Primary fines

Tainio M, Tuomisto JT, Pekkanen J, Karvosenoja N, Kupiainen K, Porvari P, Sofiev M, Karppinen A, Kangas L, Kukkonen J (2010) Uncertainty in health risks due to anthropogenic primary fine particulate matter from different source types in Finland. Atmos Environ 44 2125-2132... 

Figure 17.1 gives an outline flowsheet of a basic lime processing plant. ROK lime is often screened (typically at about 5 nun) to remove an impure primary fines fraction. 

The primary fines fraction of ROK lime from shaft kilns typically amounts to 5 to 15 % of the total and generally contains higher levels of ... 

ROK lime from most shaft kilns is too coarse for most customers and requires to be crushed and screened as described in section 17.1.2. The secondary fines (typically 5 to 10 % of ROK lime), have a similar chemical analysis and reactivity to the coarser fractions. Some producers use them to sweeten the primary fines. 

Others keep the two products separate, with the primary fines being sent to less demanding customers (including in-house ground lime and hydrating plants). 

Traditionally, the primary fines were sold as agricultural lime, but, with the increased availability of ground limestone, the price of agricultural lime ceased to... 

Cakes containing particles of inorganic substances with sizes in excess of 100 /xm may be considered incompressible, for all practical purposes. Examples of incompressible cake-forming materials are sand and crystals of carbonates of calcium and sodium. The cakes containing particles of metal hydroxides, such as ferric hydroxide, cupric hydroxide, aluminum hydroxide, and sediments consisting of easy deforming aggregates, which are formed from primary fine crystals, are usually compressible. 

Apart from the fibers, the pulp contains a fraction of much smaller material, called the fines fraction. Different definitions of fines exist. For practical reasons, fines would be defined as all the particles smaller than 200 gm. The primary fines in the pulp are made up of ray cells, smaller pieces of broken fibers and thin parts of the fiber surface. Refining of the pulp creates secondary fines. The mechanical pulping method produces a large amount of fines. 

The ability to control the position of a fine tip in order to scan surfaces with subatomic resolution has brought scanning probe microscopies to the forefront in surface imaging techniques. We discuss the two primary techniques, scanning tunneling microscopy (STM) and atomic force microscopy (AFM) the interested reader is referred to comprehensive reviews [9, 17, 18]. 

Figure B2.5.12 shows the energy-level scheme of the fine structure and hyperfme structure levels of iodine. The corresponding absorption spectrum shows six sharp hyperfme structure transitions. The experimental resolution is sufficient to detennine the Doppler line shape associated with the velocity distribution of the I atoms produced in the reaction. In this way, one can detennine either the temperature in an oven—as shown in Figure B2.5.12 —or the primary translational energy distribution of I atoms produced in photolysis, equation B2.5.35.

Z>) Toluene-p-sulphonylotion (p. 247). Proceed as in 3(a), but using 1 5 g of toluene-p-sulphonyl chloride, either finely pow dered or in concentrated acetone solution. Note. The sulphonyl derivative of a primary amine is soluble in aqueous sodium hydroxide, and the final solution must be diluted and acidified to precipitate the product. Recrystallise and take the m.p. (M.ps., pp. 550-551.)... 

Place a mixture of 0-5 g. of finely powdered thiourea, 0-5 g. of the alkyl halide and 5 ml. of alcohol in a test-tube or small flask equipped with a reflux condenser. Reflux the mixture for a j)eriod depending upon the nature of the halide primary alkyl bromides and iodides, 10-20 minutes (according to the molecular weight) secondary alkyl bromides or iodides, 2-3 hours alkyl chlorides, 3-5 hours polymethy lene dibromides or di-iodides, 20-50 minutes. Then add 0 5 g. of picric acid, boil until a clear solution is obtained, and cool. If no precipitate is obtained, add a few drops of water. RecrystaUise the resulting S-alkyl-iso-thiuronium picrate from alcohol. 

The most obvious way to reduce an aldehyde or a ketone to an alcohol is by hydro genation of the carbon-oxygen double bond Like the hydrogenation of alkenes the reac tion IS exothermic but exceedingly slow m the absence of a catalyst Finely divided metals such as platinum palladium nickel and ruthenium are effective catalysts for the hydrogenation of aldehydes and ketones Aldehydes yield primary alcohols... 

The protonated form of poly(vinyl amine) (PVAm—HCl) has two advantages over many cationic polymers high cationic charge densities are possible and the pendent primary amines have high reactivity. It has been appHed in water treatment, paper making, and textiles (qv). The protonated forms modified with low molecular weight aldehydes are usehil as fines and filler retention agents and are in use with recycled fibers. As with all new products, unexpected appHcations, such as in clear antiperspirants, have been found. It is usehil in many metal complexation appHcations (49). 

The raw ROM (run of mine) ore is reduced in size from boulders of up to 100 cm in diameter to about 0.5 cm using jaw cmshers as weU as cone, gyratory, or roU-type equipment. The cmshed product is further pulverized using rod mills and ball mills, bringing particle sizes to finer than about 65 mesh (230 p.m). These size reduction (qv) procedures are collectively known as comminution processes. Their primary objective is to generate mineral grains that are discrete and Hberated from one another (11). Liberation is essential for the exploitation of individual mineral properties in the separation process. At the same time, particles at such fine sizes can be more readily buoyed to the top of the flotation ceU by air bubbles that adhere to them. 

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