The top curve represents data from the vibratory ball mill; the middle two curves are obtained from the Attritor. As you can see, for specific energy input around 100 kwh/T, the median particle size achieved through the use of Attritors is nearly ½ smaller than that obtained from conventional ball mills, and is about 1/3

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Grinding in a Stirred Ball Mill," Proc. Powder & Bulk Solids Conf., Chicago, IL, May 1978. Figure 1 The top curve represents data from the vibratory ball mill; the middle two curves are obtained from the Attritor. As you can see, for specific energy input around 100 kwh/T, the median particle

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Traditionally, ball mills are used in cement industry for raw material, fuel and product grinding. Ball mills use an established technology and offer certain advantages. However, they have higher energy demands. By using an appropriate kind of the more efficient roller mill technologies – either as a replacement or in combination with ball mills – considerable energy savings can …

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The specific energy consumptions for the HPGR and ball mill were determined based on the mill throughput rate and circuit capacity as 15 kWh/ton and 23 kWh/ton respectively during production, and of the Horomill to be 201 kWh/ton...

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Wet Ball Mill = kg kWh = 0.16(A i-0.015) 0.33; Dry Ball Mill = kg / kWh = 0.023A i 0.5; Replacement Ball Size. Rowland and Kjos proposed the use of their equation for the determination of the initial and replacement media size. Azzaroni (1981) and Dunn (1989) recommended the use of the following expression for the size of the makeup media:

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equipment to use to calculate KWh/t. What pieces of equipment should i use to calculate KWh/t. My grinding system has a roll press, ball mill and separator. Should i used: 1. Just the ball mill, roll press, separator, separator fan and ball mill fan. 2. All in 1 above including elevators. 3. include everything in the system.

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kwh/t to reduce a given material from theoretically infinite feed size to 80% passing 100 microns. The work index of a particular material is determined in the laboratory by conducting the standard Bond grindability test. Bond developed separate tests …

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AGITATED BALL MILL ANR-CL GCC fillers and coating pigments from ANR-CL-CL grinding systems 60% < 2 µm 45 kWh/t 90% < 2 µm 105 kWh/t 98% < 2 µm 180 kWh/t Slurry concentration 70 - 78 Weight% Viscosity 150 - 300 mPas Feed size 99,9 % < 45 µm The ANR-CL is designed for the cost-efficient ultrafine grinding of highly concentrated

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SAGDesign testing provides SAG pinion energy grindability in kWh/t to within +/- 5% from 152 to 1.7 mm, and Bond Ball Mill Work Index on SAG ground ore, from the SAG test on the same sample. Starkey & Associates uses the patented SAGDesign technology to calculate accurate mill sizes from measurements on a client's own ore samples.

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A total of 9 kWh/t of grinding energy was indicated and this could be provided either in a single stage SAG mill to produce the P80 200 micron product, or a two stage circuit with equal power on the SAG and ball mills using the design Bond Wi of 11.5 kWh/t.

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MillSlicer utilises vibration sensors and digital signal processing to output a charge toe position, inlet, shell and outlet fill vectors and a measure of charge impact intensity ("Liner Damage Level"). The MillSlicer software renders the liner damage level on a polar plot which helps the mill operator to optimise the feed rate and mill ...

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Rock Characteristics and Ball Mill Energy Requirements at ... kWh/t) as the highest (Higgins 1998; Elorantra, 1997) while efficiency decreases. Thus, milling is the most expensive and yet the least efficient. In a comminution circuit, overall power consumption and power draw during milling are very important ...

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Semi-autogenous (SAG), rod and ball mills. As well as the total specific energy it will also predict the specific energy of the crushing section, the HPGR section and the tumbling mill section ... Predicted (kWh/t) Observed (kWh/t) 5 Figure 3 – Measured vs Predicted Specific Energy for Total Comminution Circuit . 0 5 10 15 ...

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The dry feed of a ball mill circuit is 300 t/h. The power at the pinion of the ball mill is 1800 kW. F80 = 80% passing size of the circuit feed, in microns = 2500 um. P80 = 80% passing size of the circuit product, in microns = 225 um Solution. Work Input (Energy input): W= (1800 kw)/ 300 t/h=6.0 kwh/t. Then. WI = Work Index of this circuit

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Basically VRPMs are installed before one or more ball mills for pre-grinding of the material so as to reduce the specific power consumption and increase the grinding capacity of the circuit. We have developed and designed systems to achieve up to 90% increase in capacity and reduce the power consumption by 5 KWH /T to 7 KWH/T.

