UMG-Si Production
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About 10 kWhr/kg, and 10 kg/hr at 100kW process scale. [1]. Heated by induction, with graphite crucible as susceptor (starts the melt)
Melt
| Process Step | Description | Typical Temp (°C) | Energy (kWh/kg Si) | Notes (100 kW scale effects) |
|---|---|---|---|---|
| Feedstock Selection & Blending | Crushing, sorting, magnetic separation, blending of MG-Si | Ambient | 0.05–0.15 | Mostly mechanical energy; minor relative contribution |
| Primary Melting & Slag Refining | Melt MG-Si (~1414°C), add CaO/SiO2 slag, impurity oxidation & partitioning | 1450–1550 | 3.5–6.0 | Dominant energy load; small furnaces have high radiant/convective losses |
| Gas Refining / Vacuum Refining | Removal of B, P via O2, H2O, H2, or vacuum evaporation | 1500–1600 | 1.5–3.0 | Inefficient gas utilization at small scale; vacuum pumps add parasitic load |
| Directional Solidification | Controlled solidification to segregate impurities (top cut removal) | 1400 → 1200 | 2.0–4.0 | Long cycle times → major heat loss; poor insulation penalizes small systems |
| Crushing, Classification, QC | Break ingot, remove impurity-rich zones, size grading, analysis | Ambient | 0.2–0.5 | Includes mechanical comminution and some analytical overhead |
| Optional Repeat Refining Passes | Re-melt and re-solidify for higher purity | 1450–1550 | 2.0–5.0 | Highly variable; depends on target purity (solar vs near-electronic grade) |
| Total (single pass, no repeats) | — | — | 7.25–13.65 | Typical practical range for small-scale UMG-Si |
| Total (with 1 repeat pass) | — | — | 10–18+ | Required for higher purity (approaching SoG-Si) |
Melt + Vacuum
| Subsystem | Description | Low-Cost Build ($) | Practical Build ($) | High-End Build ($) | Notes |
|---|---|---|---|---|---|
| Vacuum Chamber & Lid | Stainless steel chamber, flanges, seals (Viton/metal), viewport, structural frame | 8,000–15,000 | 15,000–30,000 | 30,000–60,000 | Must handle radiant heat from ~1500°C melt; water-cooled walls recommended |
| Feedthroughs & Ports | Electrical (coil), thermocouple, pressure gauge ports, gas inlet, vacuum port | 1,500–3,000 | 3,000–8,000 | 8,000–15,000 | Includes ceramic/metal vacuum feedthroughs and high-temp insulation interfaces |
| Roughing Pump | Rotary vane or dry scroll pump for initial pumpdown (atm → ~1e-2 bar) | 2,000–4,000 | 4,000–8,000 | 8,000–15,000 | Oil pumps cheaper but require filtration; dry pumps cleaner but more expensive |
| Roots Booster Pump | Increases pumping speed in mid-vacuum range | 5,000–8,000 | 8,000–15,000 | 15,000–25,000 | Critical for reducing cycle time at batch scale |
| High Vacuum Pump (Diffusion) | Achieves ~1e-3–1e-5 mbar for impurity evaporation | 6,000–10,000 | 10,000–20,000 | 20,000–40,000 | Lowest cost option; requires cooling and oil management |
| OR High Vacuum Pump (Turbo) | Cleaner alternative to diffusion pump | 10,000–15,000 | 15,000–30,000 | 30,000–60,000 | Preferred for contamination-sensitive silicon processing |
| Cold Trap / Baffles | Condenses SiO, P, and other vapors before pump | 2,000–5,000 | 5,000–10,000 | 10,000–20,000 | Prevents pump contamination; essential for longevity |
| Vacuum Gauges & Instrumentation | Pirani + Penning/cold cathode gauges, controllers | 1,500–3,000 | 3,000–8,000 | 8,000–15,000 | Dual-range measurement required for process control |
| Valves & Plumbing | Gate valves, foreline valves, bellows, piping | 2,000–5,000 | 5,000–10,000 | 10,000–20,000 | Must be vacuum-rated; include isolation and safety interlocks |
| Cooling System Upgrade | Water cooling for chamber, pumps, baffles | 3,000–7,000 | 7,000–15,000 | 15,000–30,000 | Often underestimated; diffusion pumps especially require stable cooling |
| Controls & Integration | PLC, interlocks, sequencing (pumpdown → heat → refine → vent) | 2,000–5,000 | 5,000–15,000 | 15,000–40,000 | Prevents operator error and protects pumps/furnace |
| Total (Diffusion Pump System) | — | 25,000–45,000 | 45,000–90,000 | 80,000–150,000 | Most cost-effective configuration |
| Total (Turbo Pump System) | — | 30,000–55,000 | 60,000–120,000 | 100,000–200,000 | Cleaner operation, higher capital cost |