CN104591429A - Method for recycling tin ions in tin-containing industrial sewage - Google Patents

Abstract

The invention discloses a method for recycling tin ions in tin-containing industrial sewage. The method comprises the following steps: filtering the sewage containing tin ions to obtain filtrate, then enabling the filtrate to flow through ion exchange resin to adsorb the tin ions, eluting the ion exchange resin to obtain tin ion concentrated liquor, mixing the tin ion concentrated liquor with industrial and agricultural byproducts, and carrying out microbial fermentation, drying and granulation to obtain an organic tin feed additive. The method conduces to simultaneously solving the problem of water pollution and the problem of supplementing trace elements in animal bodies, and has good ecological, economic and social benefits.

Description

A kind of method of tin ion in recycling tin industrial sewage

Technical field

The invention belongs to sewage treatment area, be specifically related to the method for tin ion in a kind of recycling tin industrial sewage.

Background technology

Water pollutions becomes the environmental problem of a serious harm human health, in recent years, containing the industrial sewage of heavy metal and city domestic sewage increasing, select the method for rationally purifying waste water to be very important.

Ion-exchange-resin process is a kind of important method processing containing metal element sewage, the amino contained in resin, light base isoreactivity group, huge legendary turtle conjunction, permutoid reaction can be carried out with metal ion, thus removal metal ions in sewage, can also be used for the metal of trace in concentrated and recovery solution, common ion exchange resin has Zeo-karb, anionite-exchange resin, chelate resin and humic acid resin etc. simultaneously.Ion-exchange-resin process equipment is simple, and operation is easy to control, and processing condition are ripe, flow process is short, and resin can regenerate, and obtains extensive application at present in sewage disposal.

But the metallic element of a lot of treated recovery is not utilized again, and this causes the waste of metals resources to a certain extent.

Although the content of metal trace element in humans and animals body is few, with the existence of humans and animals and health closely bound up, vital effect is play to life.Their excess intake, deficiency, imbalance or shortage all can cause the physiological abnormal or generation disease of humans and animals body to some extent.It should be noted that these trace elements must directly or indirectly be supplied by soil under normal circumstances, but most of humans and animals does not often obtain enough trace elements by diet.According to scientific research, up to the present, be identified the essential metal trace element relevant with health and lives and have iron, copper, zinc, cobalt, manganese, chromium, nickel, molybdenum, vanadium, tin, strontium, rubidium etc.This often plants the physiological function that metal trace element has it special.Although they are minimum at people's in-vivo content, they are very necessary to some the conclusive metabolism maintained in human body.Once lack these required trace elements, human body just there will be disease, even threat to life.Relatively it is clear that the disease of about 30% is directly caused by trace element deficiency or imbalance.As scarce tin can cause mouth, eye, anus or external genital redness, papule, eczema.And for example iron is one of main component forming oxyphorase, and iron deficiency can cause hypoferric anemia.Once report was had abroad: in body, iron content, tin, tin total amount reduce, and all can weaken immunologic mechanism (resist the disease strength), reduce resistance against diseases, encourage bacteriological infection, and metainfective mortality ratio are also higher.Trace element disease-resistant, give protection against cancer, to promote longevity etc. in all also play very important effect.

The method that tradition supplements metallic element adds metal inorganic salt in food, but the assimilated efficiency of humans and animals body to metal inorganic salt is lower, be unfavorable for that metallic element is utilized by body, and a lot of metal inorganic salt pair body toxic side effect, long-term taking easily produces adverse consequences.The metallic element of inorganic states can be changed into the metallic element of organic by microorganism, metallic element is combined with macromole such as protein, form the form that body easily absorbs and utilizes, and the metallic element of organic belongs to biologically active substance, does not have toxic side effect to human body.

In sum, a kind of recycling by metallic element in sewage of exploitation is made into fodder additives, solves water pollution problems and a supplementary animal body trace element difficult problem simultaneously, has good ecological benefits, economic benefit and social benefit.

Summary of the invention

The object of the invention is to overcome the deficiencies in the prior art part, the method of tin ion in a kind of recycling tin industrial sewage is provided, sewage water filtration containing tin ion is obtained filtrate by the present invention, then filtrate is adsorbed tin ion by ion exchange resin, elution ionic exchange resin obtains tin ion concentrated solution, tin ion concentrated solution is mixed with industrial or agricultural by product, obtains organotin fodder additives through fermentable, drying and granulation.

