A Carboniferous coal-forming swamp
Journal entry from Peter Fidler
Blackfoot warrior Iron Shirt
  • Indigenous effigy made from coal in the form of a bison

    Early indigenous people transform coal found in seams in foothills and mountain regions into effigies.

    Most of the effigies depict bison, usually cows, with tongues out, indicating either running or being in labour. The specimens have all suffered damage from ploughing but are still remarkable and accurate anatomical reproductions of bison.
    Source: Royal Alberta Museum

  • First record of coal in Alberta, Peter Fidler’s Journey page

    The presence of coal in Alberta is first recorded by a European explorer.

    In the February 12, 1793, entry of “Journal of a Journey over Land from Buckingham House to the Rocky Mountains in 1792 & 3 by Peter Fidler,” Fidler describes his coal discovery.
    Source:  Hudson’s Bay Company Archives, Archives of Manitoba, E.3-2 fo.30

  • First commercial coal mine in Alberta, Sheran mine in Glenbow, Edmonton, 1948

    The first commercial coal mine begins operation near present-day Lethbridge, Alberta.

    Nicholas Sheran’s mine, 1881
    Source: Glenbow Archives, NA-1948-2

  • First large-scale commercial coal mine in Alberta. Nicholas Sheran’s mine, 1885

    The first large-scale commercial mine begins production in Alberta.

    The entrance to Galt Drift Mine No. 1 in 1885 near present-day Lethbridge; Sir Alexander Galt establishes the mine to exploit the region’s abundant coal deposits. Galt also establishes the North Western Coal and Navigation Company in the same year to supply coal to the Canadian Pacific Railway.
    Source: Glenbow Archives, NA-3188-43

  • A view of International Coal and Coke Company at Coleman in the Crowsnest Pass, ca. 1912

    Coal mining begins in the Crowsnest Pass region of Alberta.

    A view of International Coal and Coke Company at Coleman in the Crowsnest Pass, ca. 1912, eleven years after production started; the region yields a high volume of industrial steam coal.
    Source: Image courtesy of Peel’s Prairie Provinces, a digital initiative of the University of Alberta Libraries, PC003325

  • Mountain Park Station, Mountain Park, Alberta, ca. 1920-1923

    Coal Branch mines open southwest of Edson, Alberta.

    Mountain Park Station, Mountain Park, Alberta, ca. 1920-1923; small-scale mining had begun in the Coal Branch about 1909, but after 1910 the arrival of the railway opened up the region to large-scale mining. Mountain Park appears to have been the first major community to grow, reaching a population of about 330 by the early 1920s.
    Source: Provincial Archives of Alberta, CL26

  • Pit ponies pulling loaded coal-filled wooden mine cars underground at Newcastle Mine in 1914

    First large commercial mine in Drumheller starts production.

    Horses pull coal-filled wooden mine cars underground at Newcastle Mine in 1914, three years after Newcastle opened in Drumheller.
    Source: Provincial Archives of Alberta, A6152

  • An initial gas explosion triggers a larger coal dust explosion, killing 189 miners. The initial fatalities estimate reported in the Edmonton Capital newspaper on June 19, 1914, was later revised

    Alberta’s deadliest coal mine disaster occurs at Hillcrest, Alberta.

    An initial gas explosion triggers a larger coal dust explosion, killing 189 miners. The initial fatalities estimate reported in the Edmonton Capital newspaper on June 19, 1914, was later revised.
    Source: Image courtesy of Peel’s Prairie Provinces, a digital initiative of the University of Alberta Libraries, Ar00113

  • Strikers from One Big Union (OBU) at Drumheller, Alberta,  in 1919

    Cost of living rises by 65% since onset of World War I in 1914, contributing to coal industry labour unrest and heightened union activity.

    Strikers from the One Big Union (OBU) at Drumheller, Alberta, in 1919; the union forms after labour workers broke away from the United Mine Workers Association union. Miners are drawn to the OBU because of the deepening economic crisis.
    Source: Glenbow Archives, NA-2513-1

  • Newcastle Mine in the Drumheller mining district of the province after ten years of expansion in 1921

    The province is divided into thirty-two coal mining districts as the industry expands broadly.

    Newcastle Mine in the Drumheller mining district after ten years of expansion, 1921; Drumheller is one of thirty-two districts created to facilitate keeping track of the booming industry’s developments, inspections and infrastructure requirements.
    Source: Provincial Archives of Alberta, A6081

  • A view of the booming International Coal and Coke Company Ltd. at Coleman, ca. 1945

    The Second World War begins to revive Alberta’s economy and coal industry, which had declined during the Great Depression.

    A view of the booming International Coal and Coke Company Ltd. at Coleman, ca. 1945; increased demand for steam coal during the war years led to greater production within the industry.
    Source: Glenbow Archives, NC-54-2930

  • On February 22, 1947, an issue of The Western Examiner proclaims the discovery of the Imperial Leduc No.1 oil well as the birth of a new Alberta oil field.

    The discovery of a major oil deposit at Leduc, Alberta, foreshadows a decline in the province’s coal production.

