FI123994B - Apparatus for adjusting fluid properties - Google Patents

Description

APPARATUS FOR ADJUSTING LIQUID PROPERTIES

The invention relates to an apparatus for adjusting the properties of a liquid contained in a capillary material in connection with fluid removal and drying of the material.

The invention is in principle applicable to the treatment of liquid contained in any capillary material. However, for the sake of concreteness, the application of the invention 10 to a liquid in wood is exemplified herein. In practice, the hardware alternatives or equivalent structures disclosed herein have been tested and found to work with wood liquids.

Drying of wood is discussed in PCT / FI2007 / 00214, 15 fluid recovery is described in FI20090043, and FI20090050. The use of electrolysis in fluid removal is discussed in my applications FI20090061 and FI20090065, "Method and apparatus for utilizing electrolysis", filed on 18.02.09. On the same date, application 20 FI20090064 "Method for Adjusting the Properties of a Liquid." The present application focuses on some hardware options for adjusting the properties of the fluid during the drying and / or fluid removal process.

25 Studies have shown that electric current can cause fluid to become growth-stimulating, negatively δ ionized, or antibiotically active, positively

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co ionized. They can be used in agriculture, animal husbandry o cm and even in human health and medicine. The resulting liquid may be

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x 30, of course, is used as a raw material in the chemical and pharmaceutical industries. Only cc imagination can be the limit when searching for other uses.

The invention makes it possible to continuously adjust the pH and ORP values of the fluid flowing out through the capillaries in the desired direction. ORP is the Oxidation Reduction Potential (ORP) of the solution. It should be noted that the pH of the water is about 6-7. The ORP of a healthy human body is about -70 mV. The equipment can be used to adjust 2 ORP values from -1000 to +1000 mV. In various health complications, the ORP value is significantly different from the normal, whereby it is possible to think of a fluid produced by the method of the invention to remedy the condition.

If desired, a neutral liquid is used in the apparatus of the invention for alternating current separation, and if desired, 10 ionized liquids are mixed with a direct current component which can be adjusted to obtain the desired ORP value for the liquid. At the same time, the pH of the liquid is also adjusted. The DC and / or AC component may include short pulses to activate the molecules.

The invention is particularly characterized by what is claimed.

A typical difference with the present invention compared to prior art apparatuses which electrically distribute liquids in differently ionized fractions is that instead of conventional membranes, the walls of wood cells and capillaries which act as nanofilms are used.

In practice, liquids of the same wood, but with different ends, with opposite properties, with completely different pH and ORP values, are obtained during the same process. As mentioned earlier, the fluid stimulates growth by negatively ionizing i g and by correspondingly positively ionizing it i t acting antibiotically. The properties of the fluids are 30 infinitely adjustable as required.

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g It can be assumed that the resulting fluids do not always go directly to use, σ> for recovery. Thus, it is desirable to have liquids of various pH and ORP values in bottles from which liquids of suitable values may be subsequently mixed.

g but that the onset of use may occur at different times in the liquid C \ 1 3

For example, agriculture has been the subject of much research into the conditions that each plant species must have in order to achieve the best possible success. There are also some fairly limited optimum conditions for germination of the seeds that will help to germinate best. Thus, it is possible to obtain optimum value irrigation fluid and / or nutrient solution by mixing liquids stored in wood in appropriate proportions.

10 The pH +, anode-stored fluid that can kill bacteria and thus help heal wounds and skin infections, is an excellent disinfectant.

Once the inflammation has been removed, healing can be accelerated by the use of a pH-cathodic side-recorded fluid on the subject.

15 These treatments do not require any use of antibiotics or chemicals, and therefore there is no need to fear their side effects.

We will examine the apparatus of the invention in light of a few preferred applications.

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Figure 1 illustrates the basic configuration of the apparatus. The current electrodes IA and IB supplied by the power supply 2 bring the wood 3 into the wood 3. Various versions of the power supply 2 are shown in Figures 2, 3, 4, 5 and 6. The liquid to be recovered accumulates in the tank 4. divided into parts, - 4A and 4B. In order to be able to mix the fluids with the desired properties, designed for a specific application, the apparatus is equipped with a mixing tank 4C.

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Er 30 Figure 2 shows AC input to equipment number 5, number 6 is

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adjusting transformer, number 7 is a difference transformer, number 8 is an AC output i ^ - §, number 9 is a rectifier, number 10 is a polarity O) o inverter, number 10a is a polarity reverser pull coil. With the number 11

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is marked a control device for the draw coil 10a. Alternating current is supplied through input 35 5 to the equipment. If a pH-neutral liquid is desired, only the alternating current supplied through the outlet 8, from which the current is applied to the electrodes IA and IB connected to the wood, is used. A suitable voltage is 5 4 regulated by a regulating transformer 6. For safety reasons, the isolating transformer 7 separates the equipment from a direct connection to the mains 5.

Electrolysis is achieved using a direct current taken after rectifier 9. Current is applied to electrodes IA and IB connected to the wood. This results in a lower output of wood fluids. In order to adjust the pH and ORP of the effluent, the apparatus 10 has a polarity shifter 10, which is controlled by a control device 11 with its pull coil 10a. As a result, the polarity switch 10 also distributes voltage and action time as desired asymmetrically.

