kuliahs1 sttnas-2
TRANSCRIPT
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Definisi/batasan
• Porfiri (tembaga) adalah endapan mineralmengandung sebaran tembaga, yang terdapat
pada batuan beku plutonik (monzonit kuarsa,
granodiorit dan tonalit).• Endapan epitermal terbentuk pada kedalaman
dangkal (~1 km) dan dalam kisaran suhu 50 –
250°
C.• “epithermal” (lebih dangkal/dingin)
• “porphyry” (endapan lebih dalam/panas)
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Mengapa endapan porfiri (dan
epithermal) menarik?• Harga emas & tembaga relatif tinggi
• Perkembangan teknik pemisahan logam
• Banyak endapan epitermal dan porfiri ditemukan padadaerah tektonik plate-margin
• Perkembangan dalam konsep-konsep geologi untukmemprediksi daerah target eksplorasi
• Perkembangan teknik geofisika, misalnya magnetik, IP,dll.
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Porfiri
• Porfiri tembaga
• Porfiri molibden
• Porfiri emas
• Porfiri timah
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The gold endowment of Indonesia and the Philippines, as defined by combinedpast production and existing resources, exceeds 8300 metric tonnes (t).
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The majority of gold in Indonesia and the Philippines occurs in porphyry,
epithermal and skarn deposits. The gold reserves at Grasberg constitute~23% of the 8300 t Au total.
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Sistem hidrotermal
• Sumber panas
– Tubuh intrusi (dike atau pluton)
• Batuan pembawa (host rock)
– Volkanik atau sedimen/metamorf• Jenis fluida
– Air meteorik dan air magmatik
• Gradien temperatur – Tergantung kedalaman
• Ukuran
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Tipe alterasi
• Porfiri tembaga
– Propilitik
– Argilik
– Filik/serisitisasi
– Potasik
• Porfiri timah
– Propilitik
– Argilik
– Filik/serisitisasi
– TurmalinisasiOksidasi Reduksi
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Mineralogi alterasi• Profilitik
– Qtz-K-feld stabil, plag-mafic min teralterasim'jadi ab plag, chl, ep, carb, mont, trem, act
• Argilik
– Qtz, kao, chl, sedikit mont
• Filik
– Qtz, ser yang disertai dengan py• Potasik
– Qtz, K-feld, bio, interm plag (ol-and) dananh
T i n g
k a
t h i d r o
l i s i s
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Mineralisasi
• Porfiri tembaga
kalkopirit, pirit,kalkosit, bornit,molibdenit,
galena, magnetit,emas, tembaga
• Porfiri timah
arsenopirit, frankeit,
pirotit, sfalerit, kal-kopirit, galena,
stanit, fluorit
tetrahedrit-tenantit, seelit
Zoning p ada m ineral i sas i h ip og en sang at m enar ikun tuk d ipakai pada permo delan ku ant i tat i f end apanmineral .
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CLASSIC MODEL OF PORPHYRY DEPOSITS
PERIPHERALCcp-Gn-Sp-Au-Ag PERIPHERAL
Ccp-Gn-Sp-Au-Ag
LOW PYRITESHELLPy ~2%
Mag>Py
P Y R I T E S H E L LP y ~ 10%Cc p 0 .1-3%Mo r a r e
Mag>Py& Ccp
ORE SHELLPy 1%Ccp 1-3%Mo 0.03%
LOW GRADECORElow totalCcp-Py-Mo
?
?
SAN MANUEL FAULT
KALAMAZOOSEGMENT
SAN MANUEL
SEGMENTPropylitic(Chl-Ep-Carb)
Adul-Ab
ArgillicQtz-Kln-Chl
PhyllicQtz-Ser-Py
PotassicQtz-Kfs-Bt-+Ser+Anh
Qtz-Ser -Chl-Kfs
Chl-Ser-Ep-Mag
?
?
?
??
A
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Quartz-Monzonitemodel
Three major models:
1. Quartz-monzonite
2. Diorite
3. Breccia
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Sistem hidrotermal
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Pasific Rim Au-Cu mineralisation models
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Southeast Pasific rim Au-Cu mineralisation
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Three major episodes of gold deposit formation are recognized in SoutheastAsia, including Early Miocene, Middle to Late Miocene and Plio-Pliestocene.These epochs may reflect plate tectonic collisions and reorganization, with theyoungest episode related to collisions in Taiwan (5 Ma) and the Banda arc (4 to
3 Ma). Uplift and erosion of pre-Pliocene deposits may also contribute to therelative abundance of young deposits.
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The grade-tonnage plot for Southeast Asian gold deposits shows two major clusters ofdata: 1) porphyry deposits, which are low-grade and high-tonnage and 2) low-andintermediate-sulfidation deposits, which are medium- to high-grade and low- to medium-tonnage. Both deposit styles include deposits that contain > 100 t Au.
