[FOOTNOTEHaut196927-4] Haut (1969), p. 27.

[FOOTNOTEAmerican_Railway_Association,_(Division_V_-_Mechanical)1922901-5] American Railway Association, (Division V - Mechanical) (1922), p. 901.

[FOOTNOTEHutchinson1909-6] Hutchinson (1909).

[FOOTNOTERoe199579–91-7] Roe 1995, pp. 79–91.

[8] Middleton 1974 ^{[ page needed ]}

[9] "Deadliest US avalanche was 111 years ago near Stevens Pass". KING5. March 1, 2021.

[FOOTNOTECascade_Tunnel_(Part_1)1929-10] Cascade Tunnel (Part 1) (1929).

[Echo-11] Jordan, Lee. "Railroad Created Alaska's Largest City". Echo News. Retrieved July 3, 2017.

[:0-12] 1 2 Middleton 1974 , pp. 163–169

[13] Hidy et al. 2004 , pp. 267–268

[14] "Washington State, 2010–2030 Freight Rail Plan, pg 81" (PDF). Archived from the original (PDF) on December 24, 2012. Retrieved February 12, 2011.

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