Method for extracting sodium alginate and other organic matters from Hizikia fusifarme through arsenic removal

A technology of sodium alginate and hijiki, applied in the field of organic matter, can solve the problems that it is difficult to completely crack the cell wall of plants, high production costs, and large water consumption, so as to reduce consumption, sewage discharge, and energy consumption , The effect of reducing production costs

Inactive Publication Date: 2015-05-27
罗鹏程
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

This patented technology involves making Cadrake deoxidation without adding harmful chemicals like selenium or sulfur dioxide during processing. By utilizing this technique, cadrasia becomes less dangerous because they contain fewer impurities. They also have specific ingredients added at different stages throughout their manufacturing processes to improve its properties. These technical results help prevent contamination issues while producing valuable commercial products.

Problems solved by technology

This patented describes different methods for producing okadai from sea plants called shrimps like cladoskids and cuttlefish. These crocks contain selenium, zinc, calcium, iron, copper, manganese, polysilicon dioxyhemoglobin, chlorophyll, taurenosulfurane, selenite, gallium, ammonia, sulfurous acid, citrate, carboxylates, glucose monomethoxytritinosynthesis metabolites, urolithochondria, fission yeast cells, pyrenaferrite, lycopene, beta cyclodextrin, betaine, guarme flakes, nanosized particles containing silver, gold, platinum, indanthroverdanets, and chemotherapy agents including alkali metal salts. However, these existing processes require expensive materials and produce harmful byproducts during manufacturing process steps. Therefore, there remains room for improvement within this field.

Method used

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Examples

Experimental program
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Effect test

Embodiment 1

[0021] (1) Arsenic removal treatment: Wash 100g of Hijiki three times with warm water at 50°C, break it into small pieces of 30mm, then put it into the enzymatic hydrolysis pot, add 1000g of water, 0.5% EDTA, raise the temperature to 50°C and keep it for 45 minutes ;

[0022] (2) Enzyme hydrolysis treatment: add 45% endo-β-glucanase, 30% exo-β-glucanase, β-glucose 0.5% cellulase composed of 25% alfalfa enzyme, enzymolysis at 50°C for 3 hours, added 0.3% protease composed of 50% neutral protease, 50% papain, 55% pectin lyase, pectin esterase 45% pectinase 0.3%, continue enzymatic hydrolysis for 3 hours, heat up to 70°C and keep for 10 minutes to inactivate the enzyme, centrifuge to obtain filtrate and hijiki dregs;

[0023] (3) Extract iodine: Add lime water to the enzymolysis centrifugal filtrate to adjust the pH to 8, filter, and use 4M HCl to adjust the pH to 2, then add 0.1% NaCl, filter, pass the filtrate through alkaline anion Exchange the resin, elute the resin with 10...

Embodiment 2

[0031] (1) Arsenic removal treatment: Wash 200g of Hijiki three times with warm water at 60°C, break it into small pieces of 40mm, then put it into the enzymatic hydrolysis pot, add 1500g of water and 1% EDTA, heat up to 60°C and keep for 50 minute;

[0032](2) Enzyme hydrolysis treatment: add 2.0% raw material weight of 45% endo-β-glucanase, 30% exo-β-glucanase, β-glucose to the above mixture in a water bath at 60°C 0.7% cellulase composed of 25% alfalfa enzyme, hydrolyzed at 50-60°C for 4 hours, added 0.5% protease composed of 50% neutral protease, 50% papain, 55% pectin lyase, pectin 0.5% pectinase composed of 45% esterase, continued enzymolysis for 5 hours, raised the temperature to 80°C and maintained for 15 minutes to inactivate the enzyme, and centrifuged to obtain filtrate and hijiki vegetable residue;

[0033] (3) Extract iodine: Add lime water to the enzymolysis centrifugal filtrate to adjust the pH to 9, filter, and use 4M HCl to adjust the pH to 3, then add 0.2% N...

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Abstract

The invention discloses a method for extracting sodium alginate and other organic matters from Hizikia fusifarme through arsenic removal. The method comprises the steps of (1) arsenic removal treatment, (2) enzymatic hydrolysis treatment, (3) iodine extraction, (4) mannitol extraction, (5) dilute alkali digestion, (6) decoloring, (7) calcium coagulation-ion exchange and (8) sodium alginate preparation. A Hizikia fusifarme arsenic removal technology greatly reduces the content of arsenic in Hizikia fusifarme. A compound enzyme prepared through using protease, pectase and cellulase according to a scientific ratio is used to realize raw material pretreatment, so the product extraction rate is improved in order to realize recycle of production water; the concentrations of iodine and mannitol in a pretreatment liquid are high, and the above extraction method has the characteristics of simplicity, production cost reduction and energy consumption reduction; and compared with present industrial production methods, the method disclosed in the invention has the advantages of saving of above 90% water, great reduction of the water resource consumption and the sewage emission, and environmental pollution reduction.

Description

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Claims

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Application Information

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Owner 罗鹏程
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