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Rawmill - Wikipedia, the free encyclopedia

Rawmill

From Wikipedia, the free encyclopedia

A medium sized dry process roller mill
A medium sized dry process roller mill

A rawmill is the equipment used to grind raw materials into "rawmix" during the manufacture of cement.

Contents

[edit] History

The history of the development of the technology of raw material grinding defines the early history of cement technology. Other stages of cement manufature used existing technology in the early days. Early hydraulic materials such as hydraulic limes, natural cements and Parker's Roman cement were all based on "natural" raw materals, burned "as-dug". Because these natural blends of minerals occur only rarely, manufacturers were interested in making a fine-grained artificial mixture of readily available minerals such as limestone and clay, that could be used in the same way. A typical problem would be to make an intimate mixture of 75% chalk and 25% clay, and burn this to produce an "artificial cement". The development of the "wet" method of producing a fine-grained clay in the ceramics industry afforded a means of doing this. For this reason, the early cement industry used the "wet process", in which the raw materials are ground together with water, to produce a slurry, containing 20-50% water. Both Louis Vicat and James Frost used this technique in the early 19th century, and it remained the only way of making rawmix for Portland cement until 1890. Early grinding technology was poor, and early slurries were made thin, with a high water content. The slurry was then allowed to stand in large reservoirs ("slurry-backs") for several weeks. Large, unground particles would drop to the bottom, and excess water rose to the top. The water was periodically decanted until a stiff cake, of the consistency of pottery clay, was left. This was sliced up, discarding the coarse material at the bottom, and burned in the kiln. Wet grinding is comparatively energy-efficient, and so when good dry-grinding equipment became available, the wet process continued in use throughout the 20th century, often employing equipment that Josiah Wedgewood would have recognized.


[edit] Materials ground

Rawmixes are formulated to contain a correctly-balanced chemistry for the production of calcium silicates in the kiln. Chemical analysis data in cement manufacture are expressed in terms of oxides, and the most important of these in rawmix design are SiO2, Al2O3, Fe2O3 and CaO. In principle, any material that can contribute any of these oxides can be used as a rawmix component. Because the major oxide required is CaO, the most prevalent rawmix component is limestone, while the others are mostly contributed by clay or shale. Minor adjustments to the chemistry are made by smaller additions of materials such as those shown below.

Typical rawmix component chemical analyses:

Oxide Gray Limestone White Limestone Marl Clay Sand Millscale Kaolin Bauxite Fly ash
SiO2 6.6 2.1 14.1 61.6 98.0 1.3 46.1 11.1 48.1
Al2O3 1.5 0.3 3.3 17.5 0.9 1.2 38.5 54.4 26.5
Fe2O3 0.7 0.13 1.3 7.5 0.13 96.8 0.35 9.7 6.3
CaO 48.4 53.7 43.8 1.1 0.1 0.3 0.3 0.6 4.7
MgO 2.0 0.8 0.7 1.1 0.0 0.6 0.1 0.1 1.2
Na2O 0.07 0.02 0.07 0.5 0.02 0.11 0.01 0.05 0.3
K2O 0.27 0.08 0.43 1.9 0.37 0.05 0.09 0.05 1.3
TiO2 0.06 0.02 0.15 0.8 0.06 0.30 0.9 2.1 1.5
Mn2O3 0.03 0.01 0.02 0.12 0 0.63 0 0.09 0.07


Using these materials, typical rawmixes could be composed:

  • Mix 1: General purpose cement: 88.0% gray limestone, 8.9% clay, 2.2% sand and 0.9% millscale.
  • Mix 2: Sulfate resisting cement: 87.6% gray limestone, 5.2% clay, 5.0% sand and 2.2% millscale.
  • Mix 3: White cement: 82.3% white limestone, 6.8% kaolin and 10.9% sand.

The chemical analyses of these rawmixes would be:

Oxide Mix 1 Mix 2 Mix 3
SiO2 13.46 13.91 15.55
Al2O3 2.91 2.30 2.96
Fe2O3 2.16 3.14 0.14
CaO 42.69 42.47 44.23
MgO 1.86 1.82 0.67
Na2O 0.11 0.09 0.02
K2O 0.41 0.35 0.11
TiO2 0.13 0.10 0.09
Mn2O3 0.04 0.05 0.01


[edit] Wet rawills

Wet grinding is more efficient than dry grinding because water coats the newly-formed surfaces of broken particles and prevents re-agglomeration. The process of blending and homogenizing the rawmix is also much easier when it is in slurry form. The disadvantage is that the water in the resultant slurry has to be removed subsequently, and this usually requires a lot of energy. While energy was cheap, wet grinding was common, but since 1970 the situation has changed dramatically, and new wet process plant is now rarely installed. Wet grinding is performed by two distinct means: washmills and ballmills.

[edit] Washmill

This represents the earliest rawmilling technology, and was used to grind soft materials such as chalk and clay. It is rather similar to a food processor. It consists of a large bowl (up to 15 m in diameter) into which the crushed (to less than 250 mm) raw materials are tipped along with a stream of water. The material is stirred by rotating sets of harrows. The outside walls of the bowl consist of gratings or perforated plates through which fine product can pass. Grinding is largely autogenous (i.e. it takes place by collision between lumps of raw material), and is very efficient, producing little waste heat, provided that the materials are soft. Typically two or three washmills are connected in series, these being provided with successively smaller outlet perforations. The entire system can produce slurry with the expenditure of as little as 5 kWh of electricity per dry tonne. Relatively hard minerals (such as flint) in the mix, are more or less untouched by the grinding process, and settle out in the base of the mill, from where they are periodically dug out.

