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Titanium-based Ion Exchanger GFLTS
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.
Product Details

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


Lithium extraction from various types of salt lake brine
Lithium recovery from lithium precipitation mother liquor
Lithium recovery from wastewater in the production of lithium battery materials high magnesium lithium ratio brine
Groundwater with lithium resources
Wastewater from oil and gas fields with lithium resources
Lithium recovery from various types of spent lithium batteries



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



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