DE10016154A1 - Method and arrangement for introducing substances or substance mixtures into gases or liquids - Google Patents

Abstract

The invention relates to a method for the introduction of substances or substance mixtures into gases or liquids as transport or process mediums, with a reproducible homogenous distribution of the substances in the gases or liquids and with a wide concentration range. According to the invention, the substance (4), or substance mixture, to be introduced into the gas (5) or liquid, is injected by means of an injection system (1) or several injector systems and homogenised by means of a homogenator (3), or several homogenators. The substance introduction occurs in defined and reproducible units of the smallest of the dosage steps corresponding to the respective substance and transport and /or process mediums. The invention further relates to a device for carrying out the method for the introduction of substances or substance mixtures into gases or liquids.

Description

The invention relates to a method and an arrangement for the introduction of substances or mixtures of substances in gaseous or liquid transport or process media.

For technical processes as well as for the targeted stimulation of biological receptors it is necessary to transport substances into a gaseous or liquid Enter process medium, whereby a homogeneous distribution of the in the transport resp. Process medium to be introduced and a control option for the registered quantities are required. As a secondary condition, especially with the Stimulation of biological receptors is also a control range of quantity, which in one transport or process medium substances to be entered over several Orders of magnitude, as well as the possibility of generating even short impulses Substance in the transport resp. Process medium required.

The problem of material input into a transport or. Process medium is currently through simple mixing, atomization via nozzle systems or ultrasonic ver Fog from the liquid phase or, in the event of the entry of liquids with sufficient vapor pressure in gases at working temperature, via evaporation systems solved. The dosage of the substance and the entry in the transport resp. Process media are carried out in one step by using a single one physical effect. Here is the possibility of impulsive entry of Substances in the transport or process medium not, or only with considerable subsequent tax and regulatory expenses.

The disadvantage of known methods for introducing substances into the media is therefore that an instantaneous, quantifiable and reproducible mixture over a wide range Range of mixing ratios 'per se' not, or only with a larger one Metrological or control engineering effort can be realized because physical interactions between the substance to be entered and the Transport resp. Process medium (e.g. at different temperatures of the substances) as well as changes in the ambient conditions (with gases e.g. moisture and Pressure) can have a disruptive influence on the mixing behavior. For An approximate quantitative mix usually needs the physico chemical parameters of the substance to be entered and the transport resp.  Process medium are recorded during the substance application, respectively. a the corresponding device must be operated with this data before desired work area and for all expected environmental conditions be calibrated.

A process for the quantitative entry of substances in gaseous or liquid Transport or process media over a wide range of mixing ratios as well as with the possibility of substance entry without much device effort Being able to design in a pulsed manner is also important for technical processes and for targeted ones Stimulation of biological receptors is of great advantage.

The invention was based on the object of such a method and an arrangement to specify to carry out the procedure.

This object is achieved by the method having the features of claim 1 and Arrangement for performing the method with the features of claim 13 solved. The subclaims give useful features of the features Claims 1 and 13 again.

The method according to the invention is based on the quantitative entry and the Mixing (at least) is bimodal. It is done using at least one Fine dosing system (injector), in the way it is with piezo printheads, heating element Printheads or nozzle systems with an upstream pump system or others Microdosing pumps are used, the amount of the substance to be introduced defined and reproducible units of the smallest advantageous dosing steps passed to a device (homogenizer) containing the substance to be entered homogeneous in the transport resp. Process medium distributed.

Here, the injector can be separated from the homogenizer, or can be with it form a unit. The homogenizer can adapt to the physicochemical Requirements of the substance to be introduced or the transport or Process medium as (ultra) sound transducer, electromagnetic radiator (e.g. heat, microwaves, Light), as a particle source or as a combination of these mechanical, electromagnetic table and corpuscular excitation. The physical effect of the Energy input from the homogenizer can also be caused by a chemical reaction the homogenator. Here the injector "titrates" the reagent into the Homogenator, where only the product is created which goes into the gas phase; the leads to a consumption of the reactive homogenizer.

Depending on the physicochemical parameters of the substance to be entered, as well as the transport or Process medium can heat the walls  of the vessel or space in which the entry is made to be provided To minimize precipitation on the walls of the device.

In an advantageous embodiment of the method according to the invention, the Concentration of the substance to be entered in the transport resp. Process medium by the clock frequency of the injector and / or by recruiting further injectors controlled. The quantized, digital character of this control system results in a particularly simple way of connecting this method to the entry of substances in gases or liquids to digital control systems.

The discontinuous, quantized substance entry also allows depending the generation of defined, short, from the limit frequency of the injectors Substance pulses in the carrier medium.

The inventive method has the further advantage that bimodal character a change in the parameters of the injector or the Homogenator is possible without necessarily the parameters of the homogenizer or having to change the injector. This z. B. Adjustments changing environmental conditions (temperature, pressure, viscosity) It is possible to keep the quantities.

In an advantageous embodiment of this method, it is possible to use the Homogenator or in a step downstream of the homogenizer substance to be entered in a manner advantageous for further processing activate (e.g. activation by ultraviolet radiation) or e.g. B. by cooling the any substance to be introduced activated by the homogenizer deactivate.

In a further advantageous embodiment of this method, it is possible to Amount of substance entered using a sensor (e.g. for the entry of Substances in gases) and quantify them using a suitable method Injector (s) retroactive circuit to verify a precise substance entry. This would be the gas sensor described in DE 44 23 289, for example own.