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In combination with a ball mill, the roller press performs a pre‐grinding of the clinker before it is fed into the ball mill. Integral grinding carried out by the combination of a roller press, a separator with desagglomerator stage and an elevator. ... Electric consumption (kWh/t) 35: 24:

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(kWh/t) and WioACTis the Actual Operating Bond Work Index (kWh/t). • If the Wi Efficiency Ratio is 1.0 or , the circuit is per-forming with the same efficiency as the Bond Standard Circuit (and the ore Wi = circuit operating Wi), in accor-dance with the correlation that Bond (1962) established between plant operating data and test data ...

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BM = Ball mill specific energy from T 80 1.7 mm to final product P 80, using Bond's Law, (kWh/t) W T = Total grinding mill circuit specific energy (kWh/t) Note that K BM is the composite of EF3, EF4 and EF5 factors for ball milling (Rowland, 1982). Morrell and SMCC Morrell (2004) developed a methodology for predicting specific energy with

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3.3 Ball Mill Design The ball mill designs also follow the Bond/Rowlings method with comparison with other methods. Again the method of use is the same 3.4 SAG/BM Combined design This is the combined model of the SAG and BM models. The difference is that a provision in the BM model allows for the fact that finished product is in the BM feed.

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Ball Mills: The newly developed SAT Ball Mill has the same mechanical reliability as the traditional one, but a far lower power consumption. The power consumption can be lower than 20 kWh/t for cement production. It is suitable for either setting up …

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BALL MILL Specification Number A Process Data Sheet xxxx-xxx-xxx Sheet No : 1 of 2 Area: xxx Client : Operating Centre: Jakarta No. 1 Working 1 Service: ROM Ball Mill Item No: 1 of: Standby 0 xxxx-ML-001 2 Manufacturer: Model Type and Number: 3 OPERATING CONDITIONS 4 MATERIAL HANDLED: Crushed Ore 5 Hazard Considerations: Yes X No Type: 6 DESIGN …

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The first production results achieved in the manufacture of Portland Cement CP42.5R are : 3200 Blaine fineness (selected identical to the present production in ball mill) Օ finished product throughput : 25 t/h motor shaft power : 400 kW i.e. 16 kWh/t the corresponding substitution ratio with respect to the FCB-Index is 1.55, but exceeds 2.0 with respect to the existing open circuit …

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The changes in ball/pebble grinding mixture resulted in mill power varying between 27 to 95 W and hence the time of the experiment was adjusted to maintain an energy input of about 17 kWh/t of sand. The product size varied between 70 to 99 …

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Example: material grindability & correlation with ball mill Evaluation of performance with help of Zeisel test Guiding values for the grindability of an OPC cement 95/5 are o 27-32 kWh/t at 3000 cm²/g acc. Blaine o 39-47 kWh/t at 4000 cm²/g acc. Blaine o 58-69 kWh/t at 5000 cm²/g acc. Blaine Energy consideration in cement grinding

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10%where W is the specific grinding energy (kWh/t), W i is the Bond ball mill work index (kWh/t), F80 is the feed 80 pct passing size (μm), and P80 is the product 80 pct passing size (μm). It can be seen that in the regime in which the Bond equation is valid, energy use increases exponentially as product size decreases with constant feed size ...

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Vertimill® has an excellent turndown ratio and can be operated at lower than installed power with less effect on grind efficiency than for example horizontal ball mills. Feed Flow-Rate. This parameter is used in conjunction with the feed density and motor power to establish the grinding rate in kWh/mt.

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This Table of Ball Mill Bond Work Index of Minerals is a summary as tested on 'around the world sample'. You can find the SG of each mineral samples on the other table. Source 1 Source 2 Source 3 Source 3 Source 4 Source 5 Source 6 Source 6 KWh/t Source 6; Avg Bond Work Index: kWh/t: kWh/t: kWh/sh.t: kWh/t: kWh/t: kWh/t: kWh/t: Range: No of ...

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Ball mills, that are commonly used for finish grinding, have high energy demands, consuming up to 30-42 kWh/t clinker depending on the fineness of the cement. Complete replacement of ball mills by vertical roller mills (VRMs) with an integral separator – as opposed to the use of VRMs as pre-grinding to ball mills – is regarded as a breakthrough.

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ball mills, and the bottom curve depicts the Attritor. At a specific energy input of about 100 kWh/T, the median particle size reduction obtained in the Attritor is about half that obtained in the conventional ball mill, and about 1/3 that from the vibratory ball mill. At a specific energy input above 200 kWh/T, the Attritor continued to grind into

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Test WI of circuit feed ore = 16.1 kWh/t (The Bond ball mill test Work Index of the ore, whichapplies over the size reduction range of this circuit) W = 3,150 kW / 450 t/h = 7.0 kWh/t . The circuit's Bond WI Ratio Eff. = 16.1 / 14.4 = 1.12, or 112% . This circuit is performing approximately 12% better than predicted

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