● 正极材料
协鑫独特GCL-PHY物理法合成磷酸铁锂材料,由传统的九步合成缩短至四步合成,整个生产流程非化工、工艺简化、成本低、安全环保。
GCL-PHY法合成工艺年产36万吨正极材料已投产,年碳减排207-330吨,同比能耗降低42%;彻底改变原材料,成本较传统磷酸铁锂工艺大幅降低46%。
● C3型高能效磷酸铁锂
工艺特点:中等压实
电性能特点:1C全电145mAh/g
适用市场:储能基站
● C5型长循环磷酸铁锂
工艺特点:中高等压实
电性能特点:中压长寿命,循环8000次
适用市场:常规储能
● C7型高压实磷酸铁锂
工艺特点:高压实
电性能特点:极片使用压密2.6-2.7g/cc
适用市场:动力汽车
● C10型高功率磷酸铁锂
工艺特点:高功率
电性能特点:150mAh/g(全电0.33C)
适用市场:动力汽车
● Anode Materials
GCL's unique GCL-PHY physical method of synthesising lithium iron phosphate materials is shortened from the traditional nine-step synthesis to four-step synthesis, and the whole production process is non-chemical, simplified, low cost, safe and environmentally friendly.
GCL-PHY method synthesis process has an annual production capacity of 360,000 tonnes of anode materials, and has been put into operation with an annual carbon emission reduction of 207-330 tonnes, and a year-on-year reduction of energy consumption by 42%; complete change of raw materials, and a significant reduction of 46% in cost compared with the traditional lithium iron phosphate process.
● C3 type high efficiency lithium iron phosphate
Process characteristics: medium compaction;
Electrical performance characteristics: 1C fully charged 145mAh/g;
Applicable market: energy storage base station.
● C5 long cycle lithium iron phosphate
Process Characteristics: Medium to high compaction;
Electrical Characteristics: Medium compaction, long life, 8000 cycles;
Applicable Markets: Conventional Energy Storage .
● C7 type high pressure solid lithium iron phosphate
Process Characteristics: High-pressure solid;
Electrical performance characteristics: electrode use pressure density 2.6-2.7 g/cc;
Applicable market: power car.
● C10 High Power Lithium Iron Phosphate
Process characteristics: high power;
Electrical performance characteristics: 150mAh/g (full power 0.33C);
Applicable market: power automobile.