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8/12/2019 1998-MinEng
http://slidepdf.com/reader/full/1998-mineng 1/11
Pergamon
0892-6875 98)00031-4
Minerals Engineering V o l . I 1 , N o . 6 , p p . 4 8 9 - 4 9 9 , 1 9 9 8
M inera l process ing; f lo ta t ion f ro ths ; f lo ta t ion bubbles ; on- l ine analys is ; exper t sys tem s
I N T R O D U C ~ O N
S uperv i s ion a nd con t ro l o f f lo ta t ion p lan t s i s gene ra l ly accompl i s hed t ak ing in accou n t the in fo rm at ion
s upp l i ed by ex per t ope ra to r s w ho ob s e rve the f ro th and bubb les p roduced on the s u r f ace o f f lo ta tion ce il s
and r ec om m end ac t ions s uch as va ry ing l eve l s and mod i fy ing r eagen t s [1] .
The ava i l ab i l i ty o f low cos t and pow er fu l compu te r s toge the r w i th h igh pe r fo rmance f r ame g rabber s and
CC D indus t r ia l g r ade cameras a l low the u s e o f a r t if i c ia l v i s ion to s uppor t p lan t ope ra to r s in the i r ta s k o f
s uperv i s ing and co n t ro l l ing the f lo ta t ion p roces s p rov id ing them upda ted in fo rm at ion abou t the s t a te o f the
ce l l s and s ys tema t iz ing the r eas on ing mad e by exper ts .
Th i s w ork des c ribes f i rs t A C EF L O T an ana lyze r tha t meas u res the co lo r numb er s i ze s hape dens i ty
s peed and s t ab i li ty o f the bubb les p roduced on the s u r f ace o f a flo ta tion ce l l and s econd ly an exper t s y s tem
bas ed on A CE F L O T tha t de tec t s abnormal ope ra tion st a te s and p ropos es co r rec t ive ac tions s uch as
chang ing l eve l s e t po in t s o r mo d i fy ing the dos e o f r eagen ts .
Presented at Minerals Engineering 97, Santiago.Chile July-August 1997
489
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4 9 0 A C i p r i a n o e t a l
T H E A C E F L O T A N A L Y Z E R
e s c r i p t i o n
A CE FL O T i s a n a r t i f i c i a l v i s i o n b a s e d i n s t r u me n t d e v e l o p e d t o s u p p o r t p l a n t o p e r a t o r s i n t h e s u p e r v i s i o n
a n d c o n t r o l o f m i n e r a l f l o t a ti o n p r o c e s s . I t d e t e r mi n e s t h e c o l or , n u mb e r , s i ze , s h a p e , d e n s i ty , s p e e d a n d
s t a b i l i t y o f t h e f r o t h b u b b l e s a t t h e s u r f a c e o f a f l o t a t i o n c e l l . T h e i ma g e c o l o r i s d e f i n e d a s t h e me a n
i n t e n s i ty v a l u e o f e a c h o f t h e re d , g r e e n a n d b l u e RG B) i ma g e c o mp o n e n t s . T h e s i z e o f t h e b u b b l e s is
d e f i n e d a n d c o m p u t e d a s t h e a v e r a g e o f th e a r e a i n c m 2 o f a l l t h e b u b b l e s a p p e a r i n g i n t h e f r a m e c a p t u r e d
b y t h e C C D c a m e r a . T h e s h a p e o f th e b u b b l e s is d e fi n e d a nd c o m p u t e d a s th e m e a n r a ti o b e t w e e n t h e m i n o r
a n d m a j o r a x i s o f e a c h b u b b l e i n t h e ima g e , a n d f i n a ll y , t h e d e n s it y i s c o mp u t e d a s t h e n u m b e r o f b u b b l e s
p e r c m 2 i n t h e i ma g e .
A C E F L O T a l s o d e t e r mi n e s t h e ma g n i t u d e o f t h e s p e e d a n d th e mo v i n g d i r e c ti o n o f th e b u b b l e s , a s w e l l a s
t h e f r o t h s ta b i l it y , w h i c h i s a me a s u r e me n t o f th e r a te o f b u b b l e e x p l o s i o n s . A d d i t i o n a l ly , A CE FL O T k e e p s
h i s t o r i c a l r e g i s t e r o f t h e me a s u r e d v a r i a b l e s a n d d i s p l a y s c u r r e n t r e s u l t s a n d t r e n d s i n t i me .
