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Government Engg. College
Valsad Branch :- Chemical Sem :- 5 th Group No. :- 6
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Subject : Mechanical Operation ( 2150502 )
Topic : Size Reduction Presented By : Akash Patel : Ankit Patel : Dimple Patel : Divyesh Patel :
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Size Reduction Commonly Used Method For Size Reduction: Compression
Impact Attrition Cutting
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Principle For Size Reduction:
Criteria For Size Reduction An Ideal Crusher Would, Have a large Capacity, Require a Small Power Input Per Unit Of Product; and Yield a Product of the Single Size Distribution Desired. Energy and power requirement in size reduction : The cost of power is a major expensive in crushing and grinding, so the factor that control this cost are important.
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Crushing Efficiency : Empirical Relationship of Rittinger’s Law & Kick’s Law The work required in crushing is proportional to the new surface created. This is equivalent to the statement that the crushing efficiency is constant and, for a giving machine and material, is independent of the sizes of feed and product. If the sphericities F a (before size reduction) and F b (after size reduction) are equal and the machine efficiency is constant, the Rittinger’s law can be written as Where Kr is Rittinger’s Co-efficient.
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Kick’s Law : the work required for crushing a given mass of material is constant for the same reduction ratio, that is the ratio of the initial particle size to the finial particle size Where P is power required, m is a feed rate of Crusher, DS2 is a average particle diameter before crushing, DS1 is average particle diameter after crushing, Kk is Kick’s Co-efficient.
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Bond Crushing law & Work Index :
The work required to form particles of size Dp from very large feed is proportional to the square root of the surface-to-volume ratio of the product, sp/vp. Since F s = 6/Dp, it follows that where Kb is a constant that depends on the type of machine and on the material being crushed.
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The Work Index Wi, Is define as the gross energy required in KWH per tone to reduce a very large feed to such a size that 80%of the product passes a 100µ m screen. If Dp is in millimeters, P in Kw, and m in tone per hour, then If 80% of the feed passes a mesh size of Dpa millimeters and 80% of the product a mesh of Dpb millimeters, it follows that
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Size Reduction Equipment :
Size reduction equipment is divided into crushers, grinders, ultrafine grinders, and cutting machines. Crusher do the heavy work of breaking large pieces of solid material into small lumps. A primary crusher operates on run-of -mine material accepting anything that comes from mine face and breaking it into 150 to 250 mm lumps. A secondary crusher reduces these lumps into particles perhaps 6mm in size. Grinders reduce crushed feed to powder. The product from an intermediate grinder might pass a 40-mesh screen; most of the product from a fine grinder would pass a 200-mesh screen with a 74m m opening. An ultrafine grinder accepts feed particles no larger than 6mm and the product size is typically 1 to 5m m. Cutters give particles of definite size and shape, 2 to 10mm in length.
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The principal types of size-reduction machines are as follows:
A. Crushers (coarse and fine) Jaw crushers Gyratory crushers Crushing rolls B. Grinders (intermediate and fine) Hammer mills; impactors Rolling-compression mills
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Attrition mills Tumbling mills C. Ultrafine grinders Hammer mills with internal classification Fluid-energy mills Agitated mills D. Cutting machines Knife cutters; dicers; slitters
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