CN103743878A - Water quality monitoring data processing method and device - Google Patents
Water quality monitoring data processing method and device Download PDFInfo
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- CN103743878A CN103743878A CN201310730863.XA CN201310730863A CN103743878A CN 103743878 A CN103743878 A CN 103743878A CN 201310730863 A CN201310730863 A CN 201310730863A CN 103743878 A CN103743878 A CN 103743878A
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Abstract
The invention discloses a water quality monitoring data processing method and device. The method comprises the following steps: carrying out a water quality test on a target monitoring substance in a collected water sample to obtain water quality monitoring data; carrying out a quality control test on the water sample to obtain a quality control result; and determining whether the water quality monitoring data are effective data or not according to the quality control result. With the adoption of the water quality monitoring data processing method and device, the problems in the related technology that the accuracy of the water quality monitoring result is low and the consumed time is long are solved; and the effectiveness and the accuracy of the water quality monitoring data can be rapidly and accurately judged so that the effect of obtaining the accurate and effective water quality monitoring data is realized.
Description
Technical field
The present invention relates to data processing field, in particular to a kind of water monitoring data disposal route and device.
Background technology
Prior art monitoring water quality needs a large amount of manpowers (comprising sampling personnel, analyst), the material resources vehicles such as () car, ships, financial resources, mainly pass through manual type, regularly instrument is carried out to comparison test, guarantee that the accuracy of instrument is to obtain water monitoring data more accurately, but desk checking monitoring instrument length consuming time, accuracy are low, and cannot guarantee the real effectiveness of water quality monitoring result.
Low for verification water quality monitoring result length consuming time in prior art, accuracy, thus the problem of water monitoring data accuracy cannot be guaranteed, effective solution is not yet proposed at present.
Summary of the invention
The problem of, consuming time length low for water quality monitoring result precision in correlation technique, not yet proposes effective solution at present, and for this reason, fundamental purpose of the present invention is to provide a kind of water monitoring data disposal route and device, to address the above problem.
To achieve these goals, according to an aspect of the present invention, provide a kind of water monitoring data disposal route, the method comprises: the target monitoring material in the water sample collecting is carried out to water-quality test and obtain water monitoring data; Water sample is carried out to Quality Control test and obtain Quality Control result; According to Quality Control result, determine whether water monitoring data is valid data.
Further, water sample is carried out to the step that Quality Control test obtains Quality Control result and comprise at least one step in Duplicate Samples testing procedure, standard specimen testing procedure and mark-on testing procedure: Duplicate Samples testing procedure: water sample is carried out to Duplicate Samples test and obtain Duplicate Samples test result; Standard specimen testing procedure: testing tool is carried out to standard specimen test and obtain standard specimen test result; Mark-on testing procedure: water sample is carried out to mark-on recovery test and obtain mark-on recovery test result, wherein, Quality Control result comprises that Duplicate Samples test result, standard specimen test result and mark-on reclaim at least one test result in test result.
Further, Duplicate Samples testing procedure: water sample is carried out to the step that Duplicate Samples test obtains Duplicate Samples test result and comprise: every Preset Time, the target monitoring material of water sample is carried out to water-quality test and obtain water-quality test data; Using the mean value of multiple water-quality test data as Duplicate Samples test result; According to Quality Control result, determine that whether water monitoring data is that the step of valid data comprises: detect Duplicate Samples test result and whether meet the first preset range; In the situation that Duplicate Samples test result meets the first preset range, determine that water monitoring data is valid data; In the situation that Duplicate Samples test result does not meet the first preset range, determine that water monitoring data is invalid data.
Further, standard specimen testing procedure: testing tool is carried out to the step that standard specimen test obtains standard specimen test result and comprise: the target monitoring material of the sample of use test instrument to the first preset concentration carries out water-quality test and obtains sample test data; Using the error of sample test data and the first preset concentration as standard specimen test result; According to Quality Control result, determine that whether water monitoring data is that the step of valid data comprises: detect standard specimen test result and whether meet the second preset range; In the situation that standard specimen test result meets the second preset range, determine that water monitoring data is valid data; In the situation that standard specimen test result does not meet the second preset range, determine that water monitoring data is invalid data.