H a r d w a r e s t r u c t u r e
Fi g u r e 1 s h o w s a s c h e ma t i c v i e w o f t h e h a r d w a r e s t r u c t u r e o f A C E F L O T . I t c o n s is t s o f :
T h r e e v i d e o a c q u i s i t i o n s u b s y s t e ms
E a c h v i d e o a c q u i s i t i o n s u b s y s t e m i s e n c l o s e d i n a h a r d s t e e l w a t e r a n d d u s t p r o o f c a s e , w h i c h h o u s e s a n
i n d u s t r i a l g r a d e c o l o r CCD c a me r a , a n A C/ D C p o w e r s u p p l y a n d f o u r s p e c i a l f l u o r e s c e n t l a mp s w i t h f l a t
c o l o r s p e c t r u m f o r i l l u mi n a t i n g t h e f r o t h s u r fa c e . T h e i ma g e c a p t u r e d b y e a c h c a m e r a i s t r a n s mi t t e d t h r o u g h
a d o u b l e i n s u l a t e d c o a x i a l c a b l e , t o t h e c o mmu n i c a t i o n s u b s y s t e m.
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Visual senso r for supervision of flotation cells 491
T h e c o m m u n i c a t i o n s u b s y s t e m i s c o m p o s e d o f a n a n a l o g v i d e o m u l t i p l e x e r , a f i b e r o p t i c l i n k f o r v i d e o
t r a n s m i s s i o n a n d a t w i s t e d p a i r c a b l e u s e d f o r c a m e r a s e l e c ti o n . T h e o p t i c a l f i b e r l i n k c o n s i s ts o f a n
e l e c t r i c a l / o p t i c a l c o n v e r t e r , t h e o p t i c a l f i b e r a n d a n o p t i c a l / e l e c t r i c a l c o n v e r t e r . T h e v i d e o s i g n a l i s
t r a n s mi t t e d f r o m t h e mu l t i p l e x e r o u t p u t t o t h e p r o c e s s i n g s u b s y s t e m t h r o u g h t h e f i b e r o p t i c l i n k .
T h e p r o c e s s i n g s u b s y s t e m c o n s is t s o f a n 1 0 0 M H z . P e n t i u m b a s e d P C w i th 3 2 M B o f R A M , a 1 .0 G B h a r d
d i s k , a 1 7 SV G A m o n i t o r a n d a c o l o r f r a me g r a b b e r b o a r d th a t a l l o w s t o d i s p l a y re a l ti me v i d e o i n t h e
mo n i t o r . Be c a u s e t h e f i b e r o p t i c l i n k t r a n s mi t s o n l y o n e v i d e o s i g n a l a t a t i me , t h e p r o c e s s i n g s u b s y s t e m
s e l e c t s t h e v i d e o s o u r c e , u s i n g a t w i s t e d p a i r c a b l e c o n n e c t e d t o a n RS- 2 3 2 p o r t w h i c h s e n d s a s i g n a l t o t h e
v i d e o a n a l o g mu l t i p l e x e r . A v i d e o f r a me i s c a p t u r e d a n d d i g i t i z e d i n t o me mo r y b y t h e f r a me g r a b b e r . T h e
c o m p u t e r p r o c e s s e s t h e i ma g e , d i s p l a y s t h e r e s u l ts o n t h e s c re e n o f th e c o m p u t e r a n d s t o r e s t h e m i n to t h e
h a r d d i s k .
pera t io n in t er f a ce
T h e A C E F L O T a n a l y z e r w a s d e v e l o p e d in C + + t o o pe r a t e u n d e r th e M i c r o s o f t W i n d o w s ® 3 .1 e n v i r o n m e n t
i n o r d e r t o p r o v i d e a f r i e n d l y i n t e r f a c e w i t h s e l e c t i o n me n u s , g r a p h i c b u t t o n s a n d o n l i n e e x p l a n a t i o n o f
f u n c t i o n s . F i g u r e 2 s h o w s a g e n e r a l v i e w o f th e u s e r i n te r f a c e s c re e n , w h i c h h a s t h r e e s e p a r a t e a n d
iden t i f i ab le a reas .
