DE10329941B3 - Process for recovering highly concentrated ethanol solutions from low concentrated ethanol solutions for storing wind energy as electrical energy comprises evaporating a low concentrated ethanol solution and removing the vapor produced - Google Patents

Abstract

Process for recovering highly concentrated ethanol solutions from low concentrated ethanol solutions comprises evaporating a low concentrated ethanol solution by introducing energy below 95 %, removing the vapor produced by introducing energy again and by rectifying into an ethanol-rich liquid phase and an enriched liquid phase. The ethanol-rich vapor phase (ethanol/water vapor) is compressed using a compressor operated by a wind stream, is used as heating agent for the introduction of energy for the evaporation and rectification, and is condensed.

Description

The The invention relates to a method for obtaining highly concentrated ethanol solutions by using the electrical energy generated from wind energy, to use wind energy as chemical energy in ethanol solutions to save.

The Consolidation and storage of wind energy and its use on a larger scale is e.g. Currently with large Problems connected. Is by wind energy, especially by means of of offshore technology generates electricity, so must the electrical Onshore energy is passed on to consumers. Because of The high planned output poses a distribution problem There is also the problem of discontinuous onshore plants Energy generation due to fluctuations in wind strength. Become conventional power plants are still used for power balancing, so this is associated with efficiency losses and leads to a very inconvenient Total energy balance.

The solution would be that Storage of wind energy to stabilize production to reach. Mechanical energy can only be seen in one save low energy density. For this purpose, for example, compressed air storage been proposed. This involves compression and expansion the air turns more than 50% of wind energy into losses. Also be larger containers at high Pressure needed. Another way would be the transformation of mechanical energy into chemical energy e.g. B, by electrolysis. Here too, the efficiency is very low in the order of magnitude from 10-15% reached. Since the mechanical energy first in electrical, then in the chemical and finally (e.g. with the help of a fuel cell) converted into electrical energy must become.

thermodynamic let yourself simply show that storing purely mechanical energy cannot run efficiently. One way out would be to combine them with others Types of energy, e.g. E. Energy from biomass. Here mechanical and chemical "Combined" with each other to create an energy efficient energy storage and an economically justifiable To enable energy transportation.

The The invention has for its object a method for extraction highly concentrated ethanol solutions as propellant or fuel with the help of those generated from wind energy electrical energy to create wind energy as chemical Energy in ethanol solutions save.

This The object is achieved by the method according to claim 1.

The The essential idea of the invention is to provide a low-concentration, usually from fermentation a biomass-derived, ethanol solution by supplying energy with For the most part, ethanol / water vapor was compressed using wind power (over 95%) to evaporate the steam generated at low pressure in turn, through the supply of energy with the help of the wind current compressed ethanol / water vapor and through Rectification into an ethanol-rich vapor phase and a depleted one liquid Phase, whereby the ethanol-rich vapor phase (ethanol / water vapor) by a compressor operated with wind power or ethanol solution compressed and as a heating medium for used the energy supply of evaporation and rectification and is present as a highly concentrated ethanol solution after condensation. After cooling, the concentrate from the evaporation can be used as a fertilizer. The Ethanol-free phase from the rectification is advantageous as mashing water in the previous fermentation used.

An embodiment of the method according to the invention is in 1 shown and is explained in more detail below.

The fermentation tanks B1, B2 and B3 are supplied with raw materials R1 (substances containing starch and sugar) and R2 (water or an aqueous solution). There the fermentation takes place under anaerobic conditions and with the help of microorganisms. After fermentation, an aqueous ethanol solution with a concentration of 8-13 mass% is formed. The low-concentration ethanol solution F is first preheated in a preheater and then fed to an evaporator W2. Here the ethanol solution evaporates to more than 95% and reaches the downstream rectification column K as a vapor phase. The resulting concentrate S1 leaves the evaporator and can be used as a fertilizer after cooling. In the rectification column K, the ethanol / steam water mixture present as the vapor phase is separated into a highly concentrated top product and a depleted bottom product. The concentration of the top product depends on the column pressure and on the temperatures at the bottom and at the top. At atmospheric pressure, a concentration of approx. 96 mass% can be achieved in the top product. For energetic operation of the column, the vapor highly concentrated with ethanol is drawn in at the top of the column by a compressor V and compressed to a higher pressure; this also increases the saturation temperature of the steam. So the compressed steam can be used as a heating medium. A partial stream PR1 is used to heat the column evaporator W3 at the bottom of the column, while the other partial flow PR2 heats the evaporator W2 provided. Both partial flows condense through heat emission and are collected in liquid form in the storage container B4.

