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Multi-element mineral water and preparation method thereof

A technology of mineral water and minerals, applied in food preparation, food science, application, etc., can solve the problems of unseen, high cost, complicated process, etc., and achieve the effect of good taste, simple manufacturing process and low cost

Inactive Publication Date: 2009-04-29
周博
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] In recent years, there have been many brands of mineral water on the market, that is, drinking water produced by artificially adding minerals needed by the human body into purified water. The mineral water produced by different manufacturers generally contains different minerals. , but most mineral waters only contain the macroelements needed by the human body, namely calcium, magnesium, potassium and sodium, while the mineral waters containing trace elements are very few, and only contain one or two trace elements such as zinc or selenium, Mineral water with the content of more than three elements reaching the above-mentioned limit index has not been seen yet, which cannot supplement the human body's needs for various minerals
A patent with a patent number of 97103958.5 invented a kind of magnetized mineral water, which contains a variety of minerals needed by the human body, and the content is reasonable. There are 5 to 6 kinds of minerals whose content reaches the above-mentioned limit indicators, but because they are derived from minerals , it inevitably contains minerals (such as aluminum) that are not beneficial to the human body. On the other hand, high temperature and high pressure are used in the preparation process of the patented magnetized mineral solution, and the process is more complicated and the cost is higher.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0039] The content of each ion in the mineral water designed in this embodiment is (unit: mg / L): zinc ion 0.5, strontium ion 0.5, lithium ion 0.5, bromide ion 2.34, iodide ion 0.3, selenium ion 0.02, metasilicate 35, calcium Ion 7.5, magnesium ion 3, potassium ion 31.6, chloride ion 12.0, manganese ion 0.4, ferrous ion 0.5, vanadium ion 0.1, acetate ion 14.7.

[0040] The first step is to weigh the compound: In order to obtain the mineral water with the above ion content, weigh the following compound (unit: grams):

[0041] Zinc chloride 1.04 Strontium bromide 1.41

[0042] Lithium metasilicate 3.25 Potassium iodide 0.39

[0043] Selenium dioxide 0.028 Calcium acetate 19.7

[0044] Vanadium pentoxide 0.18 Calcium chloride 6.9

[0045] Potassium metasilicate 63.7 Magnesium chloride 11.8

[0046] Manganese chloride 0.92 Ferrous bromide 1.93

[0047] The second step is to dissolve each compound. Dissolve potassium iodide, all chlorides and all bromides in 500 ml water to form the firs...

Embodiment 2

[0051] The content of each ion in the mineral water designed in this embodiment is (unit: mg / L): zinc ion 0.63, strontium ion 0.6, lithium ion 0.65, bromide ion 4.85, iodide ion 0.31, selenium ion 0.02, metasilicate 40, calcium Ion 6.5, magnesium ion 2.5, potassium ion 39.2, chloride ion 12.2, manganese ion 0.5, ferrous ion 0.51, vanadium ion 0.1, acetate ion 11.8, carbonate ion 1.08, sulfate ion 1.4.

[0052] In the first step, weigh the compound: In order to prepare the mineral water with the above ion content, weigh the following compound (unit: grams):

[0053] Zinc iodide 0.126 Zinc bromide 2.07

[0054] Strontium chloride 1.09 Potassium bromide 0.74

[0055] Lithium carbonate 1.34 Lithium hydroxide 0.69

[0056] Lithium sulfate 1.59 Potassium metasilicate 79.0

[0057] Selenium dioxide 0.028 Vanadium pentoxide 0.18

[0058] Manganese bromide 1.95 Ferrous bromide 1.93

[0059] Ferrous iodide 0.06 Calcium chloride 6.92

[0060] Calcium acetate 15.8 Magnesium chloride 9.79

[0...

Embodiment 3

[0065] The content of each ion in the mineral water designed in this embodiment is (unit: mg / L): zinc ion 1.0, strontium ion 0.71, lithium ion 0.85, bromide ion 1.93, iodide ion 0.40, selenium ion 0.03, metasilicate 30, calcium Ion 5.81, magnesium ion 2, potassium ion 29.2, chloride ion 12.1, manganese ion 0.5, ferrous ion 0.5, vanadium ion 0.2, acetate ion 17.8.

[0066] In the first step, weigh the compound. In order to prepare mineral water with the above ion content, weigh the following compounds (unit: grams):

[0067] Calcium iodide 0.116 Magnesium iodide 0.11

[0068] Strontium iodide 0.114 Lithium iodide 0.105

[0069] Lithium bromide 0.543 Lithium chloride 1.84

[0070] Selenium dioxide 0.042 Magnesium chloride 7.83

[0071] Vanadium pentoxide 0.357 Potassium metasilicate 59.2

[0072] Strontium acetate 1.64 Lithium acetate 4.76

[0073] Zinc chloride 1.04 Zinc acetate 1.40

[0074] Calcium acetate 15.0 Calcium chloride 5.54

[0075] Ferrous bromide 1.93 Manganese chlorid...

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Abstract

The invention relates to mutielement mineral water and a perparating method thereof, comprising adding compounds into common drinking water to make the water contain one or more of the following irons: 0.1-6 mg / l of zinc ions, 0.1-6 mg / l of strontium ions, 0.1-6 mg / l of lithium ions, 0.1-20 mg / l of bromine ions, 0.16-0.6 mg / l of iodine ions, 0.005-0.05 mg / l of selenium ions, 1-180 mg / l of metasilicic acid, 0.5-7.9 mg / l of calcium ions, 0.5-3.90 mg / l of magnesium ions, 4-80 mg / l of kalium ions, 5-20 mg / l of radical vinegar ions, 5-26 mg / l of chlorine ions, 0.3-5 mg / l of manganese ions, 0.5-10 mg / l of ferrous ions and 0.01-2 mg / l of vanadium ions, proportioning, dissolving, blending, filtering and disinfecting to prepare the multielement mineral water. The invention adds bromine ion and vanadium ion, and over 30 mg / l of metasilicic acid, meanwhile supplements many mineral matters of which seven reach the national standard, and has features of a good taste, a simple technique and low cost.

Description

1. Technical Field [0001] The invention relates to a mineral-containing drinking water and a preparation method thereof, in particular to a multi-element mineral water and a preparation method thereof. 2. Background technology [0002] There are many types of drinking water on the market, which can generally be divided into pure water, natural mineral water and mineral water. [0003] Purified water can help supplement the water needed by the human body. It has a pure taste. It is one of the main types of people’s daily drinking water. However, purified water does not contain the minerals that people need, and cannot supplement the minerals that the human body needs due to excretion and consumption. Drinking pure water can lead to a lack of minerals in the human body, and this problem has attracted increasing attention in recent years. [0004] Natural mineral water contains minerals that are beneficial to human health and is one of the most popular drinking water, but natural mi...

Claims

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Application Information

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IPC IPC(8): A23L2/52A23L1/304A23L33/16
Inventor 周博周万城
Owner 周博