[edit] Ballmills and washdrums

The ballmill allows grinding of the harder limestones that are more common than chalk. A ballmill consists of a horizontal cylinder that rotates on its axis. It holds spherical, cylindrical or rod-like grinding media of size 15 - 100 mm that may be steel or a variety of ceramic materials, and occupy 20-30% of the mill volume. The shell of the mill is lined with steel or rubber plates. Grinding is effected by impact and attrition between the grinding media. The various mineral components of the rawmix are fed to the mill at a constant rate along with water, and the slurry runs from the outlet end. The washdrum has a similar concept, but contains little or no grinding media, grinding being autogenous, by the cascading action of the larger raw material pieces. It is suitable for soft materials, and particularly for flinty chalk, where the unground flint acts as grinding media.

[edit] Slurry fineness and moisture content

A 1500 m3 storage tank of slurry, blended and prevented from settling out by a rotating arm injecting compressed air
A 1500 m3 storage tank of slurry, blended and prevented from settling out by a rotating arm injecting compressed air

It is essential that large particles (> 150 μm for calcium carbonate and > 45 μm for quartz) should be eliminated from the rawmix, to facilitate chemical combination in the kiln. In the case of slurries, larger particles can be removed by hydrocyclones or sieving devices. These require a certain amount of energy, supplied by high pressure pumping. This process, and the moving and blending of the slurry, require careful control of the slurry viscosity. Clearly, a thinner slurry is easily obtained by adding more water, but at the expense of high energy consumption for its subsequent removal. In practice, the slurry is therefore made as thick as the plant equipment can handle. Cement rawmix slurries are Bingham plastics which can also exhibit thixotropic or rheopectic behaviour. The energy needed to pump slurry at a desired rate is controlled mainly by the slurry's yield stress, and this in turn varies more or less exponentially with the slurry solids/liquid ratio. In practice, deflocculants are often added in order to maintain pumpability at low moisture contents. Common deflocculants used (at typical dose rates of 0.005-0.03%) are sodium carbonate, sodium silicate, sodium polyphosphates and lignosulfonates. Under favourable circumstances, pumpable slurries with less than 25% water can be obtained.

Rawmixes frequently contain minerals of contrasting hardness, such as calcite and quartz. Simultaneous grinding of these in a rawmill is inefficient, because the grinding energy is preferentially used in grinding the softer material. This results in a large amount of excessively fine soft material, which "cushions" the grinding of the harder mineral. For this reason, sand is sometimes ground separately, then fed to the main rawmill as a fine slurry.

[edit] Dry rawmills

A dry process air-swept ball mill
A dry process air-swept ball mill
Typical roller mill layout
Typical roller mill layout

Dry rawmills are the normal technology installed today, allowing minimization of energy consumption and CO2 emissions. In general, cement raw materials are mainly quarried, and so contain a certain amount of natural moisture. Attempting to grind a wet material is unsuccessful because an intractable "mud" forms. On the other hand, it is much easier to dry a fine material than a coarse one, because large particles hold moisture deep in their structure. It is therefore usual to simultaneously dry and grind the materials in the rawmill. A hot-air furnace may be used to supply this heat, but usually hot waste gases from the kiln are used. For this reason, the rawmill is usually placed close to the kiln preheater. Types of dry rawmill include ball mills, roller mills and hammer mills.

[edit] Ball mills

These are similar to cement mills, but often with a larger gas flow. The gas temperature is controlled by cold-air bleeds to ensure a dry product without over-heating the mill. The product passes into an air separator, which returns oversized particles to the mill inlet. Occasionally, the mill is preceded by a hot-air-swept hammer mill which does most of the drying and produces millimetre-sized feed for the mill. Ball mills are rather inefficient, and typically require 10-20 kWh of electric power to make a tonne of rawmix. The Aerofall® mill is sometimes used for pre-grinding large wet feeds. It is a short, large-diameter semi-autogenous mill, typically containing 15% by volume of very large (130 mm) grinding balls. Feed can be up to 250 mm, and the larger chunks produce much of the grinding action. The mill is air-swept, and the fines are carried away in the gas stream. Crushing and drying are efficient, but the product is coarse (around 100 µm), and is usually re-ground in a separate ball mill.

[edit] Roller mills

These are the standard form in modern installations, occasionally called vertical spindle mills. In a typical arrangement, the material is fed onto a rotating table, onto which steel rollers press down. A high velocity of hot gas flow is maintained close to the dish so that fine particles are swept away as soon as they are produced. The gas flow carries the fines into an integral air separator, which returns larger particles to the grinding path. The fine material is swept out in the exhaust gas and is captured by a cyclone before being pumped to storage. The remaining dusty gas is usually returned to the main kiln dust control equipment for cleaning. Feed size can be up to 100 mm. Roller mills are efficient, using about half the energy of a ball mill, and there seems to be no limit to the size available. Roller mills with output in excess of 800 tonnes per hour have been installed. Unlike ball mills, feed to the mill must be regular and uninterrupted, otherwise damaging resonant vibration sets in.

[edit] Hammer mills

Hammer mills swept with hot kiln exhaust gases have limited application where a soft, wet raw material is being ground. The simple design means that it can be operated at a higher temperature than other mills, giving it high drying capacity. However, the grinding action is poor, and the product is often re-ground in a ball mill.

[edit] Notes and references

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