NL1027669C1 - Distillation device to produce of clean water includes evaporation chamber of double layer flexible synthetic foil, inner membrane of flexible synthetic foil and outer membrane of flexible synthetic foil with empty space between membranes - Google Patents

Abstract

A transportable distillation device comprises an evaporation chamber composed of a double layer of flexible synthetic (plastic) foil and an inner membrane (11) comprising flexible synthetic (plastic) foil, and an outer membrane (10) of flexible synthetic (plastic) foil having an end to each other to create an empty space (13, 14) in between the inner and outer membranes. The empty space is capable of containing air or a mixture of gases for keeping the entire device in the upright position.

Description

1.

Methods and methods for producing clean (drinking) water.

The invention relates to methods and methods for cleaning contaminated or salt and / or brackish water by means of distillation methods and methods using solar energy for the purpose of producing clean drinking water.

Distillation of polluted water by means of solar energy removes almost all pollutants from polluted water. Distillation of contaminated water by means of solar energy is usually used for the removal of viruses, bacteria, nitrate, sodium, organic particles, heavy metals, chemicals, radioactive particles and the like. Distillation of water by means of solar energy removes 99.5% of all contaminants in polluted water. The 0.5% of the impurities that remain after the distillation process, usually organic particles, can be removed by means of, among other things, a (carbon) filter, (carbon) filters are not expensive and are usually placed between water inlet-15 or water outlet hose from the distillation facility.

Distillation of contaminated water by conventional means such as electricity, natural gas and oil is very expensive and not economical. This results in a high water price. This is certainly a problem for third world countries. Furthermore, such methods cause a considerable attack and burden on the environment and the living environment of humans and animals. An alternative was to investigate the possibilities of using solar energy for the distillation process.

Such a distillation apparatus and method with the aim of producing clean (drinking) water, using solar energy, I describe in detail in my Dutch Patent Application: 1026821 “Movable distillation apparatus and method for producing clean drinking water using solar energy. "

I also give in this aforementioned Patent Application a detailed disclosure of earlier examples of distillation devices and methods operating on solar energy 30 as can be found in the relevant international Patent classifications.

The distillation methods and methods for producing clean drinking water using solar energy according to the present invention are intended to bring about an improvement with respect to previous devices and methods.

35 1027669-2.

More specifically methods and methods relating to a mobile (mobile) distribution device for producing clean drinking water using solar energy that is cost-effective, simple to produce, simple in construction, lightweight, and mobile, and easy to store in a small space when the device is out of use.

5

What makes the methods and methods of the type mentioned in the preamble special compared to previous methods, methods and devices is that air or any other gas is used to hold up and maintain the entire structure of the movable distillation device , instead of heavy construction materials such as aluminum, plastic, steel, wood and the like, materials normally used in previous devices and methods. A further improvement with respect to previous devices and methods is, inter alia, that the air is also used as insulation material for the device.

This is important for the proper functioning of the device so that the accumulated solar heat is maximally stored in the device with minimal losses to the environment outside the device. By means of the method and method according to the present invention, it is no longer necessary to use expensive insulating materials, which makes previous devices so expensive and heavy in weight.

Various methods and methods according to the present invention will be explained below with reference to the exemplary embodiments and descriptions of the methods and methods according to the invention shown in the figures.

Figures 1 and 2 describe possible embodiments of the methods and methods according to the invention.

Figures 3 and 4 describe further possible embodiments of the methods and methods according to the invention.

The mobile (mobile) distillation apparatus using solar energy comprises an evaporation chamber made from an outer layer (membrane) made of flexible plastic (plastic) foil, and an inner layer (membrane) made from flexible plastic (plastic) foil, and is soldered together on the seams (ends). Any durable flexible plastic (plastic) film that is resistant to ultraviolet (solar) radiation and is resistant to high temperatures and is not toxic to humans can be used. Poly Propylene (PP) or heat-resistant Poly Ethylene (PE) can be used as a possible example.

35 1 027669-3.

The inner spaces, between the outer layer (membrane) and the inner layer (membrane), consist of air or any other gas mixture that is blown into the distillation device, between the outer layer (membrane) and inner layer (membrane) by means of an air - inlet valve.

A description of the numbered parts of Figure 1 of the various methods and methods according to the invention is as follows:

The user who wishes to use the distillation device buys or rents it from the relevant company, in empty and rolled up or folded state (so-called "KIT" form), step 1.111.