F i g . 2 A CE FL O T o p e r a t i o n i n t e r f a c e .
T h e f i rs t o n e , o n t h e t o p o f th e s c r e e n , a l l o w s t h e u s e r t o in t e r a c t w i t h t h e i n s t r u me n t u s i n g m e n u s a n d i c o n
i d e n t i fi e d b u t t o n s, w h i c h m a k e p o s s i b l e t o a c c e s s a n d a c t iv a t e d i v e r s e f u n c t i o n s o f A C E F L O T . Se v e r a l
p o s s i b i l i ti e s a r e a v a i l a b l e , s u c h a s c h o o s i n g o n e o f t h e f l o ta t i o n c e ll s , s h o w i n g t h e v i d e o i n r e a l t ime ,
f r e e z i n g a n i ma g e , p r o c e s s i n g t h e f r o z e n f r a me , d i s p l a y i n g a n d s t o r i n g t h e r e s u l t s , e t c .
T h e s e c o n d a r e a o n t h e l e f t o f t h e s c r e e n , c a l l e d p r o c e s s i n g a r e a , s h o w s t h e c u r r e n t f r a me u n d e r p r o c e s s .
T h e d i s p l a y r e f l e c t s t h e c h a n g e s g e n e r a t e d t h r o u g h t h e a p p l i c a t i o n o f t h e i ma g e p r o c e s s i n g a l g o r i t h ms
n e e d e d t o e x t r a c t t h e r e q u i r e d i n f o r ma t i o n f r o m t h e i ma g e .
T h e t h i r d s c r e e n a r e a , c a l le d i n f o r m a t i o n a r e a , h a s t h r e e s e c t io n s , o n e f o r e a c h f l o t a t io n c e l l. F i g u r e 3 s h o w s
a d e t a il e d v i e w p r e s e n t i n g t h e i n f o r ma t i o n c o r r e s p o n d i n g t o c e ll 1 . T h e w i n d o w d i s p l a y s t h e r e a l t i me i ma g e
o f t h is c e l l a n d s h o w s a l l t h e me a s u r e m e n t s , s u c h a s c o l o r , n u mb e r , s i z e , s h a p e a n d d e n s i t y o f th e b u b b l e s
as wel l as the ve loc i ty and s t ab i l i ty o f the f ro th .
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492 A. Cipriano t a l
T h e A C E F L O T o p e r a t io n i n te r f a ce a l s o d i s p la y s g r a p h s s h o w i n g t r e n d s in t i m e o f t h e m e a s u r e d v a r i a b le s ,
w h i c h a r e o b t a i n e d f r o m a u t o m a t i c a l l y r e c o r d e d h a rd d i s k h i s t o r ic d a ta . It i s a l s o p o s s i b l e t o d i s p l a y i m a g e
h i s t o g r a m s a n d to s h o w r e s u l ts f r o m t h e ex p e r t s y s t e m . A s a n e x a m p l e F i g u r e 4 p r e s e n t s a d e t a i l e d v i e w
s h o w i n g t h e h i s t o g r a m o f t h e s h a p e o f t h e b u b b le s a s w e l l a s t h e R G B v a r i a t i o n s t r e n d s ) d u r i n g th e la s t
2 0 m i n u t e s f o r a g i v e n c e l l .
N ~ e c ¢ ~ e a c t a ~ c e l l , ~ B u b b l e s , ~ n a t t y
~ o u n d m t h e l ~ s t
i n c a s e m e n t
N , ~ a b ~ I o f ' b u b b l e s J
fot~ ltd t r l Lhe ta~t , . S p ee d ~ t h e ~ o t ~
m e e s ~ e m e n ~
I m F t ~ ¢ h ~ t n ~ I t ~
i ~ A e e a c a ~ e t e e l b y ~ ~ b b l e s
exp ressed ss ~ ' lh e to t.d ~ e s
D a t e c u , m o f t h ~ f l e s h
t m + g e
~ : ' , , M e ~ n v ~ e o f t h e R O Ba e c o l r o h e
I ~ : ~ n e d ~ e d ~ , . . • c o m p ~ . a e n t ~ 0 t e t h e l ~ s t a n d i z e d , , M e e n v a l u e o t t h e
~rasge ~ - - ~ t ra e te ~ " ~ ' b u ~ e st r n ~ e
• M e ~ m v ~ u e o f t h e b r l g n tn e s s . M e ~ ¢ ~ , r , d l ~ . o f t h e
c ~ t ~ e 1 4 ~ ~ l z ~ d t t l~ ~ t ~' e ¢11 clJl ~ lt'y" ,:~ ~ l b b / e ~
F r s m ~ u ~ t h t h e m e r e. . M e s h " ¢ ~L~ o f t h e ~ x e l
~ t ~ t n e s o f t h e I ~ t s t ~ l ' ~ l l z e d~rasge co~eto d b y • an ~ le
b ~b ~ l e
F i g .3 I n f o r m a t i o n w i n d o w o f a s i n g l e c e ll .
