DE102006038983A1 - Obtaining water from atmospheric air with a device for recovering water from atmospheric air, comprises providing a fluid sorbent for sorption of water, along a sorption path, preferably at a guidance element for channelizing the sorbent - Google Patents

Abstract

Obtaining water from atmospheric air with a device for recovering water from atmospheric air, comprises providing a fluid sorbent for sorption of water, preferably a brine solution with a hygroscopic salt, at least along a sorption path, preferably at a guidance element for channelizing the sorbent; and providing at least a metering device with a feed inlet for dispensing the sorbent to the guidance element and with at least a pressure generating unit, for the subjection of the fluid sorbent that is arranged in a sorbent buffer to pressure, in which biomass e.g. food are produced. Obtaining water from atmospheric air with a device for recovering water from atmospheric air, comprises providing a fluid sorbent for sorption of water, preferably a brine solution with a hygroscopic salt, at least along a sorption path, preferably at a guidance element for channelizing the sorbent and providing at least a metering device with a feed inlet for dispensing the sorbent to the guidance element and with at least a pressure generating unit, for the subjection of the fluid sorbent that is arranged in a sorbent buffer to pressure, in which biomass, such as e.g. food and/or energy crops or the like are produced with the water that is obtained from the atmospheric air; and then treating the produced biomass and/or the biomass components with the help of a hydrothermal carbonation unit for the hydrothermal treatment of the biomass to produce at least a carbonaceous intermediate product and/or a water-containing liquid; and then using the intermediate product and/or the water-containing liquid for the production of other biomass and/or for the generation of energy, preferably electrical energy and/or heat energy and/or liquefaction of coal and/or the fertilization of soils.

Description

The The invention relates to a process for recovering water from atmospheric Air according to the preamble of claim 1.

At many places on earth, especially in semi-arid or arid areas such as. in parts of Israel, Egypt, the Sahel or numerous hot deserts, which in a clear Distance to the sea are, at least throughout the year no drinking water supplies available. In addition to the transport of drinking water here is only the possibility of this from humid air.

In many ways, condensers for obtaining condensable water from atmospheric air with a coolable cold storage are already known, wherein the relatively humid atmospheric air is cooled below the dew point (see. DE-PS-28 10 241 . DD 285 142 A5 ).

In addition, devices are known which bind by means of an adsorptive or absorptive material such as a salt, for example sodium chloride, or the like atmospheric water in an absorption phase. Here, the salt or the corresponding brine solution is generally stored in a liquid container, wherein the water level or viewed in the vertical direction upper side of the salt or brine is to be regarded as a water adsorbing or absorbing surface. In a desorption phase, this salt-water solution or brine is dehumidified to obtain the drinking water and the salt is again made available for absorption (cf., for example, US Pat DE-PS 2 660 068 . DE 198 50 557 A1 ).

adversely in these methods or devices, however, that for the appropriate humans and / or animals now water partly available is, but not enough Food and / or energy to live etc. is available.

task the invention it is in contrast, a A method of proposing improving care for humans and / or animals becomes.

These Task is, starting from a method of the aforementioned Art, solved by the characterizing features of claim 1. By in the subclaims mentioned measures are advantageous embodiments and further developments of the invention possible.

Accordingly a method according to the invention is characterized characterized in that with the water obtained from atmospheric air Biomass, such as Food and / or "energy crops" or the like, is generated and then the biomass produced and / or parts of the biomass with a hydrothermal carbonation unit for hydrothermal treatment is treated by biomass, so that at least one carbonaceous Intermediate and / or a liquid comprising water is generated, and then the intermediate and / or the liquid comprising water to generate further biomass and / or to generate energy, in particular electrical energy and / or heat energy, and / or for liquefaction of coal and / or fertilizer of soils is used.

The Hydrothermal carbonation (such as "aqueous carbonization at elevated temperature") is a chemical Process for the simple and highly efficient production of lignite, synthesis gas, liquid petroleum precursors and humus from biomass with the release of energy. The process, which takes place in nature in 50,000 to 50 million years Lignite-emergence ("Coalification") within less Technically imitated hours, was by Markus Antonietti at the Max Planck Institute for colloid and interface research developed in Potsdam.

at the previously used Method of converting biomass into fuels is carbon efficiency, d. H. the proportion of carbon initially contained in the biomass, the later in the recyclable end product is contained, relatively low: in the alcoholic fermentation is the carbon efficiency 67%, in the anaerobic conversion to biogas 50% and in charcoal production by carbonization about 30%; in the production of humus by composting is the carbon efficiency only at 5 to 10%. The unused portion escapes as Carbon dioxide or in the conventional composting, too as methane into the atmosphere; Both gases are considered harmful to the climate. additionally becomes heat in these processes free, which is not used yet.