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The copper deposits indicate a similar relationship between coppercontent and time of deposit formation to that shown by gold deposits,which reflects the close spatial and temporal relationships between copperand gold in Southeast Asia. Note the nearly logarithmic increase in coppercontent with time.
O l d A ( A)
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Ocean-ocean Island Arc (IA)Ocean-continent Continental Arc or Active Continental Margin
(ACM)
Principal subduction zones associated with orogenic volcanism and plutonism. Triangles are on the overriding plate. PBS =Papuan-Bismarck-Solomon-New Hebrides arc. After Wilson (1989) Igneous Petrogenesis, Allen Unwin/Kluwer.
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Continental margin
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Structure of an Island Arc
Schematic cross section through a typical island arc after Gill (1981), Orogenic Andesites and PlateTectonics. Springer-Verlag. HFU= heat flow unit (4.2 x 10 -6 joules/cm 2/sec)
Island Arc
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Pemadatan magma hydrousGranodiorit porfirhipotetik
•D1 = dyke
•S1 menunjukkan batas
saturasi H 2O
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Pemadatan magma hydrous
Granodiorit porfir hipotetis
•Tahap kedua pendinginanlelehan jenuh H 2O, yang
disebut sebagai “second boiling” (resurgent boiling)
•BP 2 dan D 2 adalah pipa breksi dan dyke
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Pemadatan magma hydrous
Granodiorit porfirhipotetis
•Second boiling.•BP 2 dan D 2 adalah pipa
breksi dan dyke.
•Aktivitas magmatik pada pembentuk-an sistem porfiri Cu-Mo.
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Porphyry deposits in Indonesia
INDONESIA
Eurasian
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GEOLOGY OFTHE BATU HIJAU
DEPOSIT
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ALTERATION OFTHE BATU HIJAU DEPOSIT
Early : Bt zone (potassic)
Act zone (inner propylitic)Chl-Ep zone (outer propylitic)
Transitional : Chl-Ser zone (interm. argillic)Late :
Prl-And zone (advanced argillic)
Ser-Pg zone (argillic)Very late :
Ill-Ser zone with Qtz+basemetal veins/veinlets
DISTALCHLOR ITE-EPIDOTECHLOR ITE-SER ICITE
TEXTUR E DESTR OYED( Undif f )CHLOR ITE-SER ICITE CHLOR ITE- EPIDOTE
CE NTR ALBIOTITE
345 ElvPR OXIMALACTI NOLITE
ILLITICPR OXIMALACTI NOLITE
DISTALCHLOR ITE-EPIDOTECHLOR ITE-SER ICITE
TEXTUR E DESTR OYED( Undif f )CHLOR ITE-SER ICITE CHLOR ITE- EPIDOTE
CE NTR ALBIOTITE
345 ElvPR OXIMALACTI NOLITE
ILLITICPR OXIMALACTI NOLITE
Chl-Ep
Act
Chl-Ser
Bt
Prl-And
Und iff. arg illic
Ser-Pg
Un d if f. a r g illic
4 8 5 0 0 0 E
4 8 5 6 0 0 E
4 8 6 2 0 0 E
9010200N
9009600N
9009000N
900840 0N
4 8 5
0 0 0 E
4 8 5 6 0 0 E
4 8 6 2 0 0 E
9010200N
9009600N
9009000N
9008400N
Chl-Ep
Act
Chl-Ser
0 100 200 m
N
Prl-And
S e r - P g
Ill-Ser
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Porphyry vein-veinlet system
a) Collahuasi/Chileb) Grasberg/Irian Jaya
a
b
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Porphyry vein-veinlet system
A
2 cm
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Cu-Au-hosting potassic alteration zone
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3. Tembaga (Cu)
• Ditemukan dalam wujud: – Native copper – Sulfida tembaga ( Cu-bearing sulphides )
Native copper :• Native copper primer berasosiasi dengan lava basaltik, dari proses reaksi larutan hidrotermal denganmineral oksida besi.
• Native copper sekunder berasosiasi dengan zonateroksida pada endapan tembaga, umumnya
berasosiasi dengan kuprit (Cu 2O), malakhit(Cu 2(OH) 2CO 3) dan azurit (Cu 3(OH) 2(CO 3)2).