F i g . 4 H i s t o g r a m a n d t r e n d g r a p h .
T h r o u g h t h e in t e r f a c e , th e u s e r c a n c o n f i g u r e d i f fe r e n t o p e r a ti n g o p t i o n s o f t h e i n s t r u m e n t , s u c h a s
c o m m u n i c a t i o n p o r t c o n f i g u r a t i o n , s e l e c t i o n o f d ig i ta l f il te r s , s e l e c t i o n o f a u t o m a t i c o r m a n u a l p r o c e s s i n g ,
a n d t h e p r o c e s s i n g i t se l f . R u n n i n g i n a P e n t i u m b a s e d c o m p u t e r , t h e s o f t w a r e c a n p r o c e s s a n d e x t ra c t a ll
t h e re q u ir e d m e a s u r e m e n t s f r o m o n e i m a g e i n a b o u t o n e m i n u t e . A w h o l e s y s t e m , i n c l u d i n g t h r ee c a m e r a s ,
c a n a n a l y z e o n e c e l l e v e r y t h r e e m i n u t e s .
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Visual sensor for supervisionof flotation cells 493
lgorithms
T o m e a s u r e t h e f r o t h c o l o r , t h e s o f tw a r e c o m p u t e s t h e a v e r a g e v a l u e o f t h e t h re e R G B ) c o l o r c o m p o n e n t s
o f each p i xe l , u s i ng t he i n fo rm at i on g i ven by t he f r am e g rabber [2 ] .
T o d e t e r m i n e t h e n u m b e r , s i z e , sh a p e a n d d e n s i t y o f th e b u b b l e s, A C E F L O T l o c a l iz e s t h e c e n t e r o f th e
b u b b l e s b y r e c o g n i z i n g t h e s h i n ie s t z o n e s o f t h e i m a g e , a n d t h e e d g e s o f t h e b u b b l e s b y r e c o g n i z i n g t h e
da rkes t zo nes [3 ]. The da rkes t zon es a re de t e rm i ned by s ea rch i ng t he po i n ts w i t h t he l owes t i n tens i t y i n 12
rad i a l d i r ec t i ons s t a r t i ng f rom t he cen t e r o f t he bubb l e .
F i g u r e 5 s h o w s a n i m a g e w i t h d e t e c t e d b u b b l e c e n t e rs a n d e d g e s . O n c e b u b b l e c e n t e r s a n d e d g e s a r e
de t ec t ed i t i s pos s i b l e t o com pu t e t he a rea , pe r i m e t e r , d i am et e r and c i r cu l a r i t y o f t he bubb l es .
F i g .5 Edge and cen t e r de t ec t i on .
Th e f ro t h v e l oc i t y and s t ab i l i ty i s eva l ua t ed t h rough t he p roces s i ng o f cons ec u t i ve i m ages , a t a r a t e o f 20
f r a m e s p e r s e c o n d . T h e s p e e d i s c o m p u t e d d e t e r m i n in g t h e m o v e m e n t o f t h e f r o th f r o m o n e f r a m e t o t h e
n e x t . T h e s t a b il it y i s e s ti m a t e d c o m p a r i n g t w o c o n s e c u t i v e im a g e f r a m e s , a n d e v a l u a t in g a m e a s u r e m e n t
o f t h e r a t e o f c h a n g e i n t h e a p p e a r a n c e [ 4 ] . F i g u r e 6 s h o w s a n i m a g e w i t h c o m p u t e d v e l o c i t y v e c t o r s
s u p e r i m p o s e d .