The present invention realizes in the following way:

1, the method for tin ion in recycling tin industrial sewage, comprises the following steps:

(1) by the sewage water filtration containing tin ion, filtrate is obtained;

(2) filtrate is passed through ion exchange resin, applied sample amount and ion exchange resin weight ratio are 6 ~ 10:1, and loading flow velocity is 1.0-2.0 BV/h;

(3) carry out wash-out by NaCl solution to ion exchange resin after absorption completely, obtain tin ion concentrated solution, elutriant and sewage weight ratio are 1:15 ~ 20, and elution flow rate is 0.5-1.0 BV/h;

(4) tin ion concentrated solution, industrial or agricultural by product and microbiobacterial agent are mixed by weight 1:1000 ~ 2000:10 ~ 20, at room temperature ferment 25-30 days, within every 12 hours, stirs once;

(5) after fermentation ends, tunning is dried;

(6) dried tunning is granulated, obtain organotin fodder additives.

Preferably, described ion exchange resin is any one in D751 chelating ion exchange resin, D401 chelating ion exchange resin, IRC-718 chelating ion exchange resin.

Preferably, described eluate concentration is the NaCl solution of 6-10%.

Preferably, described industrial or agricultural by product comprises more than one in vinasse, rice bran, wheat bran, Semen Maydis powder, dregs of beans, cassava starch dregs, beer residue, pomace, Chinese herb residues, Pericarppium arachidis hypogaeae, wooden chaff, tree bark powder, coconut palm chaff, changing food waste, Boiler Ash.

Preferably, described microbiobacterial agent comprises yeast, milk-acid bacteria, subtilis, Bacillus licheniformis.

Advantage of the present invention and positively effect:

1, the present invention solves water pollution problems and a supplementary animal body trace element difficult problem simultaneously, has good ecological benefits, economic benefit and social benefit.

2, the metallic element in sewage is recycled by the present invention, has saved resource, has avoided the wasting of resources.

3, metallic element is changed into organic from inorganic states by microorganism by the present invention, is beneficial to absorption and the utilization of animal.

4, organotin fodder additives of the present invention significantly can strengthen the immunizing power of animal, improves the seed output and quality of animal.

5, raw material sources of the present invention are extensive, with low cost, easy and simple to handle, energy consumption is low, are applicable to scale operation.

Embodiment

Below by embodiment, the invention will be further described, be easier to be understood, but protection scope of the present invention is not limited to these embodiments to make advantages and features of the invention.

embodiment 1

1, the method for tin ion in recycling tin industrial sewage, is characterized in that, comprise the following steps:

(1) by the sewage water filtration containing tin ion, filtrate is obtained;

(2) pass through filtrate for D751 chelating ion exchange resin, applied sample amount and ion exchange resin weight ratio are 6:1, and loading flow velocity is 1.0 BV/h;

(3) absorption completely rear concentration be 6% NaCl solution wash-out is carried out to ion exchange resin, obtain tin ion concentrated solution, NaCl solution and sewage weight ratio are 1:15, and elution flow rate is 0.5 BV/h;

(4) tin ion concentrated solution, industrial or agricultural by product and microbiobacterial agent are mixed by weight 1:1000:10, at room temperature ferment 25 days, within every 12 hours, stir once;

(5) after fermentation ends, tunning is dried;

(6) dried tunning is granulated, obtain organotin fodder additives.

Wherein said industrial or agricultural by product comprises vinasse, rice bran, wheat bran, Semen Maydis powder, dregs of beans, cassava starch dregs, beer residue, pomace, Chinese herb residues, Pericarppium arachidis hypogaeae, wooden chaff, tree bark powder, coconut palm chaff, changing food waste, Boiler Ash; Described microbiobacterial agent comprises yeast, milk-acid bacteria, subtilis, Bacillus licheniformis.

embodiment 2

1, the method for tin ion in recycling tin industrial sewage, is characterized in that, comprise the following steps:

(1) by the sewage water filtration containing tin ion, filtrate is obtained;

