CN106006798A - High efficiency water purification composite material and preparation method thereof - Google Patents

Abstract

The invention discloses a high efficiency water purification composite material and a preparation method thereof. The high efficiency water purification composite material is prepared from 85-95 parts by weight of an aluminum ferric chloride polymer, 55-65 parts by weight of polyacrylamide, 10-20 parts by weight of bentonite powder, 5-15 parts by weight of calcium lignin sulphonate, 6-10 parts by weight of basic aluminum chloride and 5-7 parts by weight of polyethylene glycol 400 and benzotriazole. A weight part ratio of polyethylene glycol 400 to benzotriazole is 4-6: 1. The high efficiency water purification composite material has excellent water purification performances and can effectively remove heavy metals in sewage. The preparation method of the high efficiency water purification composite material has simple processes and is suitable for large scale production.

Description

A kind of High-efficient Water purifies composite and preparation method thereof

Technical field

The invention belongs to field of compound material, be specifically related to a kind of High-efficient Water and purify composite and preparation method thereof.

Background technology

Exhaust along with the water that conventional water resource is day by day rare, the quality of drinking water deteriorates in time and increases uses, cause salt Water pollutes, and water treatment technology is quickly becoming the necessary aspect of Modern Live.Additionally, due to various activities, such as manufacturing industry and The development of agricultural, the pollution of waterhead that additive and toxic heavy metal easily cause, these problems cause in water system and general, antibacterial, Salt, the increase of heavy metal.These water sources are the most easily by sanitary sewage, industrial wastewater and agricultural by-products.In order to ensure water resource Cleaning and safety, need antibacterial, virus and the sporangiocyst removal removing in water.Although passing through chemical disinfection or ultraviolet radiation energy will Fractionated viral and removal of bacteria, but heavy metal and other class impurity can not be removed by these sterilization methods by absorption or reaction.

Summary of the invention

The first object of the present invention is to provide a kind of High-efficient Water to purify composite；

The present invention the second purpose is the preparation method providing above-mentioned High-efficient Water to purify composite.

The above-mentioned purpose of the present invention is achieved by techniques below scheme:

A kind of High-efficient Water purifies composite, is prepared from by the raw material of following weight portion: PAFC, 85～95 parts； Polyacrylamide, 55～65 parts；Bentonite in powder, 10～20 parts；Calcium lignosulfonate, 5～15 parts；Aluminium chlorhydroxide, 6～10 Part；PEG400 and BTA totally 5～7 parts, the two weight part ratio is 4～6:1.

Further, described High-efficient Water is purified composite and is prepared from by the raw material of following weight portion: PAFC, 90 parts；Polyacrylamide, 60 parts；Bentonite in powder, 15 parts；Calcium lignosulfonate, 10 parts；Aluminium chlorhydroxide, 8 parts； PEG400 and BTA totally 6 parts, the two weight part ratio is 5:1.

Further, described High-efficient Water is purified composite and is prepared from by the raw material of following weight portion: PAFC, 85 parts；Polyacrylamide, 55 parts；Bentonite in powder, 10 parts；Calcium lignosulfonate, 5 parts；Aluminium chlorhydroxide, 6 parts；Poly- Ethylene glycol 400 and BTA totally 5 parts, the two weight part ratio is 4:1.

Further, described High-efficient Water is purified composite and is prepared from by the raw material of following weight portion: PAFC, 95 parts；Polyacrylamide, 65 parts；Bentonite in powder, 20 parts；Calcium lignosulfonate, 15 parts；Aluminium chlorhydroxide, 10 parts； PEG400 and BTA totally 7 parts, the two weight part ratio is 6:1.

Further, the mean molecule quantity of described polyacrylamide is 160～1,800,000.

Above-mentioned High-efficient Water purifies the preparation method of composite, comprises the steps:

Step S1, weighs PAFC, polyacrylamide, bentonite in powder, calcium lignosulfonate and alkali formula chlorine by weight Change aluminum, use wet ball-milling method to be mixed uniformly, be heated to 160～180 DEG C under vacuum, add PEG400 And BTA, mist projection granulating, compressing；

Step S2, under 550～650 DEG C of inert atmospheres, middle insulation i.e. obtains described High-efficient Water for 2～3 hours and purifies composite.

Further, step S1 is heated to 170 DEG C under vacuum, adds PEG400 and BTA, spray Mist pelletize, compressing.

Further, it is incubated 2.5 hours during step S2 is under 600 DEG C of nitrogen protective effects and get final product.

Advantages of the present invention:

The High-efficient Water that the present invention provides purifies composite and has the Water warfare performance of excellence, especially can efficiently remove the weight in sewage Metal；It is simple that this High-efficient Water purifies composite material preparation process, can be with large-scale production.

Detailed description of the invention

Further illustrate the essentiality content of the present invention below in conjunction with embodiment, but do not limit scope with this.To the greatest extent The present invention is explained in detail by pipe with reference to preferred embodiment, it will be understood by those within the art that, can be to the present invention Technical scheme modify or equivalent, without deviating from the spirit and scope of technical solution of the present invention.

