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The Blast Furnace (BF) molten slag modification furnace, categorized as submerged-arc modification furnace, directly receives hot liquid blast furnace slag at over 1,350°C. Modifying agents with silica-alumina composition are fed online to adjust slag basicity, chemical composition, temperature and viscosity of molten slag. The homogenized melt is further processed into rock wool, slag wool, glass-ceramic or recycled aggregate, realizing waste recycling and full utilization of high-temperature residual heat from molten blast furnace slag. Two mainstream types are available: three-phase AC submerged-arc furnace and DC modification furnace, structurally divided into integrated single-chamber type and dual-chamber type (charging compartment + homogenizing compartment).
Furnace Shell: Welded cylindrical or square steel structure equipped with external water-cooling coil or spray cooling. Outer diameter ranges Φ3,600~Φ5,200 mm with overall height 2,200~3,200 mm.
Refractory Lining: Multi-layer masonry structure: light high-alumina castable for thermal insulation layer, corundum/chrome-corundum ramming mix for working layer against corrosion from blast furnace slag. Furnace chamber is partitioned into feed modification zone and molten pool homogenization zone by partition wall with liquid through-hole and water-cooled sliding gate.
Material Inlet & Outlet
Hot Slag Inlet: Water-sealed chute on furnace top/sidewall connecting BF slag runner for gravity feeding of liquid hot slag;
Modifier Feeding Port: Sealed feed opening on furnace top coupled with dust containment;
Main Tapping Hole (water-cooled copper fitting): Lower sidewall for continuous controlled melt feeding to fiber forming line;
Iron Discharge Outlet: Bottom drain for periodic removal of precipitated iron granules and iron-bearing residues.
2.2 Electrode Power Supply System (Core Heating Unit)
Electrodes: Φ350~Φ500 mm graphite electrodes (3pcs for 3-phase AC, 2pcs for DC type) with servo hydraulic lifting control;
Special furnace transformer: On-load tap-changing transformer with electrically regulated grading voltage, power rated per furnace capacity;
Short-net copper busbar, water-cooled electrode clamps and full set of hydraulic lifting cylinders.
2.3 Automatic Modifier Batching System
Consists of sealed storage silos, variable-frequency belt/spiral loss-in-weight feeders and negative-pressure dust-proof enclosure. Modifiers (quartz sand, fly ash, bauxite, waste refractory) are dosed precisely with blending ratio: hot slag 85~95% : modifier 5~15% by mass.
2.4 Molten Bath Homogenizing System
Arc self-stirring: Molten pool agitated by electric arc disturbance;
Bottom nitrogen bubbling system: Pre-buried permeable bricks inside furnace bottom + high-pressure nitrogen pipeline, nitrogen pressure 0.2~0.4 MPa for forced homogenization of slag and additives;
Optional carbon mechanical stirring impeller for large-capacity furnaces.
2.5 Auxiliary Supporting Systems
Circulating water cooling system, top baghouse dust collection system, PLC full-automatic control system for temperature, liquid level and power, water-cooled tapping chute, infrared + thermocouple dual on-line liquid level monitoring.
3. Standard Technical Parameters by Production Capacity
Item
Small Unit (1.5t/h)
Medium Unit (5~8t/h, mainstream for rock wool line)
Large Unit (12~15t/h)
Effective Furnace Volume
1.8m³
5.5~7.5m³
12m³
Rated Transformer Capacity
1250kVA
3150~5000kVA
8000kVA
Graphite Electrode Dia.
Φ350mm
Φ450mm
Φ500mm
Inner Furnace Diameter
Φ2800mm
Φ3800~4200mm
Φ4800~5200mm
Molten Pool Depth
1200mm
1600~1800mm
2000mm
Outer Furnace Shell Dia.
Φ3600mm
Φ4400mm
Φ5300mm
Power Consumption
420~500kWh/t slag
330~400kWh/t slag
300~360kWh/t slag
4. Core Process Control Parameters
4.1 Temperature Parameters
Incoming BF hot slag temp.: 1,320~1,380°C;
Target tapping temp. after modification: 1,360~1,420°C (optimal 1,380±20°C for rock wool production);
Furnace holding temperature range: 1,350~1,450°C; electrodes supply supplementary heat to offset temperature drop caused by cold modifiers.
4.2 Chemical Composition & Acidity Coefficient (Mk)
Raw BF slag basicity (CaO/SiO₂): 0.9~1.0;
Target acidity coefficient Mk=(SiO₂+Al₂O₃)/(CaO+MgO): 1.25~1.55 (1.4~1.5 preferred for mineral wool);
Modifier chemical index: SiO₂=45%~75%, Al₂O₃=8%~35%, feed particle size <0.1 mm.
4.3 Physical Properties of Molten Slag
Tapping viscosity: 1.2~4.0 Pa·s (optimal 1.5~2.5 Pa·s for fiberization);
Allowable liquid level fluctuation: ≤±80 mm to guarantee stable continuous tapping;
Nitrogen bubbling pressure: 0.25~0.35 MPa, homogenization duration ≥35 min for uniform composition.
4.4 Material Proportion Index
Modifier adding ratio: 5%~15% by mass, max blending rate up to 30%;
Raw slag iron content: <3%, accumulated bottom iron discharged per shift intermittently.
5. Equipment Operational Advantages
Waste Heat Recovery: Rely on inherent high sensible heat above 1300°C of BF slag; electrodes only supply supplementary power, saving over 50% power vs cold-feed cupola furnace;
Continuous Feeding: Direct hot slag feeding without ladle transfer, minimizing heat loss and raising incoming slag temperature by around 30°C compared with tank transportation process;
Full Automation: PLC interlocked control for batching, power regulation, temperature and tapping flow, one-click formula modification available;
Eco-friendly Design: Fully enclosed feeding + top dust collection, zero unorganized flue gas emission, 100% solid waste resource utilization.
6. Selection Suggestions
On-line tapping matched with blast furnace: adopt continuous single-chamber modification furnace; intermittent ladle-delivered hot slag: dual-chamber furnace with dedicated molten storage tank;
High-grade rock wool production: DC modification furnace for superior uniform bath temperature and stable chemical composition; ordinary slag wool: 3-phase AC furnace for lower investment cost.
Shaanxi Chengda Industrial Furnace Manufacturing Co., Ltd. is a high-tech enterprise specialized in the research, design, and manufacturing of various industrial furnaces, including AC and DC steelmaking electric arc furnaces, ladle refining furnaces, ferroalloy ore thermal furnaces, ferroall... Shaanxi Chengda Industrial Furnace Manufacturing Co., Ltd. is a high-tech enterprise specialized in the research, design, and manufacturing of various industrial furnaces, including AC and DC steelmaking electric arc furnaces, ladle refining furnaces, ferroalloy ore thermal furnaces, ferroall...