¢
:
F i g .6 Vec t o r s r ep res en t i ng t he m ovem en t o f t he f ro t h s u r face .
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4 9 4 A . C i p r i a n o e t a l .
T H X P R T S Y S T M
xpert sys tem s tructure
Th e ana l y s i s o f the cap t u red i m ages t oge t he r w i t h t he in fo rm at i on p rov i de d by expe r t f l o ta t i on t echn i c i an
a l l ow ed u s t o des i gn a know l edge bas e s t ruc t u red i n ru l e s t ha t de t e rm i nes t he ope ra t i on s t a t e o f each
f l o t a ti on ce l l u s i ng t he f ro t h co l o r ve l oc i t y and s tab i l it y i n fo rm at i on t oge t he r w i th t he m e as u rem en t s o f
b u b b l e s i z e s h a p e a n d d e n s i t y o b t a i n e d b y A C E F L O T .
F i gu re 7 s ho ws a b l ock d i ag ram o f t he exper t s y s t em s truc t u re . As s how n t he cha rac t e r i za t i on o f t he ce l l
p e r f o r m a n c e i s a c h i e v e d t h r o u g h t h e a n a l ys i s o f th e f r o t h c o lo r t h e g e o m e t r i c i n f o r m a t i o n o f th e b u b b l e s
a n d t h e f r o t h d y n a m i c s .
Dig a a l i ze d I ra ~ ge s P ~ oc e s s e cl I ra a ge s
C o l o r A n a l y s i s ] D y n m a t e A n a l y s t s
B l a c k , yellow, l~ht .10tue, Sl ow lest, stable, unstnble,g~ay,etc qmat, u ~ o u l e n t ate
D e t e c l ao n o f o p e r a t a o n s t a te s
- Light froth I - P .cntic r o t h
- He a vy t ro th ~ - Ope n t ro th- W atered roth . e tc
P o s s i b l e e ,a ~. Ta e o f l h e o p e r a t l o n s t a t e a l e s t a b l i n - h e d
A c t i o n s i ~ on l e r o c o r r e c t t h e a b n o m a a l s i t u a t ], o n r e s u g g e s t e d
Ge ome tm Ana lys i s
rtMl, large ubbles , e tc .
F i g .7 Exper t s y s t em s t ruc t u re .
Th e co l o r ana l y s i s des c r i bes t he f ro t h a s b lack ye l l ow l i gh t-b l ue e t c . The geo m e t r i c ana l y s i s de f i nes t he
bubb l es a s s m a l l l a rge e t c . The dyna m i c ana l y s is de t e rm i nes t he f ro t h s peed s t ab i li t y t u rbu l ence e t c .
d i s t i ngu i s h i ng cas es s uc h as s l ow o r fa s t f ro t h s t ab l e o r uns t ab le f ro t h qu i e t o r t u rbu l en t f ro th e t c .
F r o t h c h a r a c t e r i z a t i o n is a c c o m p l i s h e d t h r o u g h t h e p r o c e s s i n g o f I f T h e n ru l e s i n wh i ch t he m ea s u red
var i ab l es a r e checked aga i n s t p ro -es t ab l i s hed t h res ho l d l eve l s .
On ce t he f ro t h is cha rac t e r i zed t he exper t s y s t em de t e rm i nes wh i ch ope ra t i on s ta t e de f i ned i n t he know l edge
bas e f it s t o t he s t ud i ed ce ll . Th i s is a l s o ach i eved t h rough t he p roces s i ng o f I f T h e n ru les .
I f t he i den t i f i ed s t a t e co r res ponds t o abno rm al ope ra t i on t he exper t s y s t em s ea rches i n a t ab l e t he pos s i bk
caus es wh i ch can be an i nadeq ua t e dos e o f r eagen t s f ro t h con t am i na t i on wi t h ex t e rna l agen t s s uch a:
pe t ro l eu m o i l de t e rgen t s e t c . o r an i nadequa t e c l a s s if i ca t ion i n t he p rev i ous com m i nu t i on p roces s .