10 If the distillation device has been purchased, the user transports the distillation device in empty and rolled up or folded state to the location where clean (drinking) water must be available, steps 2, 102. The user then retrieves the distillation device in empty and rolled up or folded state, from the package, step 3,103. Thereafter, the user rolls or folds the distillation device apart and places the distillation device flat and flat on the substrate in question, step 4,104. The user then blows air into the distillation apparatus by means of e.g. blowing the mouth air into the distillation device through the air inlet valve of the distillation device, step 5,105. If the distillation device is subsequently blown full by means of air, and there is enough air in the distillation device to keep the structure upright and standing, close the air inlet valve 20 by means of a stopper or plug, step 6,106. As a next step, the distillation device is now positioned in the direction of the sun, such that any shadow sources cannot interrupt the light incident, step 7,107. The user then detaches the cover plate from the evaporation chamber, steps 8, 108. Now the contaminated, contaminated water to be cleaned or purified is added by the user to the evaporation chamber of the distillation device, step 9,109. If the user has filled the evaporation chamber of the distillation unit by a quarter with the contaminated water to be cleaned, stop feeding contaminated water, step 10,110. Next, the cover plate is again applied to the evaporation chamber of the distillation device, step 11, 11.

Sunlight now passes through the cover plate and ends up in the closed evaporation chamber of the distillation device. The distillation apparatus now begins to work, step 12, 112. Next, the user places a clean water collection tank or cup and the like under the clean water outlet hose of the distillation apparatus, step 13,113. The clean water collection tank or cup placed is now filled with clean purified (drinking) water that comes out of the distillation device 35 1027669-4.

flows, step 14,104. Then, when the clean water collection tank or cup is completely filled with the purified (drinking) water from the distillation device, disconnect the clean water collection tank or cup from the distillation device, steps 15, 105. The collected clean ( drinking water can now be used for consumption or for further use or other purposes, step 16,106. If (more) clean (drinking) water is then required again, repeat the above procedure and method from step 8,108 of Figure 1, steps 17, 107.

A description of the numbered parts of Figure 2 of the different methods and methods according to the invention is as follows:

If the user has collected enough clean drinking water, or if clean drinking water is no longer required, or if the user wants to move to another location, follow steps 1, 201. Next, the user of the distillation device first makes the cover plate separate from the evaporation chamber of the distillation apparatus and then remove this cover plate from the evaporation chamber of the distillation apparatus, step 2,202. Thereafter, the remaining contaminated water, which is still present in the evaporation chamber of the distillation apparatus, is taken from the evaporation chamber of the distillation apparatus, step 3,203. Subsequently, the user removes the air shut-off plug or stopper from the air inlet valve of the distillation device, steps 4, 204. Now the accumulated air automatically flows from the evaporation chamber of the distillation device, step 5.205. The distillation apparatus is now in an empty and flat state (without air), step 6,206. The user then makes a mixture of (contaminated) water and vinegar in a 75% / 25% ratio or uses any other non-toxic cleaning agent, step 7,207. Subsequently, the user pours the mixture of (contaminated) water and non-toxic cleaning agent into or over the evaporation chamber of the distillation apparatus, step 8,208. Then clean the evaporation chamber of the distillation apparatus by means of a brush and / or a cloth, step 9,209. It should be noted that it is also possible to clean the distillation device by putting the distillation device in a washing machine, if it is available. The user must then rinse the distillation device with (contaminated) water, until all the cleaning agent has been removed from the distillation device, steps 10, 210. The evaporation chamber of the distillation device is now completely clean and all accumulated residues are removed, steps 11, 211. Now the user must let the distillation apparatus dry in the sun until the distillation apparatus is completely dry, step 12,212. The cover plate is then placed again on the evaporation chamber of the distillation device by the user.

step 13.213. Now the user can roll up or fold the distillation device until the desired size is reached (the desired length and width), step 14,214. Subsequently, the user can, if desired, transport the distillation device to a new location where clean (drinking) water is required, or if desired, store the distillation device in a location where the distillation device must be stored and stored, step 15.215.

If the user subsequently needs clean (drinking) water again, repeat the procedure and method from step 4, 104 of Figure 1, step 16,216.

