Fluid cracking

Figure 4 Catalytic cracking (fluid catalytic cracking). Heavy fraction gas oils are cracked (broken down) into lower molecular weight fractions in the presence of finely powdered catalyst, handled as a fluid. (From Ref. 5.)...

$Figure 4 Catalytic cracking (fluid catalytic cracking). Heavy fraction gas oils are cracked (broken down) into lower molecular weight fractions in the presence of finely powdered catalyst, handled as a fluid. (From Ref. 5.)...$

Cracking, fluid-catalytic FL G Si02, AI2O3 470-540 2-3 0.5-3 WHSV [4] 162... [Pg.551]

Carbon rejection processes, visbreaking, steam cracking, fluid catalytic cracking, and coking. [Pg.318]

Fluid catalytic cracking, fluid cat-cracking or FCC, is a common oil refinery process. The duty of an FCC unit is to take a heavy low value gas oil or fuel oil and convert this to higher valued liquid products, particularly gasoline blend-stock. The process also produces diesel fuel blend-stock and a gas by-product stream. The gaseous by-products are rich in olefins and in particular propylene and isobutene. Ethylene is a minor component. [Pg.179]

Valley J. W. and Graham C. M. (1996) Ion microprobe analysis of oxygen isotope ratios in quartz from Skye granite healed micro-cracks, fluid flow, and hydrothermal exchange. Contrib. Mineral. Petrol. 124, 225-234. [Pg.1524]

Chapter 6 dealt with residual stresses that occur when products are cooled rapidly from both the sides. There are biaxial compressive stresses in the surface layers and biaxial tensile stresses in the interior. If a hole is drilled through such a product, it cuts through the tensile stress region, and acts as a stress-concentrating feature with a q value of 2. If there is ingress of a stress cracking fluid, radial cracks may form from the bore of the hole, perpendicular to the residual circumferential stresses. These cracks will be at the mid-thickness of the product. [Pg.268]

Thermal cracking] fluid velocity in the furnace or heater < design. [Pg.85]

Because this type of failure is associated with relatively mobile (i.e., low molecular weight) Uquids which are normally present in small concentrations the technique of GC-MS is very well suitable to its investigation. A particularly effective approach is dynamic headspace GC where any stress cracking fluid can be removed from the plastic matrix without the use of another solvent and long heating times enable it to be concentrated up to aid detection. An area of plastic that has not stress cracked can be used as a control. [Pg.37]

Sphere fluid-filled Penny-shaped crack general Penny-shaped crack fluid-filled... [Pg.222]

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