Marathons

E. A. Schult2, "Das Marathon-Werk Burghausen," ErdoelKoh/e Erdgas Petrochem. 21, 481 (1968). [Pg.397]

Petroleum Sulfonation Process Developments. Cmde oil and/or topped cmde oil were sulfonated using SO by Marathon Oil... [Pg.82]

Other wet oxidation processes under development as of the mid-1990s include Marathon Oil s Hysulf process which uses an organic solvent to remove the hydrogen sulfide. One significant distinction of the Hysulf process is that in addition to sulfur, hydrogen is produced. [Pg.214]

Emery et al. reported these data on the Marathon-Phillips plant in Alaska, which uses a C3Hg-C2Fl4-CH4 cascade ... [Pg.56]

No plant employees were injured, many people were afflicted with inflamed eyes and lungs as a result of the fumes 140 patients were admitted for observation and treatment for exposure to the gas. About 800 people were seen, treated, and released. Marathon set up a claims office by the next day 600 people filed from Texas City and nearby towns filing went on for several days. [Pg.256]

Manganese, tricarbonyl methylcyclopenta dienyl, 86 Manufacturers Association of Israel - MAI Manufacturers Chemicals L.P, 237, 249 MANZATE , maneb, 86 Maranda Mining Company (Pty) Ltd., 199 Marathon Ashland Petroleum LLC, 237 Marble, 86... [Pg.338]

A lap in most tracks that use the English system is 0.25 mi (English lap). In countries that use the metric system, a metric lap is 0.50 km. A champion marathon runner covers a mile in about 5.0 min. How many minutes will the runner take to run an English lap at that speed A metric lap ... [Pg.22]

A.12 The distance for a marathon is 26 miles and 385 yards. Convert this distance to kilometers given that 1 mi = 1760 yd. [Pg.38]

A Sprinter Uses Creatine Phosphate Anaerobic Glycolysis to Make ATP, Whereas a Marathon Runner Uses Oxidative Phosphorylation... [Pg.574]

In view of the two types of fibers in skeletal muscle and of the various energy sources described above, it is of interest to compare their involvement in a sprint (eg, 100 meters) and in the marathon (42.2 km just over 26 miles) (Table 49—11). [Pg.574]

Table 49-11. Types of muscle fibers and major fuel sources used by a sprinter and by a marathon runner.

Free fatty adds in plasma are a major source of energy, particularly under marathon conditions and in prolonged starvation. [Pg.576]

Two major types of muscle fibers are found in humans white (anaerobic) and red (aerobic). The former are particularly used in sprints and the latter in prolonged aerobic exercise. During a sprint, muscle uses creatine phosphate and glycolysis as energy sources in the marathon, oxidation of fatty acids is of major importance during the later phases. Nonmuscle cells perform various types of mechanical work carried out by the structures constituting the cytoskeleton. These strucmres include actin filaments (microfilaments), micrombules (composed primarily of a- mbulin and p-mbulin), and intermediate filaments. The latter include keratins, vimentin-like proteins, neurofilaments, and lamins. [Pg.578]

Mountain states), Chevron (Standard of California), Exxon (from Standard of New Jersey), Sohio (Standard of Ohio), Marathon (covering western Ohio and other parts of Ohio not covered by Sohio), and Mobil (Standard of New York). These companies, derived from the Standard Oil Co., formed an original oil industry map in US, but that map no longer exist, rather the merging and acquisition processes reduced all them into four of the seven majors (ExxonMobil, ChevronTexaco, ConocoPhillips, and BP America). [Pg.358]

Syntroleum A GTL process developed by Syntroleum Corporation, specially suitable for small plants in remote locations. Licensed to Texaco and Marathon Oil. One such plant is scheduled to be built by Brown and Root for Texaco in 1999. [Pg.264]

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