A description of the numbered parts of Figure 3 of the various methods and methods according to the invention is as follows:

The user who wishes to use the distillation device buys or rents it from the relevant company, in empty and rolled up or folded state (the so-called "KIT" form), step 1.301. If the distillation device has been purchased, the user transports the distillation device in empty and rolled up or folded state to the location where clean (drinking) water must be available, step 2.302. The user then retrieves the distillation device from the package in empty and rolled up or folded state, step 3,303. Thereafter, the user rolls or unfolds the distillation device, and places the distillation device flat and flat on the relevant substrate, step 4,304. Subsequently, a random (electric) air pump is connected by the user to the air inlet valve of the distillation device, step 5,305. Then a random power source such as e.g. a battery, solar cells and the like connected to the terminals of the air pump of the distillation device, steps 6, 306. The switch is now pulled over by the user, and the air pump of the distillation device starts to run, step 7.307. Air or other random gas now begins to flow into the distillation device via the air inlet valve 25 of the distillation device, step 8,308. If the distillation device is blown full, by means of air, or any other random gas, and there is enough air (gas) present in the distillation device to keep the structure upright, then flip the switch, step 9,309. The air pump now stops rotating, step 10,310. Subsequently, the user disconnects the air pump from the air inlet valve, and then closes the air inlet valve 30 by means of a stopper or plug, step 11,311. The user must now position the distillation device in the direction of the sun in such a way that any shadow sources cannot interrupt the light incident, step 12,312. Next, the user must check whether the cover plate is properly attached to the evaporation chamber of the distillation apparatus, step 13,313. Then connect the water inlet hose of the distillation device to the relevant water source, the water of which must be purified and cleaned, step 14,314, 1027669-6.

The contaminated water to be purified now flows into the evaporation chamber of the distillation apparatus until the water level preset by the float is reached, step 15,315. When the water entering the distillation device has reached the preset water level, the float cuts off the water supply to the distillation device, steps 16, 316. Then connect the (carbon) filter to the water outlet hose of the distillation device, the filter can also be connected to the water inlet hose of the distillation device, steps 17, 317. The sunlight now passes through the cover plate and enters the sealed evaporation chamber of the distillation device. The distillation apparatus now starts working, step 18,318. Subsequently, the user places a clean water collection tank 10 or jerry can, etc. under the clean water outlet hose of the distillation device, steps 19, 319. The fresh water collection tank or jerry can placed is now filled with clean purified (drinking) water that comes out of the distillation apparatus flows, step 20,320. The water level in the evaporation chamber has now fallen, and the float now opens the water supply via the water inlet hose of the distillation device, step 21,321. Contaminated water 15 then flows again into the distillation device, via the water inlet hose, until the preset water level is reached again, steps 22, 322. The float now closes the water supply, which via the water inlet hose the distillation apparatus flows in, again, step 23,323.

Then, when the clean water collection tank is completely filled with clean (drinking) water, the user disconnects the clean water collection tank from the distillation device, steps 24, 324. The collected clean (drinking) water can now be used for consumption or for other purposes, steps 25, 325. If (more) clean (drinking) water is then required again, repeat the above procedure and method from step 19,319 of Figure 3.

Steps 26, 326.

A description of the numbered parts of Figure 4 of the various methods and methods according to the invention is as follows:

If the user has collected enough clean (drinking) water, or if no (clean) drinking water is required anymore, or if the user wants to move to another location, follow steps 1, 401. The user then detaches the cover plate from the evaporation chamber, and removes the cover plate from the distillation device, step 2,402. Subsequently, the user removes the waste water drain plug or stopper from the waste water drain hose of the distillation device, step 3,403. The remaining contaminated water that may still be present in the evaporation chamber of the distillation apparatus now flows away from the evaporation chamber of the distillation apparatus, step 4,404. The evaporation chamber of the distillation apparatus is now in empty 1027669-7.

state (without water), step 5.405. Subsequently, the user puts the waste water drain plug / stopper back into the waste water drain hose of the distillation device, step 6,406. The evaporation chamber of the distillation device is now closed again, and can again contain water, steps 7, 407. The user then fills the distillation device with 5 (contaminated) water again, via the water inlet hose, step 8, 408. The evaporation chamber of the distillation installation is now again filled with (contaminated) water, step 9,409. The user then makes a mixture of (contaminated) water and vinegar in a 75% / 25% ratio or uses any other non-toxic cleaning agent, steps 10, 410. Let the above solution soak for at least an hour, longer is always better, this can be performed very well at night, step 11,411. Subsequently, the dirty water drain plug / stopper is again removed from the dirty water drain hose of the distillation device., Step 12,412. The solution of water and non-toxic cleaning agent now flows out of the evaporation chamber of the distillation device, step 13,413. Subsequently, the user rinses the evaporation chamber of the distillation device a number of times with (contaminated) water, until all deposits and residues have been removed from the evaporation chamber, and the evaporation chamber no longer contains any cleaning agent, step 14,414. The evaporation chamber of the distillation plant has now been cleaned, and completely cleaned, and all accumulated residues have disappeared, step 15.415.

