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Autogenous atmosphere shale

Pilot and Field Retort Oil Samples. The data we have presented to this point are for oil cracking at relatively low temperatures (500 to 610°C) and long residence times (2 to 11 seconds) under an essentially autogenous atmosphere. These conditions exist in at least two aspects of oil shale retorting ... [Pg.58]

In an autogenous atmosphere, the temperature of the peak evolution rate varies from 440 to 475°C. The peak temperature increases with a decrease in sample grade (Figure 5). A possible explanation for this effect is that the greater availability of hydrocarbons in the rich shale enables the pyrite to react at a lower temperature. [Pg.79]

Most of the sulfur in oil shale occurs in pyrite and a smaller amount is contained in the kerogen. The major source of H2S during oil shale pyrolysis appears to be the reaction of pyrite with organic matter. In an autogenous atmosphere, most of the H2S evolves between 400 and 500°C. Addition of finely ground pyrite increases the amount of H2S evolved but does not change the evolution profile. In an argon atmosphere, however, added pyrite causes a substantial increase in H2S evolution... [Pg.82]

The rates of ethene and ethane evolution, the ratio of ethene to ethane, and the partial pressure of hydrogen (relative evolution rate of hydrogen to total gas) are shown in Figure 2 for oil shale heated at 1.5°C/min under an autogenous atmosphere. The ethene/ethane ratio reaches a first minimum before the peak rate of C2 evolution. It then increases slightly before reaching a second minimum at about 540°C. A more pronounced variation in the propene/propane ratio was observed at l°C/min (Figure 3). [Pg.87]

Figure 2. Product measurements for oil shale heated at 1.5°C/min under an autogenous atmosphere (a) rate of C2 evolution (b) ethene/ethane ratio (c) partial pressure of hydrogen released. Figure 2. Product measurements for oil shale heated at 1.5°C/min under an autogenous atmosphere (a) rate of C2 evolution (b) ethene/ethane ratio (c) partial pressure of hydrogen released.
Figure 4. Arrhenius plot for the time and temperature dependence of [H2][C2H ]/ [C2H6] evolved from 22 gal/ton oil shale heated at 1.5 °C/min under an autogenous atmosphere. The maximum rate of gas evolution, which corresponds to the minimum residence time, is shown. Figure 4. Arrhenius plot for the time and temperature dependence of [H2][C2H ]/ [C2H6] evolved from 22 gal/ton oil shale heated at 1.5 °C/min under an autogenous atmosphere. The maximum rate of gas evolution, which corresponds to the minimum residence time, is shown.
Figure 1. Apparatus used to measure the rate of H2S evolution from oil shale in argon, autogenous, and steam atmospheres. For the autogenous experiments, the sample was contained in a capsule. In the argon experiments, the sample was suspended in the silica wool for good gas-solid contact. The part of the apparatus enclosed by the dashed line was changed for the steam experiments. The steam was generated in a coil within the reactor 0.1 M sulfuric acid was added to the condensing effluent to prevent... Figure 1. Apparatus used to measure the rate of H2S evolution from oil shale in argon, autogenous, and steam atmospheres. For the autogenous experiments, the sample was contained in a capsule. In the argon experiments, the sample was suspended in the silica wool for good gas-solid contact. The part of the apparatus enclosed by the dashed line was changed for the steam experiments. The steam was generated in a coil within the reactor 0.1 M sulfuric acid was added to the condensing effluent to prevent...
See other pages where Autogenous atmosphere shale is mentioned: [Pg.340]    [Pg.73]    [Pg.73]    [Pg.80]    [Pg.68]    [Pg.73]   
See also in sourсe #XX -- [ Pg.64 ]



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