Introduction
GFLTS is a green and eco-friendly titanium-based lithium ion exchanger in powder form, featuring a high concentration of lithium metatitanate, a compound with the chemical formula Li2TiO3. GFLTS is specifically designed for lithium extraction, primarily used in the field of lithium extraction from salt lakes and can also be processed into lithium ion exchange materials of other morphologies. It features convenient usage, high efficiency, long cycle life, high selectivity for lithium ions, high concentration of lithium ions in the eluted solution, and low dissolution loss.
Technical specifications
Item |
Typical Value |
TiO2 % |
72.0~74.0 |
Li % |
11.5~13.0 |
Volatiles at 105¡æ, % |
¡Ü 1.0 |
pH of a water suspension |
10.0~12.0 |
D50£¬¦Ìm |
3.0~8.0 |
Lithium adsorption capacity of mother liquor, mg/g |
¡Ý30.0 |
Adsorption capacity in 3 hours for carbonate-type brine (Li content 300 mg/L), mg/g |
¡Ý14 |
Applicable brine pH |
5.0~13.0 |
Single cycle dissolution rate, % |
¡Ü0.005 |
Product Application
Typical Application Experimental Data
Lithium Extraction from Carbonate-Type Brine in Tibet |
|||||||
Liquid Sample |
B3+ |
Ca2+ |
K+ |
Li+ |
Mg2+ |
Na+ |
Ti4+ |
mg/L |
mg/L |
mg/L |
mg/L |
mg/L |
mg/L |
mg/L |
|
Lithium Precipitation Mother Liquor |
658 |
0 |
8522 |
298 |
79 |
45111 |
0 |
Desorption Solution |
1 |
95 |
421 |
12694 |
284 |
1052 |
0 |
Solid Sample |
B3+ |
Ca2+ |
K+ |
Li+ |
Mg2+ |
Na+ |
|
ppm |
ppm |
ppm |
ppm |
ppm |
ppm |
|
|
Adsorbent (Initial) |
0 |
22 |
21 |
1036 |
0 |
53 |
|
Adsorbent (After Adsorption) |
6 |
162 |
1107 |
30623 |
756 |
2162 |
|
Adsorbent (After Desorption) |
3 |
35 |
107 |
643 |
87 |
964 |
|
Lithium Extraction from Brine with High Magnesium to Lithium Ratio |
|||||||
Liquid Sample |
B3+ |
Ca2+ |
K+ |
Li+ |
Mg2+ |
Na+ |
Ti4+ |
mg/L |
mg/L |
mg/L |
mg/L |
mg/L |
mg/L |
mg/L |
|
Lithium Precipitation Mother Liquor |
242 |
148 |
4154 |
253 |
86420 |
4934 |
0 |
Desorption Solution |
8 |
116 |
72 |
10362 |
928 |
106 |
0 |
Solid Sample |
B3+ |
Ca2+ |
K+ |
Li+ |
Mg2+ |
Na+ |
|
ppm |
ppm |
ppm |
ppm |
ppm |
ppm |
|
|
Adsorbent (Initial) |
0 |
22 |
21 |
1036 |
0 |
53 |
|
Adsorbent (After Adsorption) |
20 |
258 |
137 |
29561 |
1802 |
1335 |
|
Adsorbent (After Desorption) |
3 |
26 |
32 |
785 |
132 |
98 |
|
Typical Application Experimental Data
Lithium Extraction from Carbonate-Type Brine in Tibet |
|||||||
Liquid Sample |
B3+ |
Ca2+ |
K+ |
Li+ |
Mg2+ |
Na+ |
Ti4+ |
mg/L |
mg/L |
mg/L |
mg/L |
mg/L |
mg/L |
mg/L |
|
Lithium Precipitation Mother Liquor |
658 |
0 |
8522 |
298 |
79 |
45111 |
0 |
Desorption Solution |
1 |
95 |
421 |
12694 |
284 |
1052 |
0 |
Solid Sample |
B3+ |
Ca2+ |
K+ |
Li+ |
Mg2+ |
Na+ |
|
ppm |
ppm |
ppm |
ppm |
ppm |
ppm |
|
|
Adsorbent (Initial) |
0 |
22 |
21 |
1036 |
0 |
53 |
|
Adsorbent (After Adsorption) |
6 |
162 |
1107 |
30623 |
756 |
2162 |
|
Adsorbent (After Desorption) |
3 |
35 |
107 |
643 |
87 |
964 |
|
Lithium Extraction from Brine with High Magnesium-to-Lithium Ratio |
|||||||
Liquid Sample |
B3+ |
Ca2+ |
K+ |
Li+ |
Mg2+ |
Na+ |
Ti4+ |
mg/L |
mg/L |
mg/L |
mg/L |
mg/L |
mg/L |
mg/L |
|
Lithium Precipitation Mother Liquor |
242 |
148 |
4154 |
253 |
86420 |
4934 |
0 |
Desorption Solution |
8 |
116 |
72 |
10362 |
928 |
106 |
0 |
Solid Sample |
B3+ |
Ca2+ |
K+ |
Li+ |
Mg2+ |
Na+ |
|
ppm |
ppm |
ppm |
ppm |
ppm |
ppm |
|
|
Adsorbent (Initial) |
0 |
22 |
21 |
1036 |
0 |
53 |
|
Adsorbent (After Adsorption) |
20 |
258 |
137 |
29561 |
1802 |
1335 |
|
Adsorbent (After Desorption) |
3 |
26 |
32 |
785 |
132 |
98 |
|
Application Process Diagram