Further, mark-on testing procedure: water sample is carried out to mark-on and reclaim test and obtain mark-on and reclaim the step of test result and comprise: use and put sampling device and add water sample to obtain the water sample after mark-on in the mother liquor of the second preset concentration of preset vol; The recovery of standard addition of the water sample after mark-on is reclaimed to test result as mark-on; According to Quality Control result, determine that whether water monitoring data is that the step of valid data comprises: detect standard specimen test result and whether meet the 3rd preset range; In the situation that standard specimen test result meets the 3rd preset range, determine that water monitoring data is valid data; In the situation that standard specimen test result does not meet the 3rd preset range, determine that water monitoring data is invalid data.
To achieve these goals, according to a further aspect in the invention, provide a kind of water monitoring data treating apparatus, this device comprises: water-quality test module, and for the target monitoring material to the water sample collecting, carry out water-quality test and obtain water monitoring data; Quality Control module, obtains Quality Control result for water sample being carried out to Quality Control test; Determination module, for determining according to Quality Control result whether water monitoring data is valid data.
Further, Quality Control module comprises at least one module in Duplicate Samples test module, standard specimen test module and mark-on test module: Duplicate Samples test module: water sample is carried out to Duplicate Samples test and obtain Duplicate Samples test result; Standard specimen test module: testing tool is carried out to standard specimen test and obtain standard specimen test result; Mark-on test module: water sample is carried out to mark-on recovery test and obtain mark-on recovery test result, wherein, Quality Control result comprises that Duplicate Samples test result, standard specimen test result and mark-on reclaim at least one test result in test result.
Further, Duplicate Samples test module comprises: water-quality test submodule, obtains water-quality test data for the target monitoring material of water sample being carried out to water-quality test every Preset Time; The first computing module, for using the mean value of multiple water-quality test data as Duplicate Samples test result; Determination module comprises: whether first detection module, meet the first preset range for detection of Duplicate Samples test result; First determines submodule, in the situation that Duplicate Samples test result meets the first preset range, determines that water monitoring data is valid data; Also, in the situation that Duplicate Samples test result does not meet the first preset range, determine that water monitoring data is invalid data.
Further, standard specimen test module comprises: standard specimen test submodule, and the target monitoring material of the sample for use test instrument to the first preset concentration carries out water-quality test and obtains sample test data; The second computing module, for using the error of sample test data and the first preset concentration as standard specimen test result; Determination module comprises: whether the second detection module, meet the second preset range for detection of standard specimen test result; The second determination module, in the situation that standard specimen test result meets the second preset range, determines that water monitoring data is valid data; Also, in the situation that standard specimen test result does not meet the second preset range, determine that water monitoring data is invalid data.
Further, mark-on test module comprises: put original mold piece, for using, put sampling device and add water sample to obtain the water sample after mark-on in the mother liquor of the second preset concentration of preset vol; Mark-on test submodule, for reclaiming test result using the recovery of standard addition of the water sample after mark-on as mark-on; Determination module comprises: whether the 3rd detection module, meet the 3rd preset range for detection of standard specimen test result; The 3rd determination module, in the situation that standard specimen test result meets the 3rd preset range, determines that water monitoring data is valid data; Also, in the situation that standard specimen test result does not meet the 3rd preset range, determine that water monitoring data is invalid data.