Embodiment 1: High-efficient Water purifies the preparation of composite

Parts by weight of raw materials compares:

PAFC, 90 parts；Polyacrylamide, 60 parts；Bentonite in powder, 15 parts；Calcium lignosulfonate, 10 parts； Aluminium chlorhydroxide, 8 parts；PEG400 and BTA totally 6 parts, the two weight part ratio is 5:1.

Preparation method:

Step S1, weighs PAFC, polyacrylamide, bentonite in powder, calcium lignosulfonate and alkali formula chlorine by weight Change aluminum, use wet ball-milling method be mixed uniformly, be heated to 170 DEG C under vacuum, add PEG400 with BTA, mist projection granulating, compressing；

Step S2, under 600 DEG C of nitrogen protective effects, middle insulation i.e. obtains described High-efficient Water for 2.5 hours and purifies composite.

Embodiment 2: High-efficient Water purifies the preparation of composite

Parts by weight of raw materials compares:

PAFC, 85 parts；Polyacrylamide, 55 parts；Bentonite in powder, 10 parts；Calcium lignosulfonate, 5 parts；Alkali Formula aluminum chloride, 6 parts；PEG400 and BTA totally 5 parts, the two weight part ratio is 4:1.

Preparation method:

Step S1, weighs PAFC, polyacrylamide, bentonite in powder, calcium lignosulfonate and alkali formula chlorine by weight Change aluminum, use wet ball-milling method be mixed uniformly, be heated to 170 DEG C under vacuum, add PEG400 with BTA, mist projection granulating, compressing；

Step S2, under 600 DEG C of nitrogen protective effects, middle insulation i.e. obtains described High-efficient Water for 2.5 hours and purifies composite.

Embodiment 3: High-efficient Water purifies the preparation of composite

Parts by weight of raw materials compares:

PAFC, 95 parts；Polyacrylamide, 65 parts；Bentonite in powder, 20 parts；Calcium lignosulfonate, 15 parts； Aluminium chlorhydroxide, 10 parts；PEG400 and BTA totally 7 parts, the two weight part ratio is 6:1.

Preparation method:

Step S1, weighs PAFC, polyacrylamide, bentonite in powder, calcium lignosulfonate and alkali formula chlorine by weight Change aluminum, use wet ball-milling method be mixed uniformly, be heated to 170 DEG C under vacuum, add PEG400 with BTA, mist projection granulating, compressing；

Step S2, under 600 DEG C of nitrogen protective effects, middle insulation i.e. obtains described High-efficient Water for 2.5 hours and purifies composite.

Embodiment 4: High-efficient Water purifies the preparation of composite

Parts by weight of raw materials compares:

PAFC, 90 parts；Polyacrylamide, 60 parts；Bentonite in powder, 15 parts；Calcium lignosulfonate, 10 parts； Aluminium chlorhydroxide, 8 parts；PEG400 and BTA totally 6 parts, the two weight part ratio is 4:1.

Preparation method:

Step S1, weighs PAFC, polyacrylamide, bentonite in powder, calcium lignosulfonate and alkali formula chlorine by weight Change aluminum, use wet ball-milling method be mixed uniformly, be heated to 170 DEG C under vacuum, add PEG400 with BTA, mist projection granulating, compressing；

Step S2, under 600 DEG C of nitrogen protective effects, middle insulation i.e. obtains described High-efficient Water for 2.5 hours and purifies composite.

Embodiment 5: High-efficient Water purifies the preparation of composite

Parts by weight of raw materials compares:

PAFC, 90 parts；Polyacrylamide, 60 parts；Bentonite in powder, 15 parts；Calcium lignosulfonate, 10 parts； Aluminium chlorhydroxide, 8 parts；PEG400 and BTA totally 6 parts, the two weight part ratio is 6:1.

Preparation method:

Step S1, weighs PAFC, polyacrylamide, bentonite in powder, calcium lignosulfonate and alkali formula chlorine by weight Change aluminum, use wet ball-milling method be mixed uniformly, be heated to 170 DEG C under vacuum, add PEG400 with BTA, mist projection granulating, compressing；

Step S2, under 600 DEG C of nitrogen protective effects, middle insulation i.e. obtains described High-efficient Water for 2.5 hours and purifies composite.

Embodiment 6: comparative example

Parts by weight of raw materials compares:

PAFC, 90 parts；Polyacrylamide, 60 parts；Bentonite in powder, 15 parts；Calcium lignosulfonate, 10 parts； Aluminium chlorhydroxide, 8 parts；PEG400 and BTA totally 6 parts, the two weight part ratio is 3:1.

Preparation method:

Step S1, weighs PAFC, polyacrylamide, bentonite in powder, calcium lignosulfonate and alkali formula chlorine by weight Change aluminum, use wet ball-milling method be mixed uniformly, be heated to 170 DEG C under vacuum, add PEG400 with BTA, mist projection granulating, compressing；

Step S2, under 600 DEG C of nitrogen protective effects, middle insulation i.e. obtains described High-efficient Water for 2.5 hours and purifies composite.

