Mineral preparation, raw material for the preparation, and methods for producing the mineral preparation and the raw material
A manufacturing method and technology of minerals, applied in mineral preparations, raw materials for mineral preparations, and mineral recovery fields, can solve problems such as poor calcium absorption rate, achieve low phytic acid content, good mineral absorption, and effective intake Effect
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Embodiment 1-3
[0036] Embodiment 1-3: Preparation of raw materials for mineral preparations
[0037] Degreased sesame seeds (Lot No. 1) were put into an electric furnace, heated to 800° C., and incinerated for 1 hour to obtain an incinerated product (incinerated product 1). Incineration was carried out in the same manner as above except that the incineration time was set to 2 hours and 3 hours, and incineration products 2 and 3 were obtained.
[0038] The ash content of each of the obtained incineration products was measured by the following method. First, a nickel crucible was placed in an electric furnace adjusted to 550° C., dried for 1 hour, then moved into a desiccator, cooled naturally for 30 minutes, and weighed. Repeat above-mentioned drying, cooling, weighing, the quality when weighing is compared with the quality when weighing before, measure the quality when difference is below 1mg as the constant weight of crucible (W 0 g). Then, put incinerated matter into the crucible, and a...
Embodiment 4
[0044] Embodiment 4: Raw materials for preparing mineral preparations
[0045] Degreased sesame seeds (Lot No. 2) were charged into an electric furnace, heated to 800° C., and incinerated for 3 hours to obtain incinerated matter (incinerated matter 4).
[0046] Determination of minerals in raw materials for mineral preparations
[0047] The contents of various minerals (magnesium, calcium, potassium, and other mineral components) in the incineration product 3 obtained in Example 3 and the incineration product 4 obtained in Example 4 were determined using the analytical methods described in Table 2 below. . The results are shown in Table 3.
[0048] Analytical method
magnesium
atomic absorption spectrometry
calcium
ICP Luminescence Analysis
Potassium
atomic absorption spectrometry
iron
O-phenanthroline absorption spectrometry
copper
atomic absorption spectrometry
zinc
atomic absorption spectromet...
Embodiment 5-7
[0054] Embodiment 5-7: modulation mineral preparation 1
[0055] After cooling the incinerations (incinerations 1-3) obtained in the above-mentioned Examples 1-3 to room temperature, an acidic aqueous solution (5-20% aqueous hydrochloric acid, sulfuric acid aqueous solution, lactic acid aqueous solution, lactic acid fermentation broth, acetic acid aqueous solution or acetic acid fermentation broth (brewing vinegar)). The acid reacts with the incineration to produce gas (carbon dioxide gas), and at the same time, the mineral components in the incineration are dissolved in the solution. Aqueous acidic solution was added until gas evolution ceased. The reaction product obtained after the reaction was terminated was filtered, and the filtrate was recovered, and the filtrate was spray-dried to obtain a mineral preparation.
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