dpar buot2

7/24/2019 dpar buot2

1/31

Power Requirement Data for the Jaw Crusher

Jaw Opening (mm) 4 8

A before crushing 1.1 0.3

V before crushing 220 220

Time Ammeer !ea"ing

0 1.1 0.3

4 1.4 0.38 1.1 1.1

12 1.2 1.#

1$ 1.8 1.1

20 1.1 1.1

24 1.2 1

28 1.2 1.1

32 1.8 1.2

3$ 1.4 0.8

40 1.8 1

44 1.4 1.1

48 1.2 0.#

%2 1.2 0.#

%$ 1.1 1.1

$0 1.1 1

$4 1.4 1.1

$8 1.4 0.8

&2 1.# 1.2

&$ 1.$ 1

80 1.3 1.2

84 1.4 1.2

88 1.3 1.4

#2 1.2 1.4

#$ 1.$ 1.$

100 1.# 1.4

104 1.$ 0.$

108 1.% 0.4

112 1.3 0.4

11$ 1.2 0.#

120 1.2 1

124 1.2 0.4128 1.1 0.8

132 1.4 0.$

13$ 1.2 0.$

140 1.4 0.&

144 1.4 0.#

148 1.# 0.$

1%2 1.4 0.4


2/31

1%$ 1.1 0.4

1$0 1.3 0.%

1$4 1.2 0.$

1$8 1.3 0.4

1&2 1.2 0.%

1&$ 1.1 0.2

'(i i1)(i1 * i)(1+2)

0 20 40 $0

0

0.2

0.40.$

0.8

1

1.2

1.4

1.$

1.8

2

Current (A)


3/31

,raphica- negraion

% 1.2

% 2.84.$ $

$ $

%.8 4.4

4.$ 4.2

4.8 4.2

$ 4.$

$.4 4

$.4 3.$

$.4 4.2

%.2 4

4.8 3.$

4.$ 4

4.4 4.2

% 4.2

%.$ 3.8

$.$ 4

& 4.4

%.8 4.4

%.4 4.8

%.4 %.2

% %.$

%.$ $

& $

& 4

$.2 2

%.$ 1.$

% 2.$

4.8 3.8

4.8 2.8

4.$ 2.4% 2.8

%.2 2.4

%.2 2.$

%.$ 3.2

$.$ 3

$.$ 2

% 1.$

or 4 mm/ (i

i1)(

i1*

i)(1+2) or 8 mm/ (

i

i1)(

i1*

i)(1+2)


4/31

4.8 1.8

% 2.2

% 2

% 1.8

4.$ 1.4

* *

240 1%%.4

80 100 120 140 1$0 180 200

4 mm

8 mm

time (sec)


5/31

Jaw Opening (mm)

8 mm4 mm

4.31

0.#04

Jaw Opening (mm)

8

4

0.4%

ean aric-e iameer mi

(mm)

Acua- !e-aie 5nerg6 7onsumpion 5acua- re-aie

(J+J)


6/31


7/31

niia- ower !euiremen (9)

$$ 11$1$242 42%#2

22%&2

10208

4.31 0.00431

0.#04 0.000#0

!iinger:s ;aw e 5nerg6 !euiremen 5ne

(J)

ean aric-e ?i@e afer 7rushing mi

(mm) mi

(m)

Theoreica- !e-aie 5nerg6 7onsumpion 5heo re-aie

(J+J)


8/31


9/31

Toa- Area n"er he 7ure

1%%.4240

12.&

ercen iBere

!iinger:s ;aw

201.$43$

aric-e ?i@e before 7rushing i(mm)


10/31


11/31

34188 22%&2%2800 10208

!iinger:s ;aw

0.012&1%3.2&84

102&.4%4%

ce (C)

e 5nerg6 7onsumpion 5ne

(J)

i(m)

Theoreic


12/31


13/31

0.4%


14/31


15/31


16/31


17/31

Screen Analysis Data (Jaw Crusher)

Throa Opening (mm) 8

aric-e ?i@e Defore 7rushing (mm) 12.&

?amp-e (g) $41.34

siee opening mm

$.30 mm $.3 4%$.$

3.1% mm 3.1% 44&.$#0.8% 380.1&

4%0 Em 0.4% 32$.4%

2%0 Em 0.2% 308.4

180 Em 0.18 322.31

receier 0 2$4.8#

w

0.0# 0.00&84#31810.21% 0.0012#%21%%

0.3% 0.0023%$3%%#

0.$% 0.00410411$$

2 0.02%342%2##

4.&2% 0.11180#8$8$

#.% 0.84&242%#%4

Throa Opening (mm) 4

aric-e ?i@e Defore 7rushing (mm) 12.&

?amp-e (g) $0&.1&

siee opening mm

$.30 mm $.3 4%$.%%

3.1% mm 3.1% 44&.$%

0.8% 380.1%

4%0 Em 0.4% 32$.42%0 Em 0.2% 308.34

180 Em 0.18 322.3

receier 0 2$4.83

w

msiee

(g)

