Device and method for detecting performance of functional material activated water

A technology of functional materials and activated water, applied in the direction of electrochemical variables of materials, can solve the problems of undiscovered, expensive, and expensive, and achieve the effect of ensuring data comparability, constant sample flow rate, and constant test temperature

Active Publication Date: 2013-07-10
HEBEI UNIV OF TECH
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  • Abstract
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  • Application Information

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Problems solved by technology

The indirect energy method is expensive to provide an external energy field and requires strict environmental conditions, so it is not suitable for animal drinking water treatment
[0004] In the prior art, the evaluation methods for detecting the activated water performance of functional materials are limited to the following descriptions. CN200310115089.8 proposes that after the action of ceramic materials with an emissivity>90%, the number of water molecules decreases, 17 The O-NMR spectrum half width becomes 83.25Hz by 113.69Hz, but the equipment used in the method for this method of testing activated water performance with nuclear magnetic resonance is expensive, also can't realize real-time monitorin

Method used

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  • Device and method for detecting performance of functional material activated water
  • Device and method for detecting performance of functional material activated water
  • Device and method for detecting performance of functional material activated water

Examples

Experimental program
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Example Embodiment

[0047] Example 1

[0048] according to Figure 1 to Figure 5 The shown embodiment installs the device for detecting the activated water performance of the functional material of the present embodiment, wherein the raw water storage tank 1 and the activated water storage tank 3 have external dimensions of 400 mm in length, 500 mm in width and 600 mm in height, and the material is 1.5 mm in thickness. The SUS304 stainless steel plate is welded; the water treatment bed 2 is a cylinder with a diameter of 200mm. In the water treatment bed 2, the concentric shaft sleeve 402 is installed at the bottom of the water tank 207 through the concentric shaft 206. The diameter of the body 302 is less than 200mm, the diameter of the water distribution hole 301 is less than 3mm, the water distribution tray bracket 208 is located at 80mm from the bottom of the water distribution tank 207, and 6 are evenly arranged; the distance between the two electrode sensitive heads is at least 50mm; the raw...

Example Embodiment

[0055] It can be seen that the detected functional materials copper-zinc alloy 10kg and infrared ceramics 6kg are functional materials with activated water performance. Example 2

[0056] Except that the water treatment bed 2 is a cylinder with a diameter of 225mm, the water separation tray brackets 208 in the water treatment bed 2 are located at 80 mm from the bottom of the water separation tank 207, and seven are evenly arranged, and the diameter of the water separation tray 209 is less than Except for 225mm, other parts of the device used to detect the activated water performance of functional materials are the same as those in Example 1.

[0057] The steps of the detection method of the above-mentioned device for detecting the activated water performance of functional materials are as follows:

[0058] The first step is to put 15kg of copper-zinc alloy and 8kg of infrared ceramics into the sample cell 202 through the charging hole 201 of the water treatment bed 2, and the...

Example Embodiment

[0064] Example 3

[0065] Except that the water treatment bed 2 is a cylinder with a diameter of 250mm, the water separation tray bracket 208 in the water treatment bed 2 is located at 80 mm from the bottom of the water separation tank 207, and 8 are evenly arranged, and the diameter of the water separation tray 209 is less than Outside 250mm, the other components of the device used to detect the performance of functional materials for activating water, the functional materials to be detected, and the test method steps are the same as those in Example 1.

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Abstract

The invention provides a device and method for detecting the performance of functional material activated water, which relate to water treatment. The device mainly comprises six parts including a raw water storage tank, a water treatment bed, an activated water storage tank, a detection and control unit, a water quality detection and control unit and a data processing unit, wherein the potential of hydrogen (pH) values and the oxidation reduction potential (OPR) of raw water and activated water are detected in real time in an on-line way by a raw water pH electrode and a raw water ORP electrode as well as an activated water pH electrode and an activated water ORP electrode; detected data is transmitted into the data processing unit by the water quality detection and control unit; and a real-time data curve and a history data curve can be displayed after data analysis and operation, and test results can be obtained. The device and the method can simply and rapidly detect the performance of the functional material activated water, so that materials with excellent performance for activating animal drinking water can be screened out.

Description

technical field [0001] The technical scheme of the invention relates to water treatment, in particular to a device for detecting the water activation performance of functional materials and a detection method thereof. Background technique [0002] Water is an important medium for biological metabolism. It can transport nutrients, oxygen, various enzymes and hormones to various tissue cells in the body, and at the same time take away waste from cell metabolism. Studies have proved that water enters and exits cells through protein channels on the cell membrane, and water molecule clusters can pass through this channel if the size of the water molecule cluster is smaller than the size of the water molecule channel. The water in nature is a chain cluster formed by hydrogen bonds. It is usually necessary to use functional materials to treat the water to change the structure of natural water and become weakly alkaline small molecule cluster water that can enter cells. This kind o...

Claims

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Application Information

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IPC IPC(8): G01N27/27
Inventor 丁燕梁金生孟军平朱海霞王丽敬
Owner HEBEI UNIV OF TECH
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