Post on 12-Nov-2014
description
CVS Makina. Company Presentation
IntroductionIntroduction
• CVS provides turn-key plants and
equipment solutions for STEEL
SHOPS and ROLLING MILLS for
long products.
Company highlightsCompany highlights
• Location: Gebze (Istanbul), Turkey
• Employees: 700 people (>200 engineers)
• Turnover: € 75,000,000.00 (year 2008)
• Manufacturing area: 40.000 sqm
covered
New developments in steelNew developments in steel
CVS has developed a new type of
project, i.e.:
ØThe super-flexible EAF base
Minimill concept
TheThe SSuperuper--FFlexiblelexible EAFEAF basebaseMMinimill Conceptinimill Concept
• CVS has supplied the same category ofE.A.F. to three steel-plants
• All EAF’s were designed as rated 130 tcapacity equipped with the latesttechnologies in terms of metallurgical,mechanical, electrical and automation
Main Design ConceptMain Design Concept
• Nr. of scrap bucket charge : 2
• Tapping weight : 130 t
• TTT : 40 min.
• Tapping temp. : 1600-1620°C
• Hot heel amount : 20-40 t
TapTap--ttoo--TTapap TimeTime CycleCycle
• Charging : 3 min.• Tapping : 3 min.• Preparation : 4 min.
(EBT filling, gunning, etc.)Power - off Time : 10 min.Power - on Time : 30 min.TTT : 40 min.
Plant layout conceptsPlant layout concepts
TheThe plantplant layoutlayout is studied tois studied to obtain theobtain thebelowbelow results :results :
•Adequate size of area occupied
•Adequate number of personel required
•Optimum productivity and limited cost
•Future extension possibility
EE..AA..FF. main features. main features
• The main core of the steelmaking is EAF, thecomplexity is coming from various types andblends of scraps and scrap substitutes such asDRI and HBI.
• Additional chemical energy based on carbon,fuel and oxygen is used as substitute of electricpower.
• Due to the dynamic process input energy shouldbe controlled carefully.
• Slag stability
• Control the slag foaming by controlling
slag composition
• High impedance application
• SIM-ARC electrode regulation design
Slag FoamingSlag Foaming
Other Features of E.A.F.Other Features of E.A.F.::
• Hot heel practice
• Control of liquid steel
• Chemical energy input
• Fast scrap charging
• New roof lifting mechanism design
• Scrap yard flexibility
New EAF Roof Lifting MechanismNew EAF Roof Lifting Mechanism
CVSCVS-- E.A.FE.A.F.. ProjectsProjects
CVSCVS--BurnerBurner DesignDesign ConceptConcept
►The location and the direction of the burners are determined toreduce the cold spots effect generated by the three-phase arc ofthe furnace, thus obtaining an even and faster melting.
CVSCVS-- BurnerBurner PositioningPositioning InsideInside FurnaceFurnace
► The lance manipulator for the Electric Arc Furnace is primarily designed forsafe oxygen injection. Same manipulator is used for carbon injection aswell.
► The Carbon injection in the bath have demonstrated of outmost importanceto work with proper foaming of the slag and to obtain recarburisation ofliquid steel bath if required to control bath composition.
LADLE FURNACE (LF)LADLE FURNACE (LF)
• Optimum size• Essential part of the
secondary metallurgytreatment
LF AdvantagesLF Advantages
• Saving of ferroalloy• Saving of energy• Increase productivity• Decreasing refining time of EAF• Decreasing tapping temperature at EAF• Precise temperature control• Improved of inclusions, cleanliness of the
steel• Possibilities of wrong analysis limited
LFLF DesignDesign AdvantagesAdvantages
• Water-cooled ladle roofequipped with indirect fumecollecting hood to reducesteel oxidation
• Electro-hydraulic electroderegulation
• Electrode arms with reducedelectrode pitch diameter
• Roof lifting mechanism viahydraulic cylinder
PERFORMANCES Plant A Plant B Plant C
Plant Unit: E.A.F.Tapping weight (t) start-up 130/present 140 start-up100/present 135t start-up 130/present150
TTT (min.) 50-56 40-48 38-42 48-55 42-47 55-60
Productivity (t/h) 170 185 150 167 150-185
Electric consp.( kWh/t) 380-410 340-380 380-410 370-400 360-390
Electrode consp. (kg/t) 1.5-1.6 1.20-1.30 1.5-1.6 1.35-1.50 1.25-1.35
O2 consp. (Nm³ /t) 43 42 38 40 30-35
Carbon consp.(kg/t) 15 15-20 20 22 18-22
Refractory (kg/t) 4.20 3.60 3.67 3.35
Shell life (# of heat) 480 500 450 750
Roof delta life (heat) 520 560 450 700
Lime comp. (kg/t) 45-50 30-35 45 42 45-50
PRODUCTIONRECORD:
heat/day 32 33 37 29 25
t/day 4100 4440 3597 4013 3750
PERFORMANCES Plant A Plant B Plant C
Plant unit: L.F.