Adopt the present invention, after gathering water sample by acquisition module, use water-quality test module to carry out water-quality test to the target monitoring material in the water sample collecting and obtain water monitoring data, then Quality Control module is carried out Quality Control test to water sample and is obtained Quality Control result, and according to Quality Control result, determines whether water monitoring data is valid data by determination module.By being tested to the Quality Control result obtaining, the stubborn Quality Control of water sample continuation determines whether water monitoring data is valid data, thereby do not need manually testing apparatus to be carried out to verification, whole process completes full automation, without personnel, intervene, do not need to drop into a large amount of manpowers, material resources, financial resources just can be differentiated the validity of water monitoring data, accuracy, thereby it is low to have solved in correlation technique water quality monitoring result precision, the problem of length consuming time, realized the validity that can judge rapidly and accurately water quality monitoring result, accuracy, thereby obtain the effect of water monitoring data accurately and effectively.
Accompanying drawing explanation
Accompanying drawing described herein is used to provide a further understanding of the present invention, forms the application's a part, and schematic description and description of the present invention is used for explaining the present invention, does not form inappropriate limitation of the present invention.In the accompanying drawings:
Fig. 1 is according to the structural representation of the water monitoring data treating apparatus of the embodiment of the present invention; And
Fig. 2 is according to the process flow diagram of the water monitoring data disposal route of the embodiment of the present invention.
Embodiment
It should be noted that, in the situation that not conflicting, the feature in embodiment and embodiment in the application can combine mutually.Describe below with reference to the accompanying drawings and in conjunction with the embodiments the present invention in detail.
Fig. 1 is according to the structural representation of the water monitoring data treating apparatus of the embodiment of the present invention.As shown in Figure 1, this device can comprise: water-quality test module 10, and for the target monitoring material to the water sample collecting, carry out water-quality test and obtain water monitoring data; Quality Control module 30, obtains Quality Control result for water sample being carried out to Quality Control test; Determination module 50, for determining according to Quality Control result whether water monitoring data is valid data.
Adopt the present invention, after gathering water sample by acquisition module, use water-quality test module to carry out water-quality test to the target monitoring material in the water sample collecting and obtain water monitoring data, then Quality Control module is carried out Quality Control test to water sample and is obtained Quality Control result, and according to Quality Control result, determines whether water monitoring data is valid data by determination module.By being tested to the Quality Control result obtaining, the stubborn Quality Control of water sample continuation determines whether water monitoring data is valid data, thereby do not need manually testing apparatus to be carried out to verification, whole process completes full automation, without personnel, intervene, do not need to drop into a large amount of manpowers, material resources, financial resources just can be differentiated the validity of water monitoring data, accuracy, thereby it is low to have solved in correlation technique water quality monitoring result precision, the problem of length consuming time, realized the validity that can judge rapidly and accurately water monitoring data, accuracy, thereby obtain the effect of water monitoring data accurately and effectively.
In the above embodiment of the present invention, Quality Control module can comprise at least one module in Duplicate Samples test module, standard specimen test module and mark-on test module: Duplicate Samples test module: water sample is carried out to Duplicate Samples test and obtain Duplicate Samples test result; Standard specimen test module: testing tool is carried out to standard specimen test and obtain standard specimen test result; Mark-on test module: water sample is carried out to mark-on recovery test and obtain mark-on recovery test result, wherein, Quality Control result comprises that Duplicate Samples test result, standard specimen test result and mark-on reclaim at least one test result in test result.
The water quality of water station test at present, the cycle that gathers water sample is commonly 4 hours one-periods, each gatherer process approximately needs the time of one hour, the above embodiment of the present invention can utilize the free time (3 hours) between each collection period to carry out the Quality Control means such as Duplicate Samples test, standard specimen test, mark-on recovery test, and utilize Quality Control result to determine the validity of water monitoring data, thereby can save time, laborsaving and obtain exactly water monitoring data.
In the above embodiment of the present invention, Duplicate Samples test module comprises: water-quality test submodule, obtains water-quality test data for the target monitoring material of water sample being carried out to water-quality test every Preset Time; The first computing module, for using the mean value of multiple water-quality test data as Duplicate Samples test result; Determination module comprises: whether first detection module, meet the first preset range for detection of Duplicate Samples test result; First determines submodule, in the situation that Duplicate Samples test result meets the first preset range, determines that water monitoring data is valid data; Also, in the situation that Duplicate Samples test result does not meet the first preset range, determine that water monitoring data is invalid data.