    On February 22, 1947, an issue of The Western Examiner proclaims the discovery of the Imperial Leduc No.1 oil well as the birth of a new Alberta oil field. During the decade after the 1947 discovery, many mines close, and most coal towns decline significantly.
    Source: Glenbow Archives, NA-789-80

  • A heavy-duty truck hauling coal at the Wabamun surface mining operation near the TransAlta Power Plant demonstrates the advanced mechanization propelling Alberta’s modernizing coal industry in the 1960s

    Large-scale surface mining begins in Alberta near Lake Wabamun to fuel a large thermal electric power plant.

    A heavy-duty truck hauling coal at the Wabamun surface mining operation near the TransAlta Power Plant demonstrates the advanced mechanization propelling Alberta’s modernizing coal industry in the 1960s.
    Source: Provincial Archives of Alberta, gr1989.0516.1088#1

  • The Whitemud Creek Mine in Edmonton’s river valley in 1968

    The last mine in Edmonton’s river valley closes.

    The Whitemud Creek Mine in Edmonton’s river valley in 1968; this operation is the last of Edmonton’s coal mines to close in 1970. At this time, the mine continues to rely on horses to haul coal to its opening.
    Source: City of Edmonton Archives, EA-20-4998

  • Atlas Mine in Drumheller Valley after restoration.

    Drumheller Valley and Canmore mines close after decades in operation.

    The Atlas Mine in Drumheller stops production in 1979 and officially closes in 1984. The large structure is the last wooden tipple standing in Canada. The mine is a Provincial Historic Resource, a National Historic Site of Canada and one of the region’s star attractions.
    Source: Courtesy of Sue Sabrowski and the Royal Tyrrell Museum of Palaeontology

  • The retired Marion 360 Stripping Shovel at the Diplomat Mine site near Forestburg, Alberta.

    Mining near Forestburg ends after more than seventy years.

    The retired Marion 360 Stripping Shovel at the Diplomat Mine site near Forestburg, Alberta; the interpretive site is a Provincial Historic Resource and Canada’s only surface coal mining museum. The kind of large-scale surface mining conducted near Forestburg requires massive equipment such as the Marion 360.
    Source: Diplomat Mine Interpretive Site

  • The Wabamun power plant in the final stages before destruction.

    Wabamun coal-fired power plant is retired and demolished after almost fifty years in operation.

    The Wabamun power plant in the final stages before destruction; it had begun generating electricity in 1962 by burning coal mined at large-scale surface operations near Wabamun Lake. The planned closure of the plant is featured in an Edmonton Journal article on April 2, 2010.
    Source: Edmonton Journal

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Coal Properties

A naturally occurring, combustible sedimentary rock, coal is considered one of the world’s most important energy resources. The essential ingredient in coal is carbon, squeezed from the remains of land-based plants that were buried and cooked millions of years ago. Also present in varying percentages is other matter such as hydrogen, ash, nitrogen, sulfur and water.

The quality of coal varies widely from deposit to deposit and is determined by its carbon content. Coal that contains the

highest levels of pure carbon produces the most heat when burned, making it of better quality. Factors influencing carbon content include the types of vegetation from which the coal originated, the temperatures and pressures on the deposit in the Earth, and the length of time the coal has been forming. The coal that results is classified according to one of four ranks of quality based on its carbon content: anthracite, bituminous, subbituminous, or lignite.

Anthracite contains the highest proportion of carbon. It is the hardest coal, often oldest in geological age, possesses a brilliant luster, and, importantly, offers the richest heat value of all forms of coal at 13,500-15,600 Btu/lb. Much harder to ignite than lower ranks, once lit, it burns slowly but intensely with a blue flame. It produces little smoke, making it a far cleaner fuel than lower rank coal, cleaner even than wood. Only a small fraction of the world’s coal is anthracite.

Bituminous coal contains lower amounts of pure carbon. It is a slightly softer rock with a greater percentage of volatile matter and moisture and a lower heat value range of 8,300-15,600 Btu/lb. It is, however, more widely distributed throughout the world. It is used as a domestic fuel or blended with anthracite to make a higher heat-producing coking coal for melting metal.

Subbituminous coal contains even less carbon and possesses a heat value range from 8,200 to 11,200 Btu/lb. It is generally younger and found closer to the surface than higher grade coals. Therefore, it provides a convenient and efficient source of energy for thermal electricity generation.

Lignite, the lowest rank of coal, is brown-to-black and generally contains a large percentage of moisture. It disintegrates in air, is liable to spontaneously combust, and produces the most smoke of the true coals. Even though it has the lowest heat value at 5500-8300 Btu/lb, lignite is used in some areas for thermal generation because it is readily available near the Earth’s surface.

In the early 1900s, coal was broadly divided into two categories: steam coal and domestic coal. In general, steam coals are the higher rank, higher quality minerals—anthracite and bituminous—that provide superior heat values. Steam coal was used primarily for industrial production; it powered steam locomotive engines, fed blacksmiths’ flames,

produced coke oven fires to melt metals, heated briquette manufacturing ovens, and fueled gas energy production and thermal electricity generation. The second group, domestic coal, includes the lower rank coals—subbituminous and lignite—whose modest heat values are adequate for the requirements of home heating and cooking.

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