Th en t he e xpe r t s y s t em s ugges t s pos s i b l e co r rec t i ve ac t i ons t ha t t he p lan t ope ra t o r s hou l d fo l l ow i n o rde
t o s o l v e th e p r o b l e m f o r e x a m p l e a d j u st in g t h e d o s e o f re a g e n ts o p e n i n g th e c e l l c a p o r r e d u c in g t h e w a t e
s upp l y .
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Visual senso r for supervision of flotation cells 495
O p e r a t i o n i n t e r f a c e
T h e i n f o r m a t i o n p r o v i d e d b y t h e e x p e r t s y s t e m is p r e se n t e d i n a w i n d o w w i th i n t he A C E F L O T o p e r a t io n
i n t e r f a c e . T h i s w i n d o w d i s p l a y s t h e f r o t h s t a t e , t h e p o s s i b l e c a u s e s o f a b n o r ma l o p e r a t i o n s t a t e s a n d t h e
s u g g e s t e d c o r r e c t i v e a c t io n s . I f t h e i d e nt i fi e d s t a t e n e e d s a n a l a r m t h e e x p e r t s y s t e m m a k e s t h e c o m p u t e r
b e e p .
F i g u r e 8 s h o w s a d i s p l a y c o r r e s p o n d i n g t o ce l l 1 i n w h i c h t h e s t a te e x c e s s o f l i me h a s b e e n d e t e c t e d .
F i g . 8 E x p e r t s y s t e m i n t e r f a c e .
P r o g r a m m i n g s t ru c t u re
T h e e x p e r t s y s t e m u s e s f o u r t e x t f i le s f o r i ts o p e r a t i o n . I n t h e f i rs t o n e , var iab le .exp t h e f o r t y t w o v a r i a b l e s
m e a s u r e d b y A C E F L O T , a n d l is t ed o n T a b l e 1, a r e d ef in e d.
T A B L E V a r i a bl e s m e a s u r e d b y A C E F L O T a n d u se d b y t h e e x p er t s y s te m
V 0 0
V 0 1
V 0 2
V 0 3
V 0 4
V 0 5
V 0 6
v 7
V 0 8
V 0 9
V 1 0
V I I
V 1 2
V 1 3
V 1 4
V 1 5
V 1 6
V 1 7
V 1 8
V 1 9
V 2 0
V a r i a b l e s
N u m b e r o f b ub b l e s
Bu b b l e d e n s i t y
A r e a c o v e r e d b y f r o t h
M i n i m u m a r e a
M a x i m u m a r e a
M e a n a r e a
A r e a s t a n d a r d d e v i a t i o n
M i n i m u m p e r i m e t e rM a x i m u m p e ri m e te r
M e a n p e r i m e t e r
Pe r i me t e r s t a n d a r d d e v i a t i o n
M i n i m u m d i a m e t e r
M a x i m u m d ia m e te r
M e a n d i a m e t e r
D i a me t e r s t a n d a r d d e v i a t i o n
M i n i m u m c i r c u l a r i t y
M a x i m u m c i r c u l a r i t y
Me a n c i r c u l a r i t y
C i r c u l a r i t y s t a n d a r d d e v i a t i o n
R e d m i n i m u m v a l u e
R e d m a x i m u m v a lu e
V 2 1 R e d m e a n v a l u e
V 2 2 Re d s t a n d a r d d e v i a t i o n
V 2 3 G r e e n m i n i m u m v a lu e
V 2 4 G r e e n m a x i m u m v a lu e
V 2 5 G r e e n m e a n v a l u e
V 2 6 G r e e n s t a n d a r d d e v i a t i o n
V 2 7 B l u e m i n i m u m v a lu e
V 2 8 B l u e m a x i m u m v a lu eV 2 9 B l u e m e a n v a l u e
V 3 0 B l u e s t a n d a r d d e v i a t i o n
V 3 1 G r a y m i n i m u m v a lu e
V 3 2 G r a y m a x i m u m v a lu e
V 3 3 G r a y m e a n v a l u e
V 3 4 G r a y s t a n d a r d d e v i a t i o n
V 3 5 V e l o c i t y
V 3 6 D i s p l a c e m e n t a n g l e
V37 Stab i l i ty
V 3 8 M e a n d i a m e t e r c h a n g e
V 3 9 A n g l e c h a n g e
V 4 0 A r e a c o v e r e d c h a n g e
