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Transportation Deployment Casebook/2023/Saskatchewan Railway

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Introduction

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Saskatchewan is a province in western Canada with an estimated population of 1,205,119 as of 2020. Historically, the people here lived mostly by farming. The advent of the railroad promoted the development of agricultural civilization in the region and connected it geographically with the rest of Canada and the United States. In this case, the difficulties involved in developing transportation policies and solutions to those concerns can be examined by focusing on the life cycle of rail traffic.

Mode Description

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Technological Characteristics

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A wheeled vehicle that transports people and cargo along the track is called a railway, which the locomotive and carriages are guided by the track. Most modern wheels and rails are constructed of metal. There are typically more than two sets of carriages in rail transportation due to the metal wheels typically reduced friction resistance compared to rubber-tired wheels. A steam or diesel engine provides the propulsion when running.

Advantages

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The railway is the dominant technology of the modern era also the representation of the development and assurance of modernity.

Transportation and Economy
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First, it can move people and cargo more rapidly and cost-effective. According to Withuhn(2019), transportation prices per mile decreased tenfold and transit speeds improved tenfold as rail networks expanded across North America in the 19th century. Two million people were employed by the railways at a period of great prosperity. Additionally, almost all happenings in industry, mining and agriculture depend on the railway system. In the following nearly 100 years, it becomes to a significant national economic index indicator.

Community and Culture
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Railway is necessary for both personal and professional travel, the sale of commodities, delivery, and mail. Individuals enjoy the items from the distant place in time and encourages interpersonal contact. Even across countries, regional ties have become deeper. In addition to fostering social connection, the railway also promoted cultural interactions. Lengthy train rides gave rise to new genres of literature and advertising.

Politics
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As a symbol of the contemporary world, the significance of railroad is the effective fusion of equipment, labor, buildings, capital, transportation, and decision-making tools.

The shares, the intricate bureaucracy, and the multiple procedures imply that the railway is a driving force behind the development of the transportation system on a political and social level. Moreover, due to its networked nature, urbanization, suburbanization, nation-building, colonial exploitation, and global capitalism are all made possible.

Main Market

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As an entity, the railway network has a firm grip on a nation. Revill (2013) claims railways serve as a sort of spatial dictature, and corporate profit-seeking is a form of feudalism with exploitative and coercive characteristics. For instance, the Grange Movement in the US in 1867 provided evidence of the scope and significance of the fight between farmers and the railways and territorial monopoly. Railroad supported in immigration, economy, and market relying on people. It was commonly accepted that Saskatchewan's wheat boom in 1896 depended on the expansion of the railway system.

Transportation mode before the railway

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Piror mode

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In Saskatchewan, trails and waterways were the primary modes of transportation prior to the construction of railways. Waterways like the Saskatchewan River and its tributaries was commonly used and transporting via canoes and steamboats.

Trails offered another mode of mobility in Saskatchewan, which usually include native paths, buffalo trails, and explorer trails. Horses and cows were used as “engine” and connected with carts, wagons, and travois, for transporting.

Limitations of prior mode

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Nature condition: The weather in Saskatchewan is comparatively extreme(Atlas of Alberta Railways, n.d.). It is situated at high latitudes and close to the middle of the continent, far from the ocean's moist and regulating impact. Therefore, the dry summer may restrict the traffic on waterways, while the cold winter may lead the river to freeze over.

Low carrying capacity: The amount of cargo is limited via ships due to holding space. The wagons and carriages are limited by the size of the road as well as the distance.

Invention of the railway locomotive

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With the time and the progress of science and technology, railway locomotive types are divided into 3 classes, including steam, Internal combustion and electric.

Steam

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Three essential parts constitute the steam locomotive: the boiler, the engine, and the carriage (G.D. Dempsey C.E & C.E, 2015). Their functions are to produce power, transform the power into traction, and transport freight and people, respectively. The machine is propelled by steam, which is generated inside and frequently receives injections of water and fuel. As water is turned into steam and expands significantly, the process provides usable energy. Thus, the goal in the design is to obtain as much power as possible from as small a machine as possible. The last part - the carriage, including the frame and wheels - provides stable conditions for working and running.