In a further advantageous embodiment of the method, it is also possible with several substance-specific individual injectors resp. Groups of such Injectors and one for all injectors resp. Effective groups of injectors Homogenator or with different, injector-specific resp. for groups of Injectors specific homogenators defined mixtures of different Introducing substances into a transport or process medium  in this case a subsequent activation of the substances in one for the further Processing can be done advantageously.

In the arrangement according to the invention, one or more injector system (s) and one or more homogenizer (s) in the relevant vessel or room Arranged, the injector system (s) to be entered (s) Sustanz (s) and the transport or process medium is / are supplied to the vessel or space. In the subclaims are different embodiments for the injector and specified for the homogenator.

The method according to the invention is shown schematically in the drawing shown arrangement described in more detail.

An arrangement for introducing fragrances (essential oils) into air has at least one injector 1 for metering the fragrances to be introduced from a substance reservoir 2 , and a homogenizer 3 for homogeneous distribution of the substance 4 to be introduced in the transport medium air 5 .

A control unit 6 generates the control frequency for the injector 1 which correlates with the desired substance concentrations. When using several injectors (e.g. when composing several fragrances or complex smells), the device has a higher-level control unit 7 which, before reaching the limit frequency of an individual injector 1, has the frequency required to achieve a desired substance concentration on several control units 6 and their associated injectors, or the substance / mixture ratios required to generate complex odors, are distributed as a control command to the control unit. The control units 6 , 7 can also be designed as a control program for controlling driver stages for the injectors. When using several injectors 1 , a special control unit or. a control program specifically designed the recruitment of the injectors.

The arrangement optionally has a detector 8 , which in the mixture 9 of substance to be introduced in the transport or. Process medium makes a concentration determination of the substance to be entered and acts on the control 6 , 7 of the injector or the injectors in the event of a deviation from the intended value.

An activation unit 10 can also be provided, which in the mixture 9 of substance to be introduced in the transport or. Process medium a further activation of the registered substance, e.g. B. by radiation, cooling or heating.

Claims (25)

1. Procedure for the entry of substances or substance mixtures in gases or liquids as transport or. In the process medium with reproducible, homogeneous distribution of the substances in the gases or liquids and a wide range of concentrations by
that the substance to be introduced or the substance mixture is introduced into the gas or the liquid by means of one injector system or several injector systems and is homogenized by means of a homogenizer or several homogenizers
and that the substance entry takes place in defined and reproducible units of the smallest dosing steps adapted to the respective substance and the respective transport or process medium. 2. The method according to claim 1, characterized, that liquid substances or mixtures of substances are used as substances to be entered become. 3. The method according to claim 1, characterized, that as substances to be entered, liquid substances in solvents or mixtures of substances be used in solvents. 4. The method according to claim 1, characterized, that as substances to be entered, solids in solvents or solid mixtures be used in solvents. 5. The method according to claim 1, characterized, that as substances to be transferred into the liquid phase by cooling, under standard conditions gaseous substances or by cooling into the liquid Phase transferred, under standard conditions, gaseous substances in solvents be used.   6. The method according to claim 1, characterized, that as the substances to be entered, combinations of the above Substance classes are used. 7. The method according to claim 1, characterized, that the quantized entry of the substance or mixture of substances takes place in a pulsed manner. 8. The method according to any one of the preceding claims, characterized, that at least one injector is used per substance to be entered. 9. The method according to any one of the preceding claims, characterized, that groups of injectors resp. Groups of subgroups of injectors for Entry of substance mixtures are used. 10. The method according to any one of the preceding claims, characterized, that the amount of the registered substance resp. Substances measured, controlled or is regulated. 11. The method according to any one of the preceding claims, characterized, that the registered substance (s) are further activated in a subsequent step. 12. The method according to any one of the preceding claims, characterized, that the registered substance (s) are deactivated in a subsequent step. 13. Arrangement for performing the method for the entry of substances or substance mixtures in gases or liquids as transport or. Process medium with reproducible, homogeneous distribution of substances in the gases or liquids and with a wide concentration range, characterized in that one or more injector system (s) ( 1 ) and one or more homogenizers ( 3 ) are arranged together in one vessel or room , wherein the injector system (s) ( 1 ) the substance (s) to be entered ( 4 ) and the vessel or space the transport or process medium ( 5 ) is / are supplied. 14. Arrangement according to claim 13, characterized in that the injector system ( 1 ) is driven at a clock frequency and thus a pulse-quaffled entry of the substance ( 4 ) into the transport or process medium ( 5 ) is made possible. 15. The arrangement according to claim 14, characterized in that the injector system ( 1 ) is a piezoelectrically operated nozzle system. 16. The arrangement according to claim 14, characterized in that the injector system ( 1 ) is a thermoelectrically operated nozzle system. 17. The arrangement according to claim 14, characterized in that the injector system ( 1 ) is a nozzle with an upstream pump system. 18. The arrangement according to claim 14, characterized in that the injector system ( 1 ) is an electrostatic micropump. 19. The arrangement according to claim 13, characterized in that the homogenizer ( 3 ) on the physical effect of the energy input into the substance to be entered, respectively. Substances and / or in the transport resp. Process medium works. 20. Arrangement according to claim 19, characterized, that the energy input occurs through electromagnetic radiation or fields.   21. Arrangement according to claim 20, characterized, that the energy input takes place through heat radiation. 22. Arrangement according to claim 19, characterized, that the energy input occurs through mechanical action. 23. Arrangement according to claim 22, characterized, that the energy input is done by ultrasound. 24. Arrangement according to claim 19, characterized, that the energy input occurs through corpuscles. 25. Arrangement according to claim 19, characterized, that the energy input occurs through chemical reaction with the homogenizer.