Electric consumption(kwh/t)
26 - 33 30 - 33 30 – 35
Electrode consumption(kg/t)
0.26 - 0.31 0.31 - 0.32 0.35 - 0.40
Lime consumption(kg/t)
11 – 14 6 - 8 8 - 10
Ladle refractoryconsumption (kg/t)
2.5 - 2.6 2.1 - 2.3
Ladle life (heat) 90 - 92 80 - 95
Company Plant A Plant B Plant C
Plant unit: E.A.F.Furnace Type AC-EBT/Turret gantry AC-EBT/Turret gantry AC-EBT/Buggy gantry
Upper shell (Ømm) 7,200 7,200 7,200
Lower shell (Ømm) 7,400 7,400 7,400
Upper shell height (mm) 3,000 3,000 3,000
Serios reactor(MVAr) ON-LOAD 36 ON-LOAD 46 ON-LOAD
Transformer (MVA) 120+10% 135 130+20%
Max. Sec.Volt (V) 1,200 1305
Inner volume (m³) ≥155 ≥155 ≥155
Scrap bucket vol (m³) 146 130 140
Electrode (Ømm) 24” (610) 26” (660) 24” (610)
Max. Sec. Current (kA) 70 70 75
PCD (Ømm) 1300 1300 1300
Electrod arm Cu-cladded Cu-cladded Cu-cladded
Oxy/fuel burner+sup.Jet 5+1 EBT 5+1 EBT 4+1 EBT
SVC capacity (MVAr) 170 175 200
Company Plant A Plant B Plant C
Plant unit: L.F.Transformer (MVA) 20+20% 18+20% 20+20%
Max. SecondaryVoltage (V)
386 330 382
Max. SecondaryCurrent (kA)
37 40 40
Electrode (Ø, mm) 406 406 450
PCD (Ø, mm) 750 700 750
Electrode arm type Cu-cladded Bus-tube Cu-cladded
Heating rate (°C/min) Max. 5°C/min 4.5°C/min max. 5 °C/min
Company Plant A Plant B Plant CPlant unit: Fume Treatment Plant - FTP
Dedusting Plant: (Existing) (Existing, CVSSupply)
(New CVSSupply)
Emission type EAF primary & secondary + LF/MHS emissions
Filter Type Pulse-jet off-line Pulse-jet off-line Pulse-jet off-line
Filter surface (m²) 22.000 30.385 22.300
Main fans (m³/h) 6 x 400.000 6 x 500.000 4 x 600.000
Elect. Motors (KW) 6 x 800 6 x 1.400Sucking capacity
(m³/h) 2.400.000 3.000.000 2.400.000
Outlet dust content(mg/Nm³) ≤ 20 ≤ 20 ≤ 20
Company Plant A Plant B Plant CCCM Existing Existing NEW (CVS supply)
Machine Type Curved mould Curved mould Curved mould 1 m.
Radius (m) 6 5 9/17
Number of strands 7 6 6
Cast section (mm) Square 100 - 150 Square 100 - 140 Square 130 – 200
Tundish capacity (t) 30 max. 28 max. 35 max.
Mould level control magnetic camera Co-60
M-EMS yes no Yes
Oscillating unit mechanical mechanical Hydraulic
Dummy bar rigid flexible Rigid
W/S 2 drives/std 2 drives/std 3 drives/std
Billet cutting oxy-gas torch Hydraulic shear oxy-gas torch
Discharge system Liftable transfer Cross transfer Cross transfer
Billet transfer W.B. Cooling bed W.B. Cooling bed W.B. Cooling bed
Casting speed sp.140 mm 3.2 max sp.150 mm 2.8 max sp.150 mm 3.1 av.sp.130 mm 4.1 av.
ConclusionConclusionss
• In the last few years, CVS has supplied nr. 3 same sizeEAF’s.
• One of those projects was also a complete “turn-key”green-field project and it has been completed in 16months.
• The three EAF’s are using in the range of 90t to 150tliquid steel without modifications. Since manyrestrictions at their beginning stage of start-up. 160t isexpected in the near future either with high bulkdensity scrap or with 3 charges.
• These superflexible approach to steel making practiseis giving significant advantages to investers in termsof their present and future’s plans.
Thank You For Your Patiencewww.cvs.com.tr