Chiết Xuất Lithium từ Nước Muối để Sản Xuất Pin
Embed This Widget
Add the script tag and a data attribute to embed this widget.
Embed via iframe for maximum compatibility.
<iframe src="https://chemfyi.com/iframe/entity//" width="420" height="400" frameborder="0" style="border:0;border-radius:10px;max-width:100%" loading="lazy"></iframe>
Paste this URL in WordPress, Medium, or any oEmbed-compatible platform.
https://chemfyi.com/entity//
Add a dynamic SVG badge to your README or docs.
[](https://chemfyi.com/entity//)
Use the native HTML custom element.
Thu hoạch kim loại nhẹ nhất từ đồng muối và nước địa nhiệt
Tổng quan
Lithium is extracted from continental brines (salt flats in Chile, Argentina, Bolivia — the 'Lithium Triangle') by solar evaporation and chemical precipitation, or from hard-rock spodumene ore (Australia) by acid roasting. Lithium demand is surging due to lithium-ion batteries for EVs and energy storage. Brine extraction accounts for about 50% of global production and is lower cost, while spodumene processing is faster but more energy-intensive. Battery-grade lithium carbonate or lithium hydroxide requires >99.5% purity.
Quy trình hóa học
For brine: Lithium-bearing brine (200-2,000 ppm Li) is pumped to evaporation ponds where solar evaporation over 12-18 months concentrates lithium to 6,000+ ppm while NaCl and KCl crystallize out. Magnesium is removed by lime addition, and lithium carbonate is precipitated by adding soda ash (Na₂CO₃) at 90 degrees C. The precipitate is filtered, washed, and dried to battery-grade specification.
MgCl₂ + Ca(OH)₂ → Mg(OH)₂↓ + CaCl₂ (magnesium removal)
Li₂CO₃ + Ca(OH)₂ → 2LiOH + CaCO₃ (causticization to lithium hydroxide)
Nguyên liệu thô
-
Lithium-bearing brine — Salt flats (Atacama, Hombre Muerto, Uyuni) (Lithium source (200-2,000 ppm Li))
-
Soda ash (Na₂CO₃) — Solvay process or trona mining (Lithium precipitation agent)
-
Calcium hydroxide (Ca(OH)₂) — Lime kiln (Magnesium removal agent)
Sản phẩm cuối
-
Battery-grade lithium carbonate (Li₂CO₃) — NMC and LFP cathode production (>99.5% purity, <10 ppm Na, <5 ppm Fe)
-
Battery-grade lithium hydroxide (LiOH·H₂O) — High-nickel NMC cathode production (>56.5% LiOH, required for NMC 811)
Environmental Impact
Brine evaporation consumes vast amounts of water in the world's driest regions, creating tension with local communities and ecosystems. Evaporation ponds cover hundreds of hectares. Spodumene processing requires energy-intensive acid roasting at 250 degrees C. Direct lithium extraction (DLE) technologies promise 90% less water use and land footprint.
Lưu ý an toàn
- ⚠ Lithium compounds are irritating to skin and eyes
- ⚠ Brine contains boron, arsenic, and other toxic elements
- ⚠ Sulfuric acid used in spodumene processing is corrosive
- ⚠ Lime and soda ash dust cause respiratory irritation
Đổi mới gần đây
Direct lithium extraction (DLE) using ion-exchange, adsorption, or membrane technologies can extract lithium from dilute brines in hours instead of months, with much lower water consumption.
Lithium extraction from geothermal brines provides both clean energy and lithium.
Recycling of end-of-life EV batteries is expected to provide 10-20% of lithium supply by 2035.
Quy mô sản xuất
130000
tấn/năm
$25 billion
giá trị thị trường
Xem thêm Energy & Battery Technology
Điện Hóa Học Pin Nhiên Liệu Hydro (PEMFC)
Commercial Production
Điện Phân Nước PEM để Sản Xuất Hydro Xanh
Commercial Production
Làm Giàu Nhiên Liệu Urani bằng Ly Tâm Khí
Global Industrial Scale
Sản Xuất Biodiesel bằng Este Chuyển Hóa
Global Industrial Scale
Sản Xuất Hydro bằng Reforming Hơi Nước Metan
Global Industrial Scale
Sản Xuất Khí Sinh Học bằng Phân Hủy Kỵ Khí
Global Industrial Scale
Sản Xuất Tế Bào Năng Lượng Mặt Trời Silicon Quang Điện
Global Industrial Scale