Acrylic chelating fibre for removing heavy metal ion in water and preparation
A technology of heavy metal ions and acrylic fibers, which is applied in the field of chelating fibers, acrylic chelating fibers and their preparation, can solve problems such as instability of functional groups, and achieve the effects of simple preparation, excellent complexing performance of heavy metal ions, and easy industrial production
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Embodiment 1
[0012] Take 0.751 g of dried acrylic fiber, put it into 40 ml of tetraethylenepentamine whose temperature has been kept at 145-146° C., stir it with electromagnetic, and react for 1 hour. Take out the fibers, filter them with suction, wash them with deionized water until the water becomes neutral, and dry them in an oven at 70°C. The resulting tetraethylenepentamine-modified fiber weighed 1.026 grams.
[0013] Put 1.026 grams of the fiber obtained above into 20 milliliters of deionized water, heat to boiling, add dropwise 100 milliliters of aqueous solution prepared by 2 grams of chloroacetic acid and 3.6 grams of sodium bicarbonate under reflux, and continue the reflux reaction after the addition is complete 30 minutes. Filter with suction, wash with deionized water until the water becomes neutral, and dry in an oven at 70°C. Obtained poly(carboxymethyl)tetraethylenepentamine modified fiber 1.265 g.
Embodiment 2
[0015] Take 0.884 g of dried acrylic fiber, put it into 40 ml of diethylenetriamine whose temperature has been kept at 141-142° C., stir it electromagnetically, and react for 12 minutes. Take out the fibers, filter them with suction, wash them with deionized water until the water becomes neutral, and dry them in an oven at 70°C. The obtained diethylenetriamine modified fiber weighed 1.124 g.
[0016] Put 1.124 grams of the fiber obtained above into 20 milliliters of water, heat to boiling, add dropwise 100 milliliters of aqueous solution prepared by 1 gram of chloroacetic acid and 1.8 grams of sodium bicarbonate under reflux, after the addition is complete, continue the reflux reaction for 1 hour . Filter with suction, wash with deionized water until the water becomes neutral, and dry in an oven at 70°C. 1.293 g of poly(carboxymethyl)diethylenetriamine modified fiber was obtained.
Embodiment 3
[0018] Take 0.863 g of dried acrylic fiber, put it into a solution made of 25 ml of diethylenetriamine and 25 ml of deionized water, stir it electromagnetically, and react under reflux for 3 hours. Take out the fibers, filter them with suction, wash them with deionized water until the water becomes neutral, and dry them in an oven at 70°C. The obtained diethylenetriamine modified fiber weighed 0.932 g.
[0019] Put 0.932 g of the fiber obtained above into 20 ml of water, heat to boiling, add dropwise 100 ml of aqueous solution prepared by 2 g of chloroacetic acid and 3.6 g of sodium bicarbonate under reflux, and continue the reflux reaction for 1 hour after the addition is complete . Filter with suction, wash with deionized water until the water becomes neutral, and dry in an oven at 70°C. 1.012 g of poly(carboxymethyl)diethylenetriamine modified fiber was obtained.
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