It should be noted that small versions of the distillation device up to a few square meters of evaporation surface can also be cleaned by placing the distillation device in an empty state (without air or any other gas) in a washing machine, if it is available. Subsequently, the user allows the distillation device and the cover plate to dry in the sun until the distillation device is completely dry and no longer contains any water, steps 16, 416. If the distillation device and the cover plate are completely dry, then these become reassembled by the user, step 17,417. Next, the user sets the switch 25 which operates the air pump to the deflating position (position), step 18,418. The air pump starts to rotate in the opposite direction, as in steps 7 and 8,307,308 of Figure 3, step 19,419.

Air or any other gas contained in the distillation apparatus now begins to flow out of the distillation apparatus through the air valve and via the air pump. (It should be noted that the air inlet valve also includes the air outlet valve), steps 20, 420.

Subsequently, if all air or any other gas has run out of the distillation device, and the distillation device no longer contains any air or any other gas, then pull the switch that operates the air pump, step 21,421. The air pump now stops rotating, steps 22, 422.

1027669-8.

The distillation apparatus is now in an empty and flat condition (condition), step 23,423. The user then disconnects the water inlet hose from the distillation device from the respective water source from which the water was to be purified, step 24,424.

Subsequently, the user disconnects the random (electric) air pump from the air inlet valve of the distillation device, step 25,425. Then, disconnect the random power source from the (electric) air pump of the distillation device, steps 26, 426.

Next, the user must disconnect (disassemble) the (carbon) filter from the water outlet hose, step 27,427.

The user can now roll up or fold the distillation device until the desired size 10 (the desired length and width) is reached, steps 28, 428.

Subsequently, the user can, if desired, transport the distillation device to a new location where clean (drinking) water is required, or if desired, store the distillation device in a location where the distillation device must or can be stored , step 29,429.

If the user subsequently needs clean (drinking) water again, repeat the above procedure and method from step 4, 304 of Figure 3. Step 30,304.

1027669-

Claims (22)