The Compressor V is driven by an electric motor M, which obtains the required electricity from wind turbines. For the low wind Time is a drive over an internal combustion engine VB is provided, which with a highly concentrated ethanol solution TM is removed as a propellant from the storage container B4. ever either the electric motor M or the internal combustion engine as required VB in or out. In this way you achieve a steady Operation directly or indirectly through the supply of wind energy generated electrical energy.

On the reservoir B4 reaches a partial flow R as a return into the column head during the Sub-stream P is withdrawn as a product and after heat emission in preheating W1 in counterflow to the incoming, low-concentration, ethanol solution F im product container B5 is collected. From there, the highly concentrated ethanol solution is called high-quality fuel or fuel for recycling.

At the Column sump, the practically ethanol-free water phase S2 is drawn off. This can be in the fermentation tanks B1, B2 and B3 can be used as mashing water. This is a residue-free Production guaranteed.

• – Mit Hilfe von vergärbarer Biomasse kann Windenergie in Form von chemischer Energie gespeichert und einer Verwertung (Treibmittel, Brennstoff) zugeführt werden.
• – Es wird eine Verstetigung der durch die Windenergie erzeugten elektrischen Energie erreicht.
• – Das gewonnene Produkt, hochkonzentrierte Ethanollösung, hat einen universellen Anwendungscharakter und kann sowohl in weiteren Kraftwerken als auch in Fahrzeugen verwendet werden.
• – Das Problem der Verteilung der elektrischen Energie über Hochspannungsleitungen tritt nicht mehr auf.
• – Es werden ausschließlich regenerative Energien (Windenergie, Biomasse) eingesetzt.
• – Für die Agrarwirtschaft wird eine neue Chance eröffnet, um neue Rohstoffe zu gewinnen.
• – Es wird im Gegensatz zu den bisher versuchten Speichertechniken ein hoher Wirkungsgrad der Energiespeicherung (Größenordnung ca. 70%) realisiert.

The described method has the following advantages:

• - With the help of fermentable biomass, wind energy can be stored in the form of chemical energy and recycled (propellant, fuel).
• - The electrical energy generated by wind energy is stabilized.
• - The product obtained, highly concentrated ethanol solution, has a universal application character and can be used in other power plants as well as in vehicles.
• - The problem of the distribution of electrical energy via high-voltage lines no longer occurs.
• - Only regenerative energies (wind energy, biomass) are used.
• - A new opportunity is opened for the agricultural industry to obtain new raw materials.
• - In contrast to the previously tried storage technologies, a high efficiency of energy storage (order of magnitude approx. 70%) is realized.

Claims (5)

Process for obtaining highly concentrated ethanol solutions from low-concentrated ethanol solutions by using the electrical energy generated from wind energy, characterized in that a low-concentrated ethanol solution vaporizes more than 95% by supplying energy and the resulting steam in turn by supplying energy and by rectification into an ethanol-rich vapor phase and an enriched liquid Phase is separated, wherein the ethanol-rich steam phase (ethanol / water vapor) is compressed by a compressor operated with wind power and is used as a heating medium for the energy supply of the evaporation and rectification and condenses in the process. A method according to claim 1, characterized in that the compressor is used to compress the ethanol-rich vapor phase both with a wind power supplied electric motor and with an internal combustion engine working with the concentrated ethanol solution is operated. A method according to claim 1, characterized in that the highly concentrated ethanol solution obtained as condensate is collected, partly for pre-supplying the internal combustion engine, partly as returns rectification and partly as a product, which after cooling the Process leaves, used becomes. A method according to claim 1, characterized in that the low-concentration ethanol solution before evaporation in the Countercurrent to the highly concentrated product leaving the process solution preheated becomes. A method according to claim 1, characterized in that the depleted water phase leaving the rectification is used to mash the biomass in an upstream fermentation.