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Closing stock of reserves of uranium, copper, gold from gold mines, lead, molybdenum, nickel, silver, zinc, crude bitumen, crude oil, natural gas, natural gas liquids, bituminous coal, subbituminous coal and lignite, sulphur, iron, and potash (tonnes unless otherwise noted).

Closing stock present value of reserves of natural gas, crude oil, subbituminous coal and lignite, bituminous coal, crude bitumen, potash, gold from gold mines, iron, miscellaneous minerals, and timber (dollars x 1,000,000).

The Eagle Plain Basin and its environs is a potentially prospective petroleum province in the Yukon. Extensive initial exploration in this area, focused on discovering crude oil, identified 83.7 Bcf of natural gas and 11.05 MMbbls of crude oil, with 33 wells, many of which had shows of petroleum in other zones, throughout the succession and across the geographic extent of the basin. A probabilistic petroleum assessment of 15 petroleum plays suggests that an expected 5.971 Tcf of natural gas and 425.95 MMbbls of crude oil remain to be discovered, as part of a total resource endowment in 146 accumulations of crude oil and natural gas containing between 2.379 Tcf to 12.0 Tcf of natural gas, and 132 MMbbls to 926 MMbbls of crude oil. This study differs significantly from previous estimates of undiscovered potential, which were less optimistic.

Contained within the 4th Edition (1974) of the Atlas of Canada is a set of two maps and two groups of graphs. The first map shows the location of oil and gas fields, pipelines and processing plants for Western Canada. The capacity and location of oil refineries and gas processing plants are also denoted. The second map shows locations of crude oil, petroleum oil and natural gas pipelines as well as areas of sedimentary rocks in which oil and gas had been recently found prior to the publication date of the 1974 National Atlas.

This entry brings together more than 30-years of Canada’s energy import and export data updated on a quarterly basis. Energy import and export data for electricity, crude oil, natural gas, natural gas liquids and refined petroleum products is included. The data provided below is what is used in the visualization tool on the National Energy Board website. The source code for the visualization tool is also available.

There are approximately 100 000 kilometres of transmission pipelines in Canada, 80 000 are natural gas pipelines and 23 000 crude oil pipelines. The map shows three types of pipelines: transmission trunk lines, gathering system field lines and distribution lines. Gathering pipelines move crude oil and natural gas from wells to processing facilities. After processing, feeder lines carry the hydrocarbons to the major, long distance transmission lines.

Contained within the 3rd Edition (1957) of the Atlas of Canada is a map that shows the location and direction of flow of oil and gas pipelines along with the location of oil refineries. The daily crude oil capacity in barrels per day is indicated for refining centres by means of proportional circles. The source data for refineries is for the end of 1955 and pipeline source data is for the end of 1957. An additional map shows the location of coal, oil and gas fields.

This guidance document aims to support environmental public health and emergency management practitioners to plan and prepare for population health risks resulting from major crude oil incidents. It provides basic information on crude oil, its hazards, and its potential effects on health. The focus is primarily on acute exposure resulting from major incidents of public health concern.

This data set includes gas chromatograms obtained from GC-FID analyses of mainly gasoline range (i-pentane to n-octane range) and saturated hydrocarbons fractions (>n-decane) of crude oils, condensates and rock organic extracts. Compound distribution patterns and a variety of compound ratios (based on compound relative or normalized abundance) are commonly used in organic geochemistry and petroleum studies to characterize crude oils, bitumens or dispersed sedimentary organic matter, and in oil-oil and oil-source correlation studies. These data have been utilized in petroleum system analysis applied to exploration, petroleum engineering optimization and environmental impacts mitigation in most Canadian and some international sedimentary basins. The data have been collected using various gas chromatograph (GC) flame ionization detector (FID) equipment, quantified using PE Nelson client/server software with quantification results verified by a technologist.

This data set includes gas chromatograms obtained from GC-FID analyses of mainly gasoline range (i-pentane to n-octane range) and saturated hydrocarbons fractions (>n-decane) of crude oils, condensates and rock organic extracts. Compound distribution patterns and a variety of compound ratios (based on compound relative or normalized abundance) are commonly used in organic geochemistry and petroleum studies to characterize crude oils, bitumens or dispersed sedimentary organic matter, and in oil-oil and oil-source correlation studies. These data have been utilized in petroleum system analysis applied to exploration, petroleum engineering optimization and environmental impacts mitigation in most Canadian and some international sedimentary basins. The data have been collected using various gas chromatograph (GC) flame ionization detector (FID) equipment, quantified using PE Nelson client/server software with quantification results verified by a technologist.