NL1015440C2 - Chemical analysis device for liquid waste products, especially manure, comprises sensor located in outlet for liquid holding vessel - Google Patents

Abstract

A sensor is provided in the outlet for the liquid vessel. The sensor is connected to an electronic processor, which in turn is connected to an electronic storage and display unit. A device for carrying out a chemical analysis of a liquid waste material (especially manure) inside a vessel with an outlet includes a sensor in this outlet for analysis of the liquid as it flows out of the vessel. The sensor is connected to an electronic processor, which in turn is connected to an electronic storage and display unit. An Independent claim is also included for a chemical analysis method carried out using this device.

Description

Brief indication: Device for chemical analysis of a waste liquid contained in a container, as well as a method for performing a chemical analysis of a waste liquid contained in a container.

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The present invention relates to a device for chemically analyzing a waste liquid, in particular manure, contained in a container, which container is provided with a discharge member. The present invention further relates to a method for chemical analysis of a waste liquid, in particular manure, contained in a container, which container is provided with a discharge member.

In the context of current environmental legislation, agricultural mineral records must be kept very precisely. This means that the farmer must draw up a measuring protocol in which it is kept exactly which chemical constituents are present in, for example, manure, in particular with regard to phosphate and nitrogen emissions. In addition, the potassium and dry matter content will also play an important role in the future. It should be clear that the legislation imposed by the government 20 requires in particular that the chemical measurements taken are reliable. Thus, a number of chemical laboratories in the Netherlands are accredited to carry out these measurements. The measurements of these laboratories are generally checked using so-called ring tests or blind tests, so that the quality of the 25 laboratories can be compared. However, practice has shown that there are major problems in carrying out these manure analysis methods which cause large variations in the measured chemical constituents, in particular the phosphate and nitrogen contents. It is believed that these problems are mainly due to the fact that sampling is often not reliable due to the fact that the waste liquids, especially slurry, can be considered as having a very inhomogeneous composition. It is therefore difficult for the farmer to maintain high-quality mineral accounts. In addition, it is impossible to estimate in advance the expected content of phosphate and nitrogen in an amount of slurry. The latter aspect can be particularly disadvantageous for a farmer because it can result in a large fine imposed by the 1015440 2 government because the farmer would thus exceed the permitted emission limit. As a result, farmers will be careful with manure spreading in agricultural areas to avoid exceeding legally permissible emission limits. In practice, this often means that the outlets for slurry decrease and therefore the surpluses will increase. Thus, using current measurement methods, a large amount of slurry is sampled and shipped to one of the accredited laboratories. Such an operation requires a large amount of time, while the costs are also considerable. As a result of this long waiting period, in practice there is often talk of fertilizing the land considerably below the legally permissible standard, because the farmers build up a so-called safety margin for themselves. Such under-fertilization is moreover disadvantageous because it will often be supplemented later with expensive fertilizer. Another aspect of this restrained fertilization is that agricultural areas, which are close to so-called surplus areas, are hardly supplied with manure anymore. This means that the manure has to be moved over a greater distance, which entails a significant cost increase.

The object of the present invention is thus to provide a measuring system with which disposal problems and disposal costs of manure are minimized, wherein, in addition to a calibrated measurement, a reliable, accurate and rapid sample collection is possible, so that immediately after the unloading or loading of the waste liquid, in particular the slurry, the contents of the chemical substances are known.

Another object of the present invention is to provide a device for the chemical analysis of a waste liquid, in particular manure, which is contained in a container, which device must be easy to use in practice and, moreover, is insensitive to failure.

The device as mentioned in the preamble according to the present invention is characterized in that a sensor for chemical analysis of the waste liquid guided by the discharge device is located in the discharge member, which sensor is connected to an electronic calculation unit, which electronic calculation unit is connected to a electronic storage and display unit.

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It should be noted that the discharge member is to be regarded as a conduit through which the medium to be sampled, in particular a liquid-like composition, in particular manure, is passed, which can take place during both loading and unloading of the liquid. Therefore, such a member can be regarded as both a discharge member and a supply member. The term "container" as used herein should be regarded as a storage unit for the medium to be analyzed, in particular manure. The container can thus comprise, for example, a manure basin, a manure transport vehicle or a manure spreading vehicle 10. In addition, the container may also comprise a laboratory measuring arrangement in which thus manure samples already taken in a stationary condition are subjected to the chemical analysis according to the present invention.

Using the present device, the analysis time and analysis costs can be considerably reduced compared to the methods currently used and the sampling will also be more reliable because the chemical composition of waste liquid is continuously measured. In addition, the analysis results of the waste liquid are immediately known, so that the waste liquid can be immediately used for, for example, spreading on a piece of arable farming! and.