V 4 1 Br i g h t n e s s
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496 A. Cipriano et al
T h e n , i n o r d e r t o d e t e r m i n e w h i c h o f th e t w e n t y n i n e c h a r a c t e r i s t i c s s t o r e d i n c a r a c t e r e x p f i l e t h e s t u d i e d
f r o th p r e s e n t s , t h e e x p e r t s y s t e m c o m p a r e s t h e m e a s u r e d v a r i a b l e s t o f o rt y t w o c o n s t a n t s d e f i n e d i n
c o n s t a n t e x p f il e . T h e c h a r a c t e r i s t ic s a n d t h e i r c o r r e s p o n d i n g r u l e s a r e l is t e d o n T a b l e 2 . F o r e x a m p l e , r u l e
C OO s t a t es t h a t i f t h e g r a y m e a n v a l u e V 3 3 i s b e t w e e n K 0 0 = 0 a n d K 0 1 = 2 5 , t h e n t h e f r o t h is b l a c k . I t i s
i m p o r t a n t t o n o t e th a t th e c o n s t a n t s a re l a b e l e d f r o m K 0 0 t o K 4 9 . H o w e v e r , c o n s t a n t s K 0 4 , K 0 5 a n d
K 1 8 - K 2 3 a r e a c t u a l l y n o t b e i n g u s e d . T h e y a r e a v a i l a b l e f o r s p e c i f ic r e q u i r e m e n t s o f e a c h p l a n t a n d c a n
b e d e f i n e d b y t h e u s e r .
T A B L E C h a r a c t e ri s ti c s o f t h e f r o th i d en t if ie d b y A C E F L O T
C h a r a c t e r i s t i c C o r r e s p o n d i n gu l e C h a r a c t e r i s t i c C o r re sp o n di n gule
COO Black froth K00<=V33<=K01 C15 Very fast froth K35<=V35
C01 Yellow froth K06<=V21<=K07 C16 Very unstable froth V37<=K36K08<=V25<=K09
K 10<=V 29<=K 11
C 02 L ig ht-b lu e f r o t h K I 2 < = V 2 1 < = K 1 3 C 17 U n s ta b le r o t h K 3 6 < V 3 7 < = K 3 7
F i n a l l y t h e t h i r t e e n o p e r a t i o n s t a te s t h a t t h e e x p e r t s y s t e m i d e n t i fi e s a re d e f i n e d i n r e g l a e x p f i l e u s i n g t h e
f r o t h c h a r a c t e r i s t ic s m e n t i o n e d a b o v e . T h e s e s t a te s a n d t h e i r c o r r e s p o n d i n g d e s c r i p t i o n s a r e l is t e d o n T a b l e
3 . F o r e x a m p l e , r u l e R 0 0 s t a te s t h a t i f t h e f ro t h i s b l a c k , v e r y fa s t a n d u n s t a b l e , t h e n i t s c o r r e s p o n d i n g
o p e r a t i o n s t a t e i s " l i g h t f r o t h " .
F i g u r e s 9 t o 1 2 p r e s e n t i m a g e s i l l u s t r a ti n g s o m e d e t e c t e d o p e r a t i o n s ta t e s. T h e u p p e r l e f t c o m e r o f F i g u r e
9 p r e s e n t s a s m a l l n u m b e r o f b u b b l e s , w h i c h i n d i c a t e s t h a t t h e o p e r a t i o n s t a te i s " o p e n f r o th " . F i g u r e 1 0
p r e s e n t s a l i g h t - b l u e a n d o p a q u e f r o t h w i t h v e r y s m a l l b u b b l e s , w h i c h c o r r e s p o n d s t o " d e m i n e r a l i z e d f r o th " .
F r o t h o f F i g u r e 1 1 i s y e l l o w , b r i l l i a n t a n d c o n t a i n s v e r y s m a l l b u b b l e s , w h i c h c o r r e s p o n d s t o " p y r i t i c f ro t h " .
F i n a l l y , b u b b l e s o f F i g u r e 1 2 a r e v e r y l a rg e a n d t h e f ro t h is b l a c k , w h i c h c o r r e s p o n d s t o " f ro t h c o n t a m i n a t e d
w i t h o i l " .