Internal combustion

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Internal combustion locomotives are fueled to generate rotational power, which is transmitted to the wheels. The steam engine was unable to generate adequate power as productivity and demand increase. This led to the birth of the internal combustion engine. The benefits of the internal combustion engine, include:

  • High efficiency: refers to the percentage of fuel energy that is transferred to labour performed away from the steering wheel. An internal combustion locomotive achieves 25% efficiency, while a steam engine only achieves 8% (Franco & P. Labryn, 2013).
  • Reduced cost: Because internal combustion engines don't need to pre-heat the machine, they save cost on fuel and labour.
  • No water consumption: In nations with limited water resources, the purchase of water might be an extra expense.
  • The potential for long-distance travel: The power produced by the steam engine limitations make it impossible to travel more than 300 kilometers.

Electric

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Electric locomotive, powered by electricity, that travels along a track through a conductor. Electric locomotives profit from the high efficiency with lower energy wasting. Without engines or exhaust pipes, there is less mechanical noise when electric locomotives operating. They produce short-term surge power for quick acceleration, therefore, is suitable for short commute. Moreover, renewable or low-carbon energy sources can powered such as solar and wind.

Market Development

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First, technological improvement is a prerequisite for railway growth. Productivity significantly rose since the first industrial revolution. The first steam locomotive was created by Richard Trevithick and it became economically feasible for commercial usage after iterations.

Enhancing regional connectedness is the second. The Champlain St. Lawrence Railway (C&SL), an internal provincial railway, is the first railway in Canada in 1836. At that time, connecting the significant economic hubs on the mainland has been one of the railways' main responsibilities.

The growth of the railways and agriculture were interdependent, as was indicated in the wheat boom. The expansion of railways increased the possibility of transporting products, which fueled the expansion of agriculture.

Life Cycle

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Birth phase

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The Qu'Appelle, Long Lake and Saskatchewan Railway (QLLS), which started operating in 1882, was the first railway in Saskatchewan. The federal government constructed the railway as a component of the Transcontinental line that connects eastern and western Canada (from Regina to Prince Albert with a subline to Fort Carlton). The Canadian Pacific Railway (CPR) finally took over the QLLS in 1885, because of a financial success. The route was extended by CPR and changed from narrow gauge to standard gauge, playing a significant role in the transcontinental rail network. The Canadian Northern Railway Corporation (CNR) was established in 1891 and started constructing railways in western Canada, including Saskatchewan.

The Canadian Parliament enacted the Canadian Pacific Railway Act of 1881 at the time. It served as the legal foundation to construct the Pacific Railway for the CPR because of significant financial and manpower requirements. The Canadian Pacific Railway Act of 1881 stipulated that to assist the building of the railway, the government would provide the CPR a sizable piece of land, financial gifts, and advantageous tax status. Also, the government imposed other requirements including a deadline of building and service. Through this act, a strong support is provided for the construction of national railway, and also promoted the Canadian economy and national unity.

Growth phase

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The main line of Grand Trunk Pacific Railway (GTP) was finished in 1910, opening up a second transcontinental railway route through Saskatchewan. After 2 year, the Saskatchewan Grain Growers Association was established by the government to promote improved rail rates and services for farmers. The Saskatoon Municipal Railway, the first urban railway in the province, started running a streetcar system in 1913. Over a tenth of the 2,266 miles of track the CPR constructed between 1923 and 1931 were in Saskatchewan grassland.

Although Parliament had never implemented any legislation that directly impacts tolls, it is essential that freight rates for grain exports from western Canada in the transportation aspect. The reason might be because following the Second World War, the overall reliance on wheat declined as mineral, forestry, and fisheries resources were exploited in Canada. Wheat, the economic backbone of Saskatchewan, was less impacted by rail charges.

Nonetheless, there were still discrepancies and disagreements about railway fees between the CPR, farmers, and the government, as the conflict between the public and private sectors. For instance, the Canadian government imposed Crow's Nest rates on the export of wheat crops to the east. The rising cost of operating the railroad and the new tariffs meant that CPR faced a loss of revenue (Currie, 1967), and farmers would have to pay the freight. Even though Crow's Nest prices were eliminated in 1919, Western farmers asked for the right that reduced train rates and improved service especially in the era of The Great Depression. It was not until 1933 that the federal government established the Canadian Wheat Board.

Mature phase

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The railway sector developed throughout the following two to three decades, until 1950s. Railway industry decreased as the industry of cars and trucks rose. In Saskatchewan, railway branches started to disappear practically as soon as the final line was constructed. Both Canadian National Railway (CNR) and Canadian Pacific Railway (CPR) asserted that running several branch lines depending on the grains was a loss-making endeavor. The Robson Commission was established by the federal government, allowing railways to sever all 525 miles (845 km) of expensive branch lines. More than 1,450 miles (2,333 km) of branch lines were abandoned during the following five years, with half of those abandonments taking place in Saskatchewan.

