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Centrifugal flotation

Purification of the reboiled caustic soda is important to remove sizes (raw-mercerization), dyes (mercerization of dyed materials), fibers, and impurities released from the fibers. Important techniques are filtration, centrifugation, flotation processes, and oxidative processes [29-31]. The application of membrane processes for reconcentration is limited to low concentrations of NaOH because of the insufficient chemical stability of the membranes. [Pg.379]

Separation of albumin from globulin, originally done by filtration, was greatly facilitated by Kingsley s introduction of the ether technique (K20). Ether is added to the salt-protein mixture, which is then repeatedly mixed by inversion for 20 seconds and subsequently centrifuged. Flotation of the globulins ensues, and the albumin fraction separates as a subnatant solution. [Pg.240]

Precipitation is a process in which dissolved compounds are separated from the reaction medium in the form of low soluble compounds in their solid states, which can then be separated by sedimentation, filtration, centrifugation, flotation, etc. Precipitation is carried out either by a chemical change of dissolved substance, or by a change of the reaction medium. As precipitants, mostly acid, base or salt solutions are used. [Pg.263]

The most straightforward means of physical treatment involves phase separation of the components of a mixture that are already in two different phases. Sedimentation and decanting are easily accomplished with simple equipment. In many cases, the separation must be aided by mechanical means, particularly filtration or centrifugation. Flotation is used to bring suspended organic matter or finely divided particles to the surface of a suspension. In the process of dissolved air flotation (DAF), air is dissolved in the suspending medium under pressure and comes out of solution when... [Pg.433]

Fig. 16. Two-hquid flotation flow sheet (39). The original ROM is kaolin (white clay) that contains 11% impurity in the form of mica, anatase, and siUca. Treatment produces high purity kaolin and a Ti02-rich fraction. A, Kaolin stockpile D, dispersant (sodium siUcate plus alkah) W, water K, kerosene C, collector (sodium oleate) RK, recycled kerosene S, screen M, inline mixer SPR, separator CFG, centrifuge P, product and T, to waste. Fig. 16. Two-hquid flotation flow sheet (39). The original ROM is kaolin (white clay) that contains 11% impurity in the form of mica, anatase, and siUca. Treatment produces high purity kaolin and a Ti02-rich fraction. A, Kaolin stockpile D, dispersant (sodium siUcate plus alkah) W, water K, kerosene C, collector (sodium oleate) RK, recycled kerosene S, screen M, inline mixer SPR, separator CFG, centrifuge P, product and T, to waste.
In conventional chemical pulping systems, micronized talc is used for pitch control. The mechanism is not well understood, but talc does adsorb on the pitch and detackify it, preventing it from agglomerating and attaching on equipment. In de-inking talc is used both to enhance ink removal in conventional screening/centrifugation methods and as a carrier in flotation systems. [Pg.302]

Two cocrystallization processes employ dibasic crystals as intermediates. The PPG process (199—202) is discussed under commercial processes. The PPC process (203) forms dibasic crystals from lime and recovered filtrates. The dibasic crystals are separated from thek mother liquor by decantation, slurried in caustic solution and chlorinated to produce a cocrystalline slurry of Ca(OCl)2 and NaCl. The slurry is sent to a flotation cell where the larger salt crystals settle out and the smaller hypochlorite crystals float to the top with the aid of ak and flotation agent. The hypochlorite slurry is centrifuged the cake going to a dryer and the centrate to the flotation cell. The salt-rich bottoms from the flotation cell are centrifuged and washed with dibasic mother Hquor. The centrates are recycled to the precipitation step. [Pg.471]

Vibrating screens and centrifuges are used for dewatering. Eor very fine coal, such as that obtained from flotation, vacuum filtration with a disk or... [Pg.230]

In 1981, a novel flotation device known as the air-sparged hydrocyclone, shown in Figure 3, was developed (16). In this equipment, a thin film and swid flotation is accompHshed in a centrifugal field, where air sparges through a porous wall. Because of the enhanced hydrodynamic condition, separation of fine hydrophobic particles can be readily accompHshed. Also, retention times can be reduced to a matter of seconds. Thus, this device provides up to 200 times the throughput of conventional flotation cells at similar yields and product quaHties. [Pg.255]

Different extraction-spectrophotometric procedures were proposed for the P(V) and As(V) determination as ionic associates (lA) of polyoxometalates with basic dyes. Main disadvantage is difficulty in separation of reagent excess. Flotation, centrifugation or extraction does not allow to create sufficiently sensitive procedures due to worsening of reproducibility. [Pg.125]