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Visual sensor for supervision of f lotat ion cel ls
T A B L E 3 O p e r a t i o n s t a t e s i d e n t i f i e d b y t h e e x p e r t s y s t e m
4 9 7
N ° O p e r a t i o n s t a t e
R Ligh t f ro th
R01 Heavy f ro th
R02 Wate red f ro th
R03 Pyri tic froth
R 4
R 5
R 6
R 0 7
R08
R 9
C h a r a c t e r i s t i c s
Black, very fast and unstable froth: C00 A ND C15 AN D C I7.
Yellow and slow froth, small bubbles: C01 AND C13 A ND C09.
Light-blue, fast a nd very unstable froth, small bubbles:
C 0 2 A N D C 1 4 A N D C 1 6 A N D C 0 9 .
Yellow, brilliant, slow an d very stable froth, ve ry small bubbles:
C01 AND C06 AN D C13 AND C19 AND C08 .
Op en froth: absence ofb ub - Unstable f ro th dischatg¢~t ank and stable s ize: C17 AN D C25 AN D C28.
b les over pa r t o f the su rface
Deminemlized froth Light-blne and opaque froth, very small bubbles: C02 AN D C05 AN D CO8.
Fro th con taminated wi th Very stable f ro th and small bubb les : C l 9 AN DC 09.
sulphurie acid
Froth contaminated with oi l Black froth and very large bubbles: CO0 AN D C l 1.
Machine obstruc t ion iFast and turbulent froth: CI 4 AND C22.
Excess o f l im e :Yellow and very slow froth, small bubbles: C01 AN D C12 AN D C09.
Yellow froth, discharged tan k, stable size and small bubbles:
C 1 A N D C 2 5 AND C28 AN D C09 .
Gray and very bri l liant froth, very large bubbles:
C03 AND C07 AN D CI 1 .
R 1 0 L a c k o f l i m e
RI 1 Lack of col lector
R I 2 N o r m a l froth None o f the above o pera t ion s ta tes .
r •
r . ? /
F i g . 9 O p e n f r o t h .
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498 A Cipr iano e t a l
F i g 1 0 D em i n e r a l i z ed f r o t h
Fig 11 Pyr i t i c f ro th
II
a ~ .
•
e
F i g 1 2 F r o t h co n t am i n a t ed w i t h o i l
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Visual sensor for supervision of flotation cells 499
F I N L R E M R K S
The already described expert system has been installed recently in one of the concentration plants of the
great copper mining in Chile, in which an industrial version of ACEFLOT supervises three flotation rougher
ceils, each one every three minutes. Currently we are working on the experimental validation of the
knowledge base and on the evaluation of the benefits provided by ACEFLOT and the expert system. Once
the knowledge base of the expert system be evaluated, we will investigate its application to scavenger and
cleaner cells.
ACKNOWLEDGMENT
The authors would like to thank the support provided by CODELCO E1 Teniente Division, DICTUC S.A.,
FONTEC, project ACEFLOT: A Real Time Analyzer of the Dynamic Characteristics of Froth for Mineral
Flotation Plants, and FONDEF, project Technological Transfer of ACEFLOT and SISCO.
.
3.
.
R E F E R E N C E S
Zavala, E., P6rez, R., Mufioz, C. Cipriano, A., Heuristic and model predictive control strategies
for a simulated flotation circuit. In Preprints of the 8th IFAC International Symposium on
Automation in Mining Mineral and Metal Processing Sun City, August 29-31, 1995, pp. 59-64.
Pratt, W., Digital image processing Wiley Sons, 1991.
Guarini, M., Cipriano, A., Soto, A. Guesalaga, A., Using image processing techniques to
evaluate the quality of mineral flotation process. In Proceedings of the 6th International Conferenceon Signal Processing Applications and Technology B oston, October 24-25, 1995, pp. 1227-1231.
Cipriano, A., Guarini, M., Soto, A., Brisefio, H. Mery, D., Expert supervision of flotation cells
using digital image processing. In Proceedings of the 20th International Mineral ProcessingCongress Aachen, September 21-26, 1997, pp. 281-292.
Corres ponden ce on papers publ ished in Minerals Engineering is invited, preferably by e-
mail to min. eng@n etmat ters .co.u k, or by Fax to +44-(0) 1326-318352