It is particularly preferred in the present apparatus that a sensor of the near infrared (NIR) spectroscopy type or a sensor of the type RAMAN be used.

For measurements in the NIR region, the following 25 wavelength regions are preferred from the point of view of signal strength and unwanted interference from other chemical components: 1320-1390 nm, 2000-2125 nm and 2175-2325 nm for nitrogen and 2000-2125 nm and 2175 -2325 nm for phosphorus.

The aforementioned technologies are particularly suitable for making very fast on-line measurements compared to current measuring methods, so that the costs per analysis will be low. These technologies have also proven to be insensitive to inhomogeneous waste liquids and are therefore particularly suitable for slurry.

It is further preferred that in the present device the discharge member is also provided with an instrument for measuring the amount of waste liquid passed through the discharge member, which instrument is additionally connected to the electronic calculation unit. . Because both the flow rate and the composition of the waste liquid are measured, exactly the total amount of the chemical analyzed is known.

In a special embodiment of the present device it is preferred that the weight of the container is measured continuously. In such a situation, the amount of supplied or removed manure per unit time is thus accurately known, so that exactly the total amount of chemical analyzed is known. Such a weight determination can for instance take place via a so-called on-board weighing system or by weighing on a weighbridge. It is also possible for the container to be subjected to a so-called total weight determination, in which the weight of the container is measured before and after the discharge and / or pick-up of the medium to be analyzed. Such an embodiment is particularly desirable if the present invention is applied in a stationary arrangement in, for example, a laboratory.

In a special embodiment of the present device, it is desirable to position the sensor for chemical analysis in a so-called bypass or bypass. The bypass is particularly desirable if a low flow rate of the fluid to be analyzed is required. The liquid passed through this diversion can then be converted to the total amount of liquid discharged.

The present invention further relates to a method as stated in the preamble, which method is characterized in that the waste liquid is removed from the holder via the discharge member, which discharge member is provided with a sensor which measures the chemical composition of the waste measuring flowing liquid waste, the sensor supplying a measuring signal to an electronic calculating unit, in which electronic calculating unit the measuring signal is processed, after which the signal thus processed is delivered to an electronic storage and display unit.

It is preferred that a sensor of the near infrared (NIR) spectroscopy type or of the RAMAN type is used, which sensor in particular continuously measures the chemical composition.

The operation 35 performed in the electronic calculation unit is preferably performed using a calibration curve, which calibration curve shows the relationship between the measurement signal and the chemical content, preferably potassium, dry matter, phosphate and / or nitrogen. By a particular choice of the wavelength ranges, as described in detail above, the present inventors have found a relationship between the absorbed light pattern or spectrum and the intended chemical components.

Due to the high inhomogeneity of the medium to be analyzed, in particular manure, differences in the obtained light spectrum may arise which are not due to the concentration of the chemical components. The strong inhomogeneity is mainly due to the differences in particle size of the sample. It is thus possible that the spectrum obtained undergoes a shift, a so-called offset shift, or possibly other effects. It is therefore preferred in the present invention to pre-process the "raw" spectrum after which the corrected spectrum is applied in the calibration. Such pre-processing can take place either in hardware, for example via implementation of software in electronics or via an optical correction, in particular a special measuring head which can correct directly for these effects, as well as in software. A software pre-processing includes, for example, subjecting the raw spectrum to a derivative determination, optionally in combination with a noise suppressor.

It is further preferable that an instrument is arranged in the discharge means that measures the amount of liquid discharged which is discharged by the discharge element, which instrument generates a flow signal which is supplied to the electronic calculation unit, whereby a value is calculated corresponding to the total quantity chemical released by the container. In addition, in certain embodiments it is desirable for the container to be provided with an instrument for measuring the weight of the container as a function of time, for example via a so-called on-board weighing system or by weighing 30 on a weighbridge, which instrument generates a flow signal which is the electronic unit of account is issued with a value calculated corresponding to the total amount of chemical discharged or absorbed by the holder. In certain embodiments it is also possible that both the holder and the discharge member are provided with an instrument for measuring the weight.

Using the present invention it is therefore possible to fertilize an agricultural parcel exactly to the standard set by the government 1015440 6, because the analysis data of a quantity of slurry are known immediately and accurately. This also means that the transport of slurry over large distances is prevented because the manure can be processed on site. In addition, an electronic storage unit allows further processing and analysis of the calculated data.