Embodiment 7: comparative example

Parts by weight of raw materials compares:

PAFC, 90 parts；Polyacrylamide, 60 parts；Bentonite in powder, 15 parts；Calcium lignosulfonate, 10 parts； Aluminium chlorhydroxide, 8 parts；PEG400 and BTA totally 6 parts, the two weight part ratio is 7:1.

Preparation method:

Step S1, weighs PAFC, polyacrylamide, bentonite in powder, calcium lignosulfonate and alkali formula chlorine by weight Change aluminum, use wet ball-milling method be mixed uniformly, be heated to 170 DEG C under vacuum, add PEG400 with BTA, mist projection granulating, compressing；

Step S2, under 600 DEG C of nitrogen protective effects, middle insulation i.e. obtains described High-efficient Water for 2.5 hours and purifies composite.

Embodiment 8: effect example

The performance of the water purification material of testing example 1～7 preparation respectively.

Method of testing: arsenic in sewage (concentration is 0.2mg/L) and lead (concentration is 0.2mg/L) are gone by test water purification material Except rate, every liter of sewage adds water purification material 50g, stands 20 minutes after stirring.

Result see table:

	Arsenic removal rate (%)	Lead clearance (%)
			Embodiment 1	99.8	99.8
Embodiment 2	99.4	99.3
			Embodiment 3	99.5	99.4
Embodiment 4	99.4	99.3
			Embodiment 5	99.5	99.4
Embodiment 6	69.5	71.3
			Embodiment 7	68.6	70.2

The above results shows, the High-efficient Water that the present invention provides purifies composite and has the Water warfare performance of excellence, especially can be efficient Remove the heavy metal in sewage.It is simple that this High-efficient Water purifies composite material preparation process, can be with large-scale production.

The effect of above-described embodiment indicates that the essentiality content of the present invention, but does not limit protection scope of the present invention with this. It will be understood by those within the art that, technical scheme can be modified or equivalent, and not take off Essence and protection domain from technical solution of the present invention.

Claims (8)

1. a High-efficient Water purifies composite, it is characterised in that be prepared from by the raw material of following weight portion: polyaluminium Ferro-aluminum, 85～95 parts；Polyacrylamide, 55～65 parts；Bentonite in powder, 10～20 parts；Calcium lignosulfonate, 5～15 parts； Aluminium chlorhydroxide, 6～10 parts；PEG400 and BTA totally 5～7 parts, the two weight part ratio is 4～6:1.

High-efficient Water the most according to claim 1 purifies composite, it is characterised in that by the raw material system of following weight portion For forming: PAFC, 90 parts；Polyacrylamide, 60 parts；Bentonite in powder, 15 parts；Calcium lignosulfonate, 10 Part；Aluminium chlorhydroxide, 8 parts；PEG400 and BTA totally 6 parts, the two weight part ratio is 5:1.

High-efficient Water the most according to claim 1 purifies composite, it is characterised in that by the raw material system of following weight portion For forming: PAFC, 85 parts；Polyacrylamide, 55 parts；Bentonite in powder, 10 parts；Calcium lignosulfonate, 5 parts； Aluminium chlorhydroxide, 6 parts；PEG400 and BTA totally 5 parts, the two weight part ratio is 4:1.

High-efficient Water the most according to claim 1 purifies composite, it is characterised in that by the raw material system of following weight portion For forming: PAFC, 95 parts；Polyacrylamide, 65 parts；Bentonite in powder, 20 parts；Calcium lignosulfonate, 15 Part；Aluminium chlorhydroxide, 10 parts；PEG400 and BTA totally 7 parts, the two weight part ratio is 6:1.

5. purify composite according to the arbitrary described High-efficient Water of Claims 1 to 4, it is characterised in that: described polyacrylamide Mean molecule quantity is 160～1,800,000.

6. the arbitrary described High-efficient Water of Claims 1 to 4 purifies the preparation method of composite, it is characterised in that comprise the steps:

Step S1, weighs PAFC, polyacrylamide, bentonite in powder, calcium lignosulfonate and alkali formula chlorine by weight Change aluminum, use wet ball-milling method to be mixed uniformly, be heated to 160～180 DEG C under vacuum, add PEG400 And BTA, mist projection granulating, compressing；

Step S2, under 550～650 DEG C of inert atmospheres, middle insulation i.e. obtains described High-efficient Water for 2～3 hours and purifies composite.

Preparation method the most according to claim 6, it is characterised in that: step S1 is heated to 170 DEG C under vacuum, Add PEG400 and BTA, mist projection granulating, compressing.

Preparation method the most according to claim 6, it is characterised in that: step S2 is middle under 600 DEG C of nitrogen protective effects protects Temperature i.e. obtains described High-efficient Water for 2.5 hours and purifies composite.