The Problem in the production of biodiesel from oil crops is the fact that only in the fruits contained energy can be used; On the other hand, you could do the whole thing Using plant for fuel production, it would be possible when growing fast-growing plants such as willow wood, reeds or forest, the energy yield with the same acreage increased tenfold. The hydrothermal carbonization allows for the first time, almost the whole carbon contained in the biomass to the fuel or to use humus generation.

Sequence of hydrothermal carbonization

In a pressure vessel biomass, esp special vegetable material, (simplified in the following reaction equation as sugar with the formula C6H12O6 circumscribed) together with water and a small amount of a catalyst with exclusion of air to 180 ° C heated. The ongoing reaction is exothermic, ie energy is released. After 12 hours, the starting materials are completely reacted and there is an aqueous sludge of porous lignite particles (C6H2O) with pore sizes between 8 and 20 nm. The reaction equation for this case is: C ₆ H ₁₂ O ₆ → C ₆ H ₂ O + 5 H ₂ O ΔH = -1.105 kJ / mol

The Reaction can be stopped in several stages with incomplete dehydration, where you get different intermediates. If canceled after a few Minutes arise so-called liquid Intermediates, precursors of petroleum, however, their handling is very difficult because of their high reactivity is. Subsequently, humus forms, which takes about 8 hours is present as an intermediate.

The Hydrothermal Karbonisierungseinheit works in principle so like a pressure cooker. The pressure vessel is filled with any vegetable Filled products, So with leaves, straw, grass, pieces of wood or pine cones. To There is still water and a pinch of catalyst. Then the pot closed and the whole thing under pressure and Luftabschluss for twelve hours heated to about 180 degrees. After the mixture has cooled, the pot is opened: He contains a black broth - finely distributed spherical Carbon particles in water.

all Carbon that was bound in the plant material now lies in the form of these particles, as small, porous lignite beads: you can directly or (which would be more effective) be burned in fuel cells, but also for the production of Gasoline, diesel or other chemicals. As the hydrothermal carbonization not abruptly, can be during the Process as well gain interesting intermediates: After just a few minutes you will find a precursor in the pressure vessel of petroleum, and while a later one Phase forms pure humus.

captivating is the fact that all these transformations without any loss run on carbon, the process therefore with one hundred percent Carbon efficiency works.

And In addition, the carbonation process works exothermically, So even provides energy. He is doing so with all other methods Biomass energy to draw, far superior and could be the Paving the way to an absolutely environmentally neutral energy industry.

Examples of other uses The resulting coal slurry could be used to burn or operate novel fuel cell types with an efficiency of 60, as currently being researched at Harvard University. For the production of fuels, the carbon-water mixture would first have to be heated more strongly, so that so-called synthesis gas, a gas mixture of carbon monoxide and hydrogen, is formed: C ₆ H ₂ O + 5 H ₂ O → 6 CO + 6 H ₂

Out let this synthesis gas over the Fischer-Tropsch process Make gasoline. Alternatively, could the liquid ones Intermediate involved in the incomplete implementation of biomass be used for fuel and plastic production.

Of the artificially produced humus could for re-greening eroded surfaces be used. By thus increasing plant growth could be additional Carbon dioxide can be bound from the atmosphere, so that in the end, a carbon efficiency greater than 1 or a negative CO2 balance would be achievable.

According to the invention, the hydrothermal Karbonisierungseinheit with a device for recovering water from atmospheric air, in particular a flowable sorbent for sorption of water, in particular a brine solution with a hygroscopic salt such as LiCl, and at least along a Sorptionsstrecke sorption is provided wherein, in particular, the flowable sorbent is arranged at least along the sorption section substantially on a guide element for guiding the sorbent, and wherein in particular at least one dosing unit with at least one metering orifice for metering the sorbent to the guide element and at least one pressure generating unit for pressurizing the flowable sorbent disposed in a sorbent reservoir is provided, combined in an advantageous manner. This may preferably be like the device for obtaining water from atmospheric air according to the EP 04 738 571 be formed. This is also known as the so-called "Alpha Spring" known.