The PemB cellular localisation was determined both in E. chrysanthenu and in an E. coli recombinant strain by Western blot of the cell fractions with a PemB-antiserum. No PemB was detected in the culture supernatant and only trace amounts were found in the soluble cell fractions - periplasm and cytoplasm (Figure 2). PemB was found mostly in the total membrane fraction from which it could be completely extracted by Triton X-100/Mg2+ and partially extracted by Sarkosyl (Figure 2). This behaviour is typical of inner membrane proteins, but since some exceptions have been noticed it does not positively indicate the PemB localisation (15). We performed cell membrane fractionation in sucrose density gradient centrifugation both by sedimentation and flotation, using several markers of inner and outer membrane vesicles. PemB was found in the outer membrane vesicles (data not shown). [Pg.839]

Most of the pollutants may be effectively removed by precipitation of metal hydroxides or carbonates using a reaction with lime, sodium hydroxide, or sodium carbonate. For some, improved removals are provided by the use of sodium sulfide or ferrous sulfide to precipitate the pollutants as sulfide compounds with very low solubilities. After soluble metals are precipitated as insoluble floes, one of the water-solid separators (such as dissolved air flotation, sedimentation, centrifugation, membrane filtration, and so on) can be used for floes removal.911 The effectiveness of pollutant removal by several different precipitation methods is summarized in Tables 5.15-5.17. [Pg.220]

In addition to these three treatment options, several alternative technologies are applicable to the treatment of oily wastewater. These include coalescing, flotation, centrifugation, integrated adsorption, resin adsorption, ozonation, chemical oxidation, aerobic decomposition, and thermal emulsion breaking.18-20... [Pg.370]

Common pollutants in a titanium dioxide plant include heavy metals, titanium dioxide, sulfur trioxide, sulfur dioxide, sodium sulfate, sulfuric acid, and unreacted iron. Most of the metals are removed by alkaline precipitation as metallic hydroxides, carbonates, and sulfides. The resulting solution is subjected to flotation, settling, filtration, and centrifugation to treat the wastewater to acceptable standards. In the sulfate process, the wastewater is sent to the treatment pond, where most of the heavy metals are precipitated. The precipitate is washed and filtered to produce pure gypsum crystals. All other streams of wastewater are treated in similar ponds with calcium sulfate before being neutralized with calcium carbonate in a reactor. The effluent from the reactor is sent to clarifiers and the solid in the underflow is filtered and concentrated. The clarifier overflow is mixed with other process wastewaters and is then neutralized before discharge. [Pg.949]

Gravity separation Centrifugal separation Filtration Membrane filtration Coalescence Centrifugal separation Flotation Wet oxidation Thermal oxidation Biological oxidation (aerobic, anaerobic, reed beds) Chemical oxidation Activated carbon Wet oxidation Thermal oxidation... [Pg.592]

The structure and roles of membrane microdomains (rafts) in cell membranes are under intensive study but many aspects are still unresolved. Unlike in synthetic bilayers (Fig. 2-2), no way has been found to directly visualize rafts in biomembranes [22]. Many investigators operationally define raft components as those membrane lipids and proteins (a) that remain insoluble after extraction with cold 1% Triton X-100 detergent, (b) that are recovered as a low density band that can be isolated by flotation centrifugation and (c) whose presence in this fraction should be reduced by cholesterol depletion. [Pg.28]

Regardless of the rotor speed and maximum velocity, sedimentation (or flotation) will not occur in a solution of equal density to the sample. Iso-density methods use this lack of movement in a manner comparable to a pH gradient in iso-electric focusing techniques. The methods are a combination of sedimentation and flotation, achieved by using a density gradient that straddles the density of the particles concerned. On centrifugation, the particles sediment until they reach a solvent zone with the same density. This results in the development of a zone for each type of particle present in the sample. [Pg.159]

See other pages where Centrifugal flotation is mentioned: [Pg.14]    [Pg.530]    [Pg.57]    [Pg.150]    [Pg.7]    [Pg.721]    [Pg.932]    [Pg.14]    [Pg.530]    [Pg.57]    [Pg.150]    [Pg.7]    [Pg.721]    [Pg.932]    [Pg.526]    [Pg.559]    [Pg.396]    [Pg.122]    [Pg.119]    [Pg.24]    [Pg.1443]    [Pg.1725]    [Pg.2222]    [Pg.345]    [Pg.268]    [Pg.472]    [Pg.286]    [Pg.286]    [Pg.168]    [Pg.369]    [Pg.867]    [Pg.12]    [Pg.286]    [Pg.316]    [Pg.317]    [Pg.154]   
See also in sourсe #XX -- [ Pg.565 ]

See also in sourсe #XX -- [ Pg.565 ]



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