Methods and methods for producing clean (drinking) water using solar energy for the distillation process, consisting of a movable (mobile) distillation device for producing clean (drinking) water, provided with an evaporation chamber which may contain the liquid to be distilled, characterized in that the distillation chamber is composed of a double layer of flexible plastic (plastic) foil that is soldered together at the ends, composed of an inner membrane consisting of flexible plastic (plastic) foil and an outer membrane, consisting of flexible plastic (plastic) foil that is soldered together at the ends, creating an empty gap between the inside and outside membranes, so that the resulting empty gap can contain air or any other gas mixture with The aim is to keep up, support and sustain the entire distillation installation. 15 Methods and methods for producing clean (drinking) water using solar energy for the distillation process comprising a movable (mobile) distillation device for producing clean (drinking) water, provided with an evaporation chamber containing the distillation chamber may contain liquid, characterized in that the distillation chamber is composed of a double layer of flexible plastic (plastic) foil soldered together at the ends, composed of an inner membrane consisting of flexible plastic (plastic) foil, and an outer membrane, consisting of flexible (plastic) foil that is soldered together at the ends, creating an empty space between the inside and outside membranes, so that the resulting empty space can contain air or any other gas mixture, with the aim that the air or any other gas mixture is also used for the heat insulation of the distillation device. 3. Any new or future method and method according to claim 1 or 2, characterized in that the construction of the device is composed of several layers of flexible plastic (plastic) foil that are soldered together at the ends, composed of an inner membrane, consisting of flexible plastic (plastic) foil and an outer membrane, consisting of flexible plastic (plastic) foil which is soldered to each other at the ends, creating an empty gap, 1 02 76 69 - 10. between the inner and outside membranes, so that the empty gap that is created can contain air or another gas mixture. Methods and methods for producing clean (drinking) water using solar energy for the distillation process, according to claim 1 or 2, characterized in that the distillation device is provided with a transparent cover plate composed of a double layer transparent flexible plastic (plastic) foil that is soldered to each other consisting of an inner membrane of flexible plastic (plastic) foil and an outer membrane of flexible plastic (plastic) foil 10 that is soldered together at the ends, creating an empty gap between the inner and outer membranes so that the void space can contain air or any other gas mixture, with the aim that the air or gas mixture is used for the heat insulation of the transparent cover plate. Methods and methods for producing clean (drinking) water using solar energy for the distillation process, according to claim 1,2 or 4, characterized in that the evaporation chamber and transparent cover plate can be attached to each other. Methods and methods for producing clean (drinking) water using solar energy for the distillation process, according to claim 5, characterized in that the evaporation chamber and transparent cover plate can be attached to each other by any form of connection material and construction method. 25 Methods and methods for producing clean (drinking) water using solar energy for the distillation process, according to one of the preceding claims, characterized in that any flexible plastic (plastic) foil or flexible insulation foil / material that is not toxic to humans can be used 30. 8. Methods and methods for producing clean (drinking) water using solar energy for the distillation process, according to claim 7, characterized in that any flexible plastic (plastic) foil or any flexible insulation foil / material then any new and future variant of 1027669- 11. flexible plastic (plastic) foil or flexible insulation foil / material that is not toxic to humans can be used. 9. Methods and methods for producing clean (drinking) water using solar energy for the distillation process, according to claims 1, 2, and 4, characterized in that the distillation device can be provided with one or more air - inlet valves or air outlet valves and air shut-off plugs. 9. 10. Methods and methods for producing clean (drinking) water using solar energy for the distillation process, according to one of the preceding claims, characterized in that the distillation device can be provided with any type of arbitrary air pump. 11. Methods and methods for producing clean (drinking) water using solar energy for the distillation process, according to claim 10, characterized in that the distillation device can be provided with any power supply and switch or control system. unit (s) for the purpose of controlling an air pump. Methods and methods for producing clean (drinking) water using solar energy for the distillation process, according to claim 10 or 11, characterized in that the power supply to the distillation device can be supplied with solar energy or solar cells. Methods and methods for producing clean (drinking) water using solar energy for the distillation process, according to claim 1,2 or 4, characterized in that the distillation device can be provided with one or more water inlet means than water outlet means or hoses. Methods and methods for producing clean (drinking) water using solar energy for the distillation process, according to claim 13, characterized in that means are provided for checking the water level of the distillation device. 35 1027669-12. Methods and methods for producing clean (drinking) water using solar energy for the distillation process, according to claim 14, characterized in that the distillation device can be provided with a float system. 5 Methods and methods for producing clean (drinking) water using solar energy for the distillation process, according to claim 1.2, or 4, characterized in that the distillation device is provided with one or more water collection trough, pipe , or piping (s). 10 Methods and methods for producing clean (drinking) water using solar energy for the distillation process, according to claim 1.2, or 4, characterized in that the distillation device can be provided with a water purification filter. 15 18. Methods and methods for producing clean (drinking) water using solar energy for the distillation process, consisting of a mobile (mobile) distillation device for producing clean (drinking) water, characterized in that the methods and methods for producing clean (drinking) water consist of and can be carried out according to the descriptions, as described in the numbers 101 to numbers 117 (steps 1 to 17) according to figure 1. 19. Methods and methods for producing clean (drinking) water using solar energy for the distillation process, consisting of a mobile (mobile) distillation device for producing clean (drinking) water, characterized in that the methods and methods for producing clean (drinking) water consist of and can be carried out according to the descriptions as described in the numbers 201 to numbers 216 (the 30 steps 1 to 16) according to Figure 2. 20. Methods and methods for producing clean (drinking) water using solar energy for the distillation process, consisting of a mobile (mobile) distillation device for producing clean (drinking) water, characterized in that the methods and methods for producing clean (drinking) water consist of and can be carried out according to the descriptions as described in numbers 301 to numbers 326 (steps 1 to 26) according to figure 3. 5 21. Methods and methods for producing clean (drinking) water using solar energy for the distillation process, consisting of a mobile (mobile) distillation device for producing clean (drinking) water, characterized in that the methods and methods for producing clean (drinking) water consist of and can be carried out according to the descriptions as described in numbers 401 to numbers 430 (steps 1 to 30) according to Figure 4. Methods and methods for producing clean (drinking) water 1S using solar energy for the distillation process, according to claims 1,2 and 4, characterized in that the distillation device can be provided with one or more waste water drainage hoses or waste water plugs. 1027669-