The Combination with renewable energy, especially photovoltaic energy is especially special in arid and sun-rich regions of the world Advantage.

Also is the use of the intermediate in the aforementioned fields as a substrate and / or fertilizer or soil material such as humus or the like for the existing soils or cultivation fields advantageous.

According to the invention, not only can the supply of drinking water to humans and / or animals and / or plants be improved in numerous areas of the earth, but moreover an adequate supply of food and / or energy can be ensured permanently and in an environmentally sound manner. Accordingly, such a, preferably crosslinked, process or system according to the invention (cf. 1 ) Sustainable in the sense of Sustainable Development.

Claims (16)

A method for obtaining water from atmospheric air with a device for obtaining water from atmospheric air, wherein in particular a flowable sorbent for sorption of water, in particular a brine solution with a hygroscopic salt and at least along a Sorptionsstrecke sorption is provided, in particular the flowable Sorbent is arranged at least along the sorption substantially to a guide element for guiding the sorbent and wherein in particular at least one metering unit is provided with at least one metering for metering the sorbent to the guide element and at least one pressure generating unit for pressurizing the arranged in a sorbent reservoir flowable sorbent, characterized characterized in that the biomass recovered from atmospheric air, such as food and / or "energy crops" or the like, is generated and then the produce te biomass and / or parts of the biomass is treated with a hydrothermal Karbonisierungseinheit for hydrothermal treatment of biomass, so that at least one carbonaceous intermediate product and / or a liquid comprising water is generated, and then the intermediate product and / or the liquid comprising water to produce is used by further biomass and / or for the production of energy, in particular electrical energy and / or heat energy, and / or for the liquefaction of coal and / or for the fertilization of soils. Method according to claim 1, characterized in that that at least one solar energy unit, in particular a photovoltaic system, at least partially for powering the recovery device from atmospheric water Air and / or the hydrothermal Karbonisierungseinheit for hydrothermal Treating biomass is used. Method according to one of the preceding claims, characterized characterized in that the water of the device for obtaining Water from atmospheric Air is used as drinking water. Method according to one of the preceding claims, characterized characterized in that the hydrothermal Karbonisierungseinheit for Hydrothermal treatment of biomass as a heat generating unit for production of heat, especially for the Apparatus for recovering water from atmospheric air, is formed. Method according to one of the preceding claims, characterized characterized in that the carbonaceous intermediate and / or the liquid comprising water used for electrical and / or thermal energy production become. Method according to one of the preceding claims, characterized characterized in that the carbonaceous intermediate and / or the liquid comprising water converted into electrical energy with a fuel cell unit becomes. Method according to one of the preceding claims, characterized characterized in that the hydrothermal Karbonisierungseinheit the carbonaceous intermediate produced as humus. Method according to one of the preceding claims, characterized characterized in that the hydrothermal Karbonisierungseinheit the carbonaceous intermediate as coal, especially as lignite and / or coal. Method according to one of the preceding claims, characterized characterized in that the hydrothermal Karbonisierungseinheit the carbonaceous intermediate produced as gasoline and / or diesel. Method according to one of the preceding claims, characterized characterized in that the hydrothermal Karbonisierungseinheit the carbonaceous intermediate produced as a solid and / or liquid fertilizer for soils. Method according to one of the preceding claims, characterized characterized in that the soil biomass for the generate hydrothermal carbonation unit. Method according to one of the preceding claims, characterized characterized in that the hydrothermal Karbonisierungseinheit the Biomass with an overpressure applied. Method according to one of the preceding claims, characterized characterized in that the hydrothermal Karbonisierungseinheit the Biomass with heat, in particular with about 180 ° Celsius applied. Method according to one of the aforementioned An Claims, characterized in that the hydrothermal Karbonisierungseinheit treated the biomass more, in particular three, five, eight or twelve hours. Method according to one of the preceding claims, characterized characterized in that the hydrothermal Karbonisierungseinheit least used a catalyst for the catalytic treatment of the biomass. Method according to one of the preceding claims, characterized in that a catalyst comprising at least citric acid used for the catalytic treatment of biomass.