Big Hill

For other uses, see Big Hill (disambiguation).
Looking west, 1890. Safety Switch No. 1 and its uphill spur are shown foreground and right; the truss bridge under the rear of the train, now known as the "Old Bridge", survives as a tourist attraction
Panorama of the tunnels from the west, 1908

The Big Hill on the Canadian Pacific Railway main line in British Columbia, Canada, was the most difficult piece of railway track on the Canadian Pacific Railway's route.[1] It was situated in the rugged Canadian Rockies west of the Continental Divide and Kicking Horse Pass. Even though the Big Hill was replaced by the Spiral Tunnels in 1909, the area has long been a challenge to the operation of trains and remains so to this day.

The essential problem was that the railway had to ascend 1,070 feet (330 m) along a distance of 10 miles (16 km) from Field at 4,267 feet (1,301 m) climbing to the top of the Continental Divide at 5,340 feet (1,630 m).[2] The narrow valleys and high mountains limited the space where the railway could stretch out and limit the grade (hence the later decisions to bore extra mileage under the mountains and lower the grades)

Construction

To complete the Pacific railway as quickly as possible, a decision was made to delay blasting a lengthy 1,400 feet (430 m) tunnel through Mount Stephen and instead build a temporary 8-mile (13 km) line over it. Instead of the desired 2.2% grade (116 feet to the mile) a steep 4.5% (some sources say 4.4%) grade was built in 1884.[3] This was one of the steepest railway lines anywhere. It descended from Wapta Lake to the base of Mount Stephen, along the Kicking Horse River to a point just west of Field, then rose again to meet the original route.

Three safety switches were built to protect against runaway trains. These switches led to short spurs with a sharp reverse upgrade and they were kept in the uphill position until the operator was satisfied that the train descending the grade towards him was not out of control. Speed was restricted to eight miles per hour (13 km/h) for passenger trains and six (10 km/h) for freight, and elaborate brake testing was required of trains prior to descending the hill. Nevertheless, disasters occurred with dismaying frequency.

Field was created solely to accommodate the CPR’s need for additional locomotives to be added to trains about to tackle the Big Hill. Here a stone roundhouse with turntable was built at what was first known simply as Third Siding. In December 1884 the CPR renamed it Field after C.W. Field, a Chicago businessman who, the company hoped, might invest in the region after he had visited on a special train they had provided for him.

At that time, standard steam locomotives were 4-4-0s, capable enough for the prairies and elsewhere, but of little use on the Big Hill. Baldwin Locomotive Works was called upon to build two 2-8-0s for use as Field Hill pusher engines in 1884. At the time they were the most powerful locomotives built. Two more followed in June 1886. The CPR began building its own 2-8-0s in August 1887, and over the years hundreds more were built or bought.

The Spiral Tunnels

The old and the new line
Lower portal of "Number Two" tunnel, Spiral Tunnels, Field, British Columbia. The locomotives are passing under the train they are pulling.

The Big Hill "temporary" line was to remain the main line for twenty-five years, until the famous Spiral Tunnels were opened on September 1, 1909.

The improvement project was started in 1906, under the supervision of John Edward Schwitzer, the senior engineer of CPR’s western lines. The first proposal had been to extend the length of the climb, and thus reduce the gradient, by bypassing the town of Field at a higher level, on the south side of the Kicking Horse river valley. This idea had quickly been abandoned because of the severe risk of avalanches and landslips on the valley side. Also under consideration was the extension of the route in a loop northwards, using both sides of the valley of the Yoho river to increase the distance, but again the valley sides were found to be prone to avalanches. It was the experience of severe disruption and delay caused by avalanches on other parts of the line (such as at the Rogers Pass station, which was destroyed by an avalanche in 1899) that persuaded Schwitzer that the expensive solution of digging spiral tunnels was the only practical way forward.

The route decided upon called for two tunnels driven in three-quarter circles into the valley walls. The higher tunnel, "number one," was about one thousand yards in length and ran under Cathedral Mountain, to the south of the original track. When the new line emerged from this tunnel it had doubled back, running beneath itself and 50 feet (15 m) lower. It then descended the valley side in almost the opposite direction to its previous course before crossing the Kicking Horse River and entering Mount Ogden to the north. This lower tunnel, "number two," was a few yards shorter than "number one" and the descent was again about fifty feet. From the exit of this tunnel the line continued down the valley in the original direction, towards Field. The constructions and extra track would effectively double the length of the climb and reduce the ruling gradient to 2.2%. The new distance between Field and Wapta Lake, where the track levels out, is 11 12 miles (18.5 km).[4]

The contract was awarded to the Vancouver engineering firm of MacDonnell, Gzowski and Company and work started in 1907. The labor force amounted to about a thousand and the cost was about 1.5 million Canadian dollars.

Even after the opening of the spiral tunnels, Field Hill remained a significant challenge and it was necessary to retain the powerful locomotives at Field locomotive depot.[4]

See also

References

  1. "Construction of the CPR". Old Time Trains.
  2. Lake Louise & Yoho (Map) (5 ed.). Cochrane, Alberta: Gem Trek Publishing. ISBN 1-895526-14-0.
  3. Buck (1997: 23)
  4. 1 2 Soole, G. H (1937). "Field and the Big Hill". Factors in railway and steamship operation. Montreal: Canadian Pacific Railway. General Publicity Department. OCLC 264115110.

External links

Coordinates: 51°26′10″N 116°24′13″W / 51.435976°N 116.403653°W / 51.435976; -116.403653

This article is issued from Wikipedia - version of the Tuesday, February 09, 2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.