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Endapan magmatik-hidrotermal tembaga sebagai penghasilbijih tembaga utama di dunia:
1. Endapan tembaga porfir (70.6 %), e.g. Chuciacamata, El-Tiniente(Chiele), Bingham (USA), Batu Hijau & Grasberg (Indonesia). 2. Sediment-hosted stratiform copper deposits (14.7 %), e.g. White
River (USA), Kupfershiefer (Eropa Timur).3. Endapan VMS ( Volcanigenic Massive Sulphide ) (6.4 %), e.g. Flin
Flon (Kanada), Mt. Isa (Australia), Kuroko (Jepang).4. Endapan tembaga skarn (0.5 %), e.g. Tintaya (Peru), Erstberg(Indonesia)
5. Endapan tembaga di karbonatit (1.4 %), e.g. Palabora (AfrikaSelatan)
6. Endapan tipe Olympic Dam ( iron-oxides-copper deposits ) (0.9 %),e.g. Olympic Dam (Australia), Moghrain (Mauritania).
7. Endapan tembaga magmatik, e.g. Sudbury (Kanada), Kambalda(Australia), Norisk (Rusia).
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GEOCHEMICAL DISCRIMINATION
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GEOCHEMICAL DISCRIMINATION:Alteration zonesMajor elements (R1-R2 diagram)
0
500
1000
1500
2000
0 1000 2000 3000 4000 5000 6000 7000
R (4Si-11[Na+K]-2[Fe+Ti])1
Hbl
Qtz
Chl
Ser Bt
Pl (core)
Prl
Pg
Least alteredBt zone
Act-(Chl-Ep) zoneChl-Ser zonePrl-And zoneSer-Pg zoneMinerals
Least-altered
Proximal Act andDistal Chl-Ep zones
Central Bt and
transitionalChl-Ser zones
Late Prl-And andSer-Pg zones
(after De La Roche et al., 1980)
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Fluida bijih (ore fluid)• Inklusi fluida
– Kisaran: 250-750 °C dengan salinitas 15-70wt.% pada sistem orthomagmatik, dan <15wt.% pada sistem konvektif
– Kedalaman: <4 km (Cerro Verde, 1-2 km)
– Jenis air: air magmatik dan meteorik
• Sumber metal
– Produk sampingan dari kristalisasi magmatik(incompatible elements).
– Metal dan sulfur berasal dari batuan samping
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Phase separation
partitioning
Bulk salinity rangeof magmatic fluid
phaseseparation
510°
8 0 0 °
6 0 0 °
5 5
0 °
5 0 0 °
5 1 0 °
4 0 0 °c r i t i c a l c u r v e
NaCl +
vapour
N a C l + v a p
o u r +
l i q u i d
LIQUIDVAPOUR
0.1 1.0 10.0 500
0.5
1
3
2
1
0
Salinity (NaCl wt.% eq.)
L i t h o s
t a t i c d e p
t h ( k m
)
e x s o l v e d f l u i d f r o m
m a g m a
CAUSATIVE TONALITE INTRUSIONS
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CAUSATIVE TONALITE INTRUSIONS:Thermobarometry
200 400 600 800 10000
2
4
0.5
6
8
1.0
1.5
Temperature (°C)
1
2
3
4
5
6
NaCl +VAPOUR
0 .1
0. 5
2 . 0
5 . 0
7 0
8 0
6 0
5 0 4 0
3 0
2 0
1 0
LIQUID
LIQUID+
VAPOUR
B r i
t t l e
P l a s t i c
Cri t ica l
c u r v e
5 . 0
Exsolvedmagmatic
fluid
Phase separation600 bars; 2.2 km
Early centralBt zone
Early distalChl-Ep zone
LateSer-Pgzone
(after Hedenquist, 1998)
ORE FLUID EVOLUTION: Microthermometry
T = 760°C; P = 1.5 kbarsPaleodepth = 5.5 km (lower part)
500400 600 700 800 900
-25
-20
-15
-10
T (°C)
o g
f
2
F M Q
N N O
H E M M A
G
S O 2
H S 2
PY PO+S
P Y
M AG + S
f O 2 pattern
T = 760-540°Clog f O2 = -12 to -20
Bt : 510°C, 400 barsChl-Ep: 250°C, 125 barsSer-Pg: 225°C, 100 bars
THE BATU HIJAU GENETIC MODEL
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THE BATU HIJAU GENETIC MODEL
2 1 1 2 km
Equigranular quartz diorite
P p re - m i
n e t o p o g r a h y
Andesiticvolcaniclasitic
rocks
MAGMA
P a l e o s u r fa c e
1
0
2
3
4
5
6
5.5 km
Young tonalite(Cu-Au depleted)
Intermediate tonalite(high Cu-Au)
Chl-EpAct
Chl-Ser
ActChl-Ep
Bt (potassic)
Highest grade(~0.5% Cu)
Mediumgrade
Lowgrade
Compositional changeCompositional change Physicochemical changePhysicochemical change
Argillic
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Layout of Batu Hijau project area
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The Batu Hijau open pit
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Terima kasih...
Stolberg Germany 2005