Also, there was a union and job issue. In 1860s, the Railroad Brotherhood was established to represent workers. Strikes in June and December 1883 were caused by the miserable living and working conditions in the mobile camps, low income as well as the intense job demands. Moreover, the greatest strike in Canadian history occurred in 1950 when 130,000 railway employees went on strike against the CPR and CNR.

Re-invent phase

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The development of the railway system took a new turn in 1995. To provide rural villages and resource development initiatives with rail connectivity, the Hudson Bay Railway started operating in northern Saskatchewan. The revival of railways has also been seen in the world. Substantial money has been spent on upgrading the rail infrastructure, particularly on building high-speed train lines. The trains are more competitive due to air network high-capacity and road network congestion. In addition, investment in railways becomes a tool to lower carbon dioxide emissions because of rising fuel prices and global warming. The re-invention of railway provide an opportunity for the cities with mature urbanization.

Quantitative Analysis

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According to data provided by Statistics Canada, the railway industry length of track operated at the end of the year, the estimation of a three-parameter logistic function is below.

Formula

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Three-parameter S-curve logistic function:

S(t) = Smax/[1+exp(-b(t-ti)]

where,

S(t) = State Measurement (operated length of track in km),

  t = time (in years),

  t 0 = inflection point time (the year in which half of S max is obtained),

  S max = saturation level (maximum operated length of track in km),

  b = the coefficient to be estimated.


Ordinary Least Squares Regression:

Y = bX + c

where,

Y = LN(length/(K-length)),

X=Year.

Calculation and Discussion

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Firstly, the maximum value is selected from the data of nearly 200 years, which is 96958 km in 1974. On this basis, we increased to 100000 km as the S max, and increased by 10000 each time for 20 iterations. finally, the y value is calculated. In 20 iterations, the maximum RSQ value and the best model fitting degree are selected. The predicted curve of change is calculated according to this value. The result is shown below:

As can be clearly seen from the chart, the rapid growth of railway in the first two decades of the 20th century. It then took more than half a century for it to mature and gradually decline until 2020. This is a little bit different from the expected curve.


The Quantitative Analysis in Canada is due to the lack of data in Saskatchewan, which cannot show the life cycle of railway. However, the existing data also illustrated in the appendix.


Reference

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  • Atlas of Alberta Railways. (n.d.). Atlas of Alberta Railways -- The Canadian Pacific Railway. Railways.library.ualberta.ca. https://railways.library.ualberta.ca/Chapters-7-1/
  • Bruinsma, F., Pels, E., Priemus, H., Rietveld, P., Bert Van Wee, & Springerlink (Online Service. (2008). Railway Development : Impacts on Urban Dynamics. Physica-Verlag Hd.
  • Canada. Dominion Bureau of Statistics. Railway transport. Ottawa.
  • Currie, A. W. (1967). Canadian Transportation Economics. University of Toronto Press.
  • Encyclopedia Of Saskatchewan. (2020). The Encyclopedia of Saskatchewan | Home. Uregina.ca. https://esask.uregina.ca/home.jsp
  • Floca, B. (2013). Locomotive. Atheneum Books For Young Readers.
  • Franco, I., & P. Labryn. (2013). Internal-Combustion Locomotives and Motor Coaches. Springer.
  • G.D. Dempsey C.E, & C.E, C. (2015). The Victorian Steam Locomotive (pp. 1–54). Wharncliffe.
  • Government of Canada, S. C. (2022, February 9). Profile table, Census Profile, 2021 Census of Population - Saskatchewan [Province]. Www12.Statcan.gc.ca. https://www12.statcan.gc.ca/census-recensement/2021/dp-pd/prof/details/page.cfm?DGUIDlist=2021A000247&GENDERlist=1&HEADERlist=0&Lang=E&STATISTIClist=1&SearchText=Saskatchewan
  • Revill, G. (2013). Railway (pp. 8–114). Reaktion Books.
  • Statistics Canada. (2023). Historical statistics of Canada: Section T: Transportation and Communication. Www150.Statcan.gc.ca. https://www150.statcan.gc.ca/n1/pub/11-516-x/sectiont/4147444-eng.htm#1
  • Transport Canada. (2021). Transportation in Canada 2020 - Overview Report.
  • Withuhn, W. L. (2019). American Steam Locomotives. Indiana University Press.