8%0 Em

p

msiee

(g)

8%0 Em

p


18/31

0.0# 0.0$134#2888

0.21% 0.0143%$%#0&

0.3% 0.0281%2&$34

0.$% 0.044$02$801

2 0.1#0#%41#41

4.&2% 0.41401&0433

#.% 0.24$%$&43#&

0 1 2 3 4 % $ & 8 # 10

0

0.2

0.4

0.$

0.8

1

Average Particle Diameter, Dp (mm)

eight !raction, w

0 1 2 3 4 % $ & 8 # 10

0

0.2

0.4

0.$

0.8

1

Average Particle Diamter, Dp (mm)

Cumulative "ass !raction, #


19/31

w

###.%3 %42.#3 #.% 0.84&243 0.08#183

4.313##8

%1#.34 &1.$% 4.&2% 0.11181 0.023$$33#$.41 1$.24 2 0.02%343 0.012$&1

32#.08 2.$3 0.$% 0.004104 0.00$314

30#.#1 1.%1 0.3% 0.0023%$ 0.00$&32

323.14 0.83 0.21% 0.0012#% 0.00$024

2$#.#2 %.03 0.0# 0.00&84# 0.08&21%

Toa- ?amp-e !ecoere" $40.82 'AF 0.231804

ercen !ecoer6 ##.#2

G HG H HG+H

0.00&84#3181 * * *0.00#144%33$ 0.0013 0.12% 0.0103$2

0.011%0088#% 0.0024 0.13% 0.01&4%4

0.01%$0%00$1 0.0041 0.3 0.013$8

0.040#4&%3$ 0.02%3 1.3% 0.018&&2

0.1%2&%&404$ 0.1118 2.&2% 0.041031

1 0.84&2 4.&&% 0.1&&433

w

$0$.14 14#.%# #.% 0.24$%$& 0.02%#%4

0.#03&1%

$#8.83 2%1.18 4.&2% 0.41401& 0.08&$23

4#$ 11%.8% 2 0.1#0#%4 0.0#%4&&

3%3.4$ 2&.0$ 0.$% 0.044$03 0.0$8$232%.42 1&.08 0.3% 0.0281%3 0.08043$

331.01 8.&1 0.21% 0.0143%& 0.0$$&&%

302.0% 3&.22 0.0# 0.0$134# 0.$81$%#

Toa- ?amp-e !ecoere" $0$.$# 1.10$%44

ercen !ecoer6 ##.#2

G HG H HG+H

msiee w+samp-e

(g) msamp-e reaine"

p AF (mm*1) m (mm)

msiee w+samp-e

(g) msamp-e reaine"

p AF (mm*1) m


20/31

0.0$134#2888 * *

0.0&%&0%8 0.0144 0.12% 0.1148%3

0.1038%8$428 0.0282 0.13% 0.208%3#

0.1484$1322# 0.044$ 0.3 0.148$&$

0.33#41%%1& 0.1#10 1.3% 0.141448

0.&%3432%$03 0.4140 2.&2% 0.1%1#33

1 0.24$$ 4.&&% 0.0%1$3&

4 mm

8 mm

0 0.% 1 1.% 2 2.% 3 3.% 4 4.%

0

0.0%

0.1

0.1%

0.2

0.2%


$#%$D

4 mm

8 mm


21/31


22/31

%

4 mm

8 mm


23/31

Screen Analysis Data (&ammer "ill

?creen ?i@e (mm) 10

aric-e ?i@e Defore 7rushing (mm) $.3%

?amp-e (g) 381.%4

siee opening mm

$.30 mm $.3 4%$.%%

3.1% mm 3.1% 44&.$%0.8% 380.1%

4%0 Em 0.4% 32$.4

2%0 Em 0.2% 308.34

180 Em 0.18 322.3

receier 0 2$4.83

w

0.0# 0.201&4081&%0.21% 0.0412#1#802

0.3% 0.0&$$0$4%4&

0.$% 0.0#&341%8

2 0.32#%231104

4.&2% 0.2204%#848%

$.32% 0.0324043&3

?creen ?i@e (mm) $aric-e ?i@e Defore 7rushing (mm) $.3%

?amp-e (g) 3&8.2&

siee opening mm

$.30 mm $.3 4%$.%%

3.1% mm 3.1% 44&.$%

0.8% 380.1%

4%0 Em 0.4% 32$.4

2%0 Em 0.2% 308.34

180 Em 0.18 322.3

receier 0 2$4.83

w

0.0# 0.23%#28$18$

0.21% 0.04%3403833

0.3% 0.0833311302

msiee

(g)

8%0 Em

p

msiee

(g)