(2) pass through filtrate for D401 chelating ion exchange resin, applied sample amount and ion exchange resin weight ratio are 10:1, and loading flow velocity is 2.0 BV/h;

(3) absorption completely rear concentration be 10% NaCl solution wash-out is carried out to ion exchange resin, obtain tin ion concentrated solution, NaCl solution and sewage weight ratio are 1:20, and elution flow rate is 1.0 BV/h;

(4) tin ion concentrated solution, industrial or agricultural by product and microbiobacterial agent are mixed by weight 1:2000:20, at room temperature ferment 30 days, within every 12 hours, stir once;

(5) after fermentation ends, tunning is dried;

(6) dried tunning is granulated, obtain organotin fodder additives.

Wherein said industrial or agricultural by product comprises vinasse, rice bran, wheat bran, Semen Maydis powder, dregs of beans, Pericarppium arachidis hypogaeae, wooden chaff, tree bark powder, coconut palm chaff, changing food waste, Boiler Ash; Described microbiobacterial agent comprises yeast, milk-acid bacteria, subtilis, Bacillus licheniformis.

embodiment 3

1, the method for tin ion in recycling tin industrial sewage, is characterized in that, comprise the following steps:

(1) by the sewage water filtration containing tin ion, filtrate is obtained;

(2) pass through filtrate for IRC-718 chelating ion exchange resin, applied sample amount and ion exchange resin weight ratio are 8:1, and loading flow velocity is 1.5 BV/h;

(3) absorption completely rear concentration be 8% NaCl solution wash-out is carried out to ion exchange resin, obtain tin ion concentrated solution, NaCl solution and sewage weight ratio are 1:18, and elution flow rate is 0.8BV/h;

(4) tin ion concentrated solution, industrial or agricultural by product and microbiobacterial agent are mixed by weight 1:1500:15, at room temperature ferment 28 days, within every 12 hours, stir once;

(5) after fermentation ends, tunning is dried;

(6) dried tunning is granulated, obtain organotin fodder additives.

Wherein said industrial or agricultural by product comprises vinasse, rice bran, wheat bran, Semen Maydis powder, dregs of beans, cassava starch dregs, beer residue, pomace, Chinese herb residues, Pericarppium arachidis hypogaeae; Described microbiobacterial agent comprises yeast, milk-acid bacteria, subtilis, Bacillus licheniformis.

Claims (5)

1. the method for tin ion in recycling tin industrial sewage, is characterized in that, comprise the following steps:

(1) by the sewage water filtration containing tin ion, filtrate is obtained;

(2) filtrate is passed through ion exchange resin, applied sample amount and ion exchange resin weight ratio are 6 ~ 10:1, and loading flow velocity is 1.0-2.0 BV/h;

(3) carry out wash-out with elutriant to ion exchange resin after absorption completely, obtain tin ion concentrated solution, elutriant and sewage weight ratio are 1:15 ~ 20, and elution flow rate is 0.5-1.0 BV/h;

(4) tin ion concentrated solution, industrial or agricultural by product and microbiobacterial agent are mixed by weight 1:1000 ~ 2000:10 ~ 20, at room temperature ferment 25-30 days, within every 12 hours, stirs once;

(5) after fermentation ends, tunning is dried;

(6) dried tunning is granulated, obtain organotin fodder additives.

2. the method for tin ion in recycling tin industrial sewage according to claim 1, is characterized in that: described ion exchange resin is any one in D751 chelating ion exchange resin, D401 chelating ion exchange resin, IRC-718 chelating ion exchange resin.

3. the method for tin ion in recycling tin industrial sewage according to claim 1, is characterized in that: described eluate concentration is the NaCl solution of 6-10%.

4. the method for tin ion in recycling tin industrial sewage according to claim 1, is characterized in that: described industrial or agricultural by product comprise in vinasse, rice bran, wheat bran, Semen Maydis powder, dregs of beans, cassava starch dregs, beer residue, pomace, Chinese herb residues, Pericarppium arachidis hypogaeae, wooden chaff, tree bark powder, coconut palm chaff, changing food waste, Boiler Ash more than one.

5. the method for tin ion in recycling tin industrial sewage according to claim 1, is characterized in that: described microbiobacterial agent comprises yeast, milk-acid bacteria, subtilis, Bacillus licheniformis.