Appendix

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Railway industry length of track operated at the end of the year in Canada. (1835-2020)

Canada Date - Independent variable Resultant Calculation
Operated length of Track S(t) = S_{max}/[1+exp(-b(t-t_i)]
Year km km
1836 26 1042
1837 26 1088
1838 26 1135
1839 26 1185
1840 26 1236
1841 26 1290
1842 26 1346
1843 26 1405
1844 26 1466
1845 26 1530
1846 26 1596
1847 87 1666
1848 87 1738
1849 87 1813
1850 106 1892
1851 256 1974
1852 330 2059
1853 814 2148
1854 1230 2241
1855 1411 2338
1856 2276 2439
1857 2324 2544
1858 3006 2653
1859 3209 2767
1860 3323 2886
1861 3454 3010
1862 3523 3139
1863 3523 3273
1864 3523 3413
1865 3605 3559
1866 3666 3710
1867 3666 3868
1868 3666 4032
1869 4062 4203
1870 4212 4381
1871 4337 4567
1872 4665 4759
1873 6167 4960
1874 6970 5168
1875 7731 5385
1876 8398 5610
1877 9305 5844
1878 10020 6088
1879 11037 6341
1880 11578 6604
1881 11798 6877
1882 13996 7160
1883 15413 7454
1884 16533 7760
1885 17337 8077
1886 18979 8406
1887 19608 8747
1888 20254 9101
1889 20254 9468
1890 21164 9848
1891 22270 10242
1892 23438 10650
1893 25758 11072
1894 25149 11509
1895 25712 11961
1896 26184 12429
1897 26635 12913
1898 27150 13413
1899 27761 13929
1900 28416 14463
1901 30117 15014
1902 30117 15582
1903 30558 16168
1904 31271 16772
1905 32971 17395
1906 34364 18036
1907 36133 18696
1908 36960 19375
1909 38792 20074
1910 39801 20792
1911 40877 21529
1912 43013 22286
1913 47160 23063
1914 49560 23859
1915 57257 24675
1916 60244 25511
1917 62127 26366
1918 81497 27241
1919 81457 28135
1920 83013 29048
1921 83935 29980
1922 83461 30930
1923 83583 31898
1924 84800 32884
1925 87066 33888
1926 87354 34908
1927 88058 35944
1928 89246 36996
1929 89911 38063
1930 91156 39144
1931 91585 40239
1932 91831 41346
1933 91216 42465
1934 90959 43596
1935 92008 44736
1936 91237 45886
1937 91467 47044
1938 91346 48210
1939 91090 49381
1940 91016 50558
1941 91251 51739
1942 91063 52922
1943 91451 54108
1944 91554 55295
1945 90223 56481
1946 91741 57666
1947 91815 58848
1948 91741 60027
1949 93075 61201
1950 93337 62370
1951 93583 63532
1952 93810 64686
1953 94460 65831
1954 94565 66967
1955 95458 68092
1956 96287 69205
1957 95107 70307
1958 95465 71395
1959 95585 72469
1960 95262 73528
1961 94600 74572
1962 94563 75601
1963 94164 76613
1964 94055 77607
1965 93989 78585
1966 93825 79544
1967 94195 80485
1968 94401 81408
1969 95135 82311
1970 95964 83196
1971 96094 84061
1972 96620 84907
1973 96957 85732
1974 96958 86539
1975 96633 87325
1976 96521 88092
1977 96052 88840
1978 95382 89567
1979 94263 90275
1980 93723 90964
1981 92356 91634
1982 91218 92285
1983 90347 92917
1984 87514 93530
1985 86429 94125
1986 86090 94703
1987 85830 95262
1988 85853 95804
1989 82712 96329
1990 82737 96837
1991 81638 97329
1992 80589 97805
1993 78547 98265
1994 78453 98710
1995 77422 99140
1996 77390 99555
1997 76063 99956
1998 74530 100343
1999 74052 100716
2000 74412 101076
2001 73821 101424
2002 73186 101759
2003 71920 102082
2004 72048 102393
2005 72367 102693
2006 71878 102982
2007 71754 103260
2008 70230 103528
2009 67537 103786
2010 66312 104034
2011 64218 104273
2012 63106 104503
2013 62341 104724
2014 62307 104936
2015 63567 105141
2016 61856 105337
2017 61859 105526
2018 63050 105708
2019 64878 105882
2020 67114 106050