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Claims (17)

1 J> δ 1. Device for chemical analysis of a waste liquid, in particular manure, which is contained in a container, which container is provided with a discharge member, characterized in that a sensor for chemical analysis of the waste material disposed by the discharge member is located in the discharge member. conductive waste liquid, which sensor is connected to an electronic calculating unit, which electronic calculating unit is connected to an electronic storage and display unit. 2. Device as claimed in claim 1, characterized in that the discharge member is provided with a by-pass, in which by-pass the sensor for chemical analysis is positioned. Device according to claims 1-2, characterized in that a sensor of the near infrared (NIR) spectroscopy type is used. Device according to claim 3, characterized in that the spectroscopic measurement is carried out in at least one of the following areas: 1320-1390 nm, 2000-2125 nm and 2175-2325 nm. Device according to claims 1-2, characterized in that a sensor of the RAMAN type is used. 6. Device as claimed in claims 1-5, characterized in that the discharge member is also provided with an instrument for measuring the amount of waste liquid passed through the discharge member, which instrument is connected to the electronic calculation unit. 7. Device as claimed in claims 1-6, characterized in that the holder is also provided with an instrument for measuring the amount of waste liquid discharged from or contained in the holder, which instrument is connected to the electronic calculation unit. 8. Method for chemical analysis of a waste liquid, in particular a manure, which is contained in a container, which container is provided with a discharge member, characterized in that the waste liquid is removed from the container via the discharge member, which discharge means is provided with a sensor which measures the chemical composition of the waste liquid flowing through the discharge means, wherein the sensor supplies a measuring signal to an electronic calculating unit, in which electronic calculating unit the measuring signal is processed, after which the signal thus processed is delivered to an electronic storage display unit. 1 5440 Method according to claim 8, characterized in that the discharge member is provided with a bypass, in which bypass the sensor for chemical analysis is positioned. 10. A method according to claims 8-9, characterized in that a sensor of the near infrared (NIR) spectroscopy type is used. Method according to claim 10, characterized in that the spectroscopic measurement is carried out in at least one of the following ranges: 1320-1390 nm, 2000-2125 nm and 2175-2325 nm. Method according to claims 8-9, characterized in that a sensor of the RAMAN type is used. 13. Method according to claims 8-12, characterized in that the processing carried out in the electronic calculating unit takes place using a calibration curve, which calibration curve shows the relationship between the measuring signal and the chemical content. 14. Method according to claims 8-13, characterized in that the data obtained with the chemical analysis sensor undergo a pre-processing, which pre-processing comprises a correction for differences in the recorded spectrum which are not due to the chemical content in the waste liquid to be analyzed. Method according to claims 8-14, characterized in that at least one member selected from potassium, dry matter, phosphate and nitrogen is used as the chemical content. 16. Method as claimed in claims 8-15, characterized in that an instrument is arranged in the discharge means that measures the amount of waste liquid that is passed through the discharge element, which instrument generates a flow signal which is delivered to the electronic calculation unit, wherein a value is calculated corresponding to the total amount of chemical removed or absorbed by the container. Method according to claims 8-16, characterized in that the container is provided with an instrument that measures the amount of waste liquid that is discharged or absorbed by the container, which instrument generates a flow signal which is delivered to the electronic calculation unit, wherein a value is calculated corresponding to the total amount of chemical removed or absorbed by the container. 101 54 4 0 COOPERATION TREATY (PCT) REPORT ON NEWNESS INVESTIGATION OF INTERNATIONAL TYPE IDENTIFICATION OF THE NATIONAL APPLICATION IDENTIFICATION OF THE APPLICANT OR OF THE AUTHORIZED APPLICATION 41167 / AB / pr Submission Application No. Submission Date 1015440 Euro Applicant (Name) BV Date of the request for an examination by the International Research Authority (ISA) for international type the request for an examination of an international type granted No SN 35391 EN I. CLASSIFICATION OF THE SUBJECT (where different classifications are used, indicate all badger symbols ) According to International Classification (IPC) lnt.CI.7: G01N21 / 85 G01N33 / 18 G01N33 / 487 II. FIELDS OF TECHNIQUE EXAMINED Minimum documentation examined Classification system Classification symbols lnt.CI.7: G01N G01J Documentation examined other than minimum documentation provided that such documents are contained in the areas examined> III. □ NO EXAMINATION OF MILK FOR CERTAIN CONCLUSIONS (comments on supplementary sheet) IV. LACK OF UNIT OF INVENTION (comments on supplementary sheet) IIII rr-l— I I i -I Li, I I I I H - - Form PCT / ISA 201 a (11/2000)