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Figure 3 further shows an alternative with variants 3a and 3b. There are two control transformers 6 here. There are also two differential transformers 7. Thereby a center point 15 is obtained whose two sides can be obtained by both positive and negative semiconductors 20 by rectifiers 12, suitably diodes. The voltage on both sides is individually adjustable by means of adjusting transformers 6. Similarly to the system of Fig. 2, the apparatus of Fig. 3a has a polarity shifter 10, whose pull coil 10a is controlled by a control device 11. Its adjusting capabilities include the selection of the cycle time ΔΤ and the 25 pulse ratio AQ of the cycle ΔΤ. As a result, the polarity switch 10 also distributes the voltage and the action time, if desired, o asymmetrically. In order to get rid of the mechanical polarity ώ inverter 10 and its pull coil 10a, they can be replaced by thyristors 13 or other suitable semiconductors, as shown in Fig. 3b, x 30. Here again, the control unit 11 controls.

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o Fig. 4 shows a structure with adjusting transformers 6 o two pieces as well as differential transformers 7. In this alternative

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only the second difference transformer is followed by a rectifier, the number 9 is represented by 35 rectifiers. The AC portion heats the wood and the 5 DC portion causes electrolysis. These proportions can be adjusted individually or individually as desired. In order to adjust the pH and ORP of the outgoing fluid 5, the apparatus has a polarity changer 10 which is controlled by a control device 11. As a result, the polarity switch 10 also distributes voltage and action time as desired asymmetrically.

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In the version according to Fig. 5, there is only one adjusting transformer 6 and one isolating transformer 7. In Fig. 5A, rectifiers 13A and 13B provide half waves that are independently controlled by adjusting device 11A. In this way, the proportion of pulse Q1 of 15 half-waves T1 and of pulse Q2 of half-wave T2 can be separately adjusted. 5B has the same purpose accomplished by an electronic control device 11B that controls a triac, transistor or other known electrical component 14. FIG. 5C illustrates how semiconductor control provides a substantially polar-like result in which the second pulse 13A1 is distinctly different from pulse 13B1. .

Also, the other half until completely zero adjustment is done if necessary. Figure 5D shows how the current supplied to the wood is divided into a symmetric and asymmetric current component. The X portion 25 is symmetrical, which heats the wood, and the Y portion provides not only heat but also electrolysis. Figure 5D thus wishes to illustrate how the geometry of subtraction shows the ability of this γ portion to effect electrolysis.

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Preferably, this regulator 11 and its operating principle shown in Fig. 5 can also be applied instead of the regulator g shown in Fig. 3b, and in Figs. 2 and 4 it can replace the rectifier 9.

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The regulating transformers 6 and, in some cases, the isolating transformers 7 35 can be replaced by another adjustable power supply, a suitably adjustable generator.

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This is especially the case with mobile hardware, which can be used, for example, to dry logs at construction sites.

Fig. 6 shows yet another device version shown. The power supply 5 is followed by a control transformer 6 and a difference transformer 7, as in many other device versions. Similarly, electrodes IA and IB entering the wood are of a familiar type. This device version is equipped with two rectifiers 16A and 16B. The adjusting resistors 15A and 15B can separately regulate the positive and negative half waves and thereby achieve the desired asymmetry. In this case, both switches 17A and 17B are closed. Switches 17A and 17B can be used to select the direction of the current to be delivered to the wood when either is open and the other is closed. The switches may, of course, be electronic or mechanical. The rectifiers 16A and 16B may be of adjustable construction, as shown, for example, in Figure 5A (13A, 13B, 11A) By selecting the location of the control resistors 15A and 15B, it is possible to utilize the heat generated by the resistors in a process or environment.

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The invention is not limited to the above preferred embodiments, but may be modified within the scope of the claims.

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Claims (11)

Apparatus for controlling the properties of a liquid by means of an electric current which is recovered during drying of wood or other capillary material 5 comprising components (IA, IB) which supply an electrical current to the wood or other capillary structure, its side surfaces, characterized in that The pH and ORP values are adjusted during the fluid removal step by adjusting the electrical properties of the apparatus 10. Apparatus according to claim 1, characterized in that the different liquids to be recovered are introduced into different tanks (4A and 4B). 15 Apparatus according to claim 1, characterized in that the apparatus comprises at least one DC supply component. Apparatus according to claim 1, characterized in that the apparatus comprises at least one AC supply component. Apparatus according to claim 1, characterized in that at least one DC and / or AC component is adjustable. Apparatus according to Claim 1, characterized in that the apparatus comprises at least one component (10, 10A) * cc for polarity reversal S 30 x CL 1 Apparatus according to Claim 1, characterized in that the apparatus comprises at least one difference transformer (7). o 35 C \ J 8. Apparatus according to claim 1, characterized in that the apparatus comprises at least one adjustable power supply 5 (6). Apparatus according to claim 1, characterized in that the polarity reverser (10, 10A) is controlled by an adjustable control device (11, 11A, 11B). 10 Apparatus according to claim 1, characterized in that the apparatus comprises a third container 4C, wherein the liquids accumulated in the containers 4A and 4B are mixed in the desired ratio. Apparatus according to claim 1, characterized in that the apparatus comprises at least one power control resistor (15A, 15B) and at least one switch (17A, 17B) for selecting the half waves. δ CM 00 o CM CM X X Q. o o o o o CM