8%0 Em

p


24/31

0.$% 0.10#424#83%

2 0.3&$###33#1

4.&2% 0.14%00##141

$.32% 0.003#$%$312

?creen ?i@e (mm) 0.&%

aric-e ?i@e Defore 7rushing (mm) $.3%

?amp-e (g) 3#2.44

siee opening mm

$.30 mm $.3 4%$.%%

3.1% mm 3.1% 44&.$%

0.8% 380.1%4%0 Em 0.4% 32$.4

2%0 Em 0.2% 308.34

180 Em 0.18 322.3

receier 0 2$4.83

w

0.0# 0.$0011212&$

0.21% 0.0#3$%204&$0.3% 0.1$8&&&%%41

0.$% 0.12#22&083#

2 0.00802&3184

4.&2% 0.0002038$84

$.32% 0

msiee

(g)

8%0 Em

p

0 1 2 3 4 % $

0

0.1

0.2

0.3

0.4

0.%

0.$

0.&

eight !raction, w


25/31

Average Particle Diameter, Dp (m

0 0.% 1 1.% 2 2.% 3 3.% 4 4.

0

0.2

0.4

0.$

0.8

1

1.2

1.4


$#%$D


26/31

)

w

4$8.#1 12.3$ $.32% 0.032404 0.00%123

0.3311%1

%31.&4 84.0# 4.&2% 0.2204$ 0.04$$%8%0%.84 12%.$# 2 0.32#%23 0.1$4&$2

3$3.&& 3&.3& 0.$% 0.0#&3 0.1%0&28

33&.%$ 2#.22 0.3% 0.0&$$0$ 0.2188&$

338.0% 1%.&% 0.21% 0.0412#2 0.1#20%$

341.&8 &$.#% 0.0# 0.201&41 2.241%$%

Toa- ?amp-e !ecoere" 381.43 3.01#&$&

ercen !ecoer6 ##.#&

G HG H HG+H

0.201&4081&% * * *0.243032&$ 0.0412#1#802 0.12% 0.33033$

0.31#$3#2%23 0.0&$$0$4%4& 0.13% 0.%$&4%%

0.41&$12$$81 0.0#&341%8 0.3 0.32$%&8

0.&4&13%&&8% 0.32#%231104 1.3% 0.2440#1

0.#$&%#%$2& 0.2204%#848% 2.&2% 0.080#03

1 0.0324043&3 1.$ 0.0202%3

w

4%8.0% 1.% $.32% 0.003#$$ 0.000$2&

0.28#13&

%02.% %4.8% 4.&2% 0.14%01 0.030$#

%22.&% 142.$ 2 0.3&$### 0.188%

3$&. 41.3# 0.$% 0.10#42% 0.1$834$

33#.8$ 31.%2 0.3% 0.083331 0.23808#

33#.4% 1&.1% 0.21% 0.04%34 0.21088$

3%4.0& 8#.24 0.0# 0.23%#2# 2.$2142#Toa- ?amp-e !ecoere" 3&8.2% 3.4%8%$$

ercen !ecoer6 ##.##

G HG H HG+H

0.23%#28$18$ * * *

0.2812$#002 0.04%3403833 0.12% 0.3$2&23

0.3$4$001322 0.0833311302 0.13% 0.$1&2$8

msiee w+samp-e

(g) msamp-e reaine"

p AF (mm*1) m

msiee w+samp-e

(g) msamp-e reaine"

p AF (mm*1) m


27/31

0.4&402%11%& 0.10#424#83% 0.3 0.3$4&%

0.8%10244%4& 0.3&$###33#1 1.3% 0.2%#

0.##$0343$88 0.14%00##141 2.&2% 0.0%321%

1 0.003#$%$312 1.$ 0.0024

w

4%$.%% 0 $.32% 0 0

0.1283#3

44&.&3 0.08 4.&2% 0.000204 4.315*00%

383.3 3.1% 2 0.00802& 0.0040143&&.11 %0.&1 0.$% 0.12#22& 0.1#8811

3&4.%& $$.23 0.3% 0.1$8&&8 0.482222

3%#.0% 3$.&% 0.21% 0.0#3$%2 0.43%%#1

%00.32 23%.4# 0.0# 0.$00112 $.$$

Toa- ?amp-e !ecoere" 3#2.41 &.&88%#3

ercen !ecoer6 ##.##

G HG H HG+H

0.$0011212&$ * * *

0.$#3&$41&%2 0.0#3$%204&$ 0.12% 0.&4#21$0.8$2%41&2#3 0.1$8&&&%%41 0.13% 1.2%0204

0.##1&$88132 0.12#22&083# 0.3 0.430&%&

0.###$131$ 0.00802&3184 1.3% 0.00%#4$

1 0.0002038$84 2.&2% &.485*00%

1 0 1.$ 0

msiee w+samp-e

(g) msamp-e reaine"

p AF (mm*1) m

&

10 mm

$ mm

0.&% mm

0 1 2 3

0

0.2

0.4

0.$

0.8

1

1.2

Cumulative "ass !ractiton, #


28/31

m)Average Particle Diameter, D

% %

10 mm

$ mm

0.&% mm


29/31


30/31

% $ &

10 mm

$ mm

0.&% mm


31/31

(mm)

dpar buot2

Documents