Particularly, start Duplicate Samples test, to the same water sample follow-on test collecting repeatedly, calculate the mean value of repeatedly measuring, for example, target detection material is ammonia, measuring is for the first time 8 point measurements, the content (being water monitoring data) that records the ammonia of water sample is 4.5, after obtaining water monitoring data, again same water sample test is obtained to two measured values for twice: 4.6 and 4.4, average is 4.5, Duplicate Samples test result is 4.5, the error of Duplicate Samples test result and water monitoring data is in 30% scope, determine that water monitoring data is valid data, otherwise be invalid data, in above-mentioned example, water monitoring data is valid data.
In the above embodiment of the present invention, standard specimen test module comprises: standard specimen test submodule, and the target monitoring material of the sample for use test instrument to the first preset concentration carries out water-quality test and obtains sample test data; The second computing module, for using the error of sample test data and the first preset concentration as standard specimen test result; Determination module comprises: whether the second detection module, meet the second preset range for detection of standard specimen test result; The second determination module, in the situation that standard specimen test result meets the second preset range, determines that water monitoring data is valid data; Also, in the situation that standard specimen test result does not meet the second preset range, determine that water monitoring data is invalid data.
Particularly, start standard specimen test, use test instrument is tested the sample of concentration known, test result and this concentration error of calculation, for example, target detection material is ammonia, the sample test that is 2.0 to concentration, recording concentration is 1.8, calculates 1.8 and 2.0 error, if this error is in the scope of 10-15%, determine that water monitoring data is valid data, otherwise be invalid data, obviously, in above-mentioned example, water monitoring data is valid data.
Wherein, the second preset range is pre-set value range, generally can regulate based on experience value.
In the above embodiment of the present invention, mark-on test module comprises: put original mold piece, for using, put sampling device and add water sample to obtain the water sample after mark-on in the mother liquor of the second preset concentration of preset vol; Mark-on test submodule, for reclaiming test result using the recovery of standard addition of the water sample after mark-on as mark-on; Determination module comprises: whether the 3rd detection module, meet the 3rd preset range for detection of standard specimen test result; The 3rd determination module, in the situation that standard specimen test result meets the 3rd preset range, determines that water monitoring data is valid data; Also, in the situation that standard specimen test result does not meet the 3rd preset range, determine that water monitoring data is invalid data.
Putting sampling device and the mother liquor of (being generally several milliliters of zero points) high concentration very little volume can be joined to certain volume (this volume is not unique fixing in above-described embodiment, optionally 200ml) water sample in mix, it is more accurate to adding target control ratio that this puts sampling device.
Particularly, start mark-on test, high concentration (i.e. the second preset concentration) mother liquor of sampling device a certain amount of to adding in water sample (being preset vol) is put in use, by formula, calculate recovery of standard addition, formula is particularly: recovery of standard addition=(mark-on Specimen Determination value-Specimen Determination value) ÷ adds scalar × 100%.The 3rd preset range can be 80% to 120%.
Fig. 2 is that the method comprises the steps: as shown in Figure 2 according to the process flow diagram of the water monitoring data disposal route of the embodiment of the present invention
Step S202, carries out water-quality test to the target monitoring material in the water sample collecting and obtains water monitoring data.
Step S204, carries out Quality Control test to water sample and obtains Quality Control result.
Step S206, determines according to Quality Control result whether water monitoring data is valid data.
Adopt the present invention, after gathering water sample by acquisition module, use water-quality test module to carry out water-quality test to the target monitoring material in the water sample collecting and obtain water monitoring data, then Quality Control module is carried out Quality Control test to water sample and is obtained Quality Control result, and according to Quality Control result, determines whether water monitoring data is valid data by determination module.By being tested to the Quality Control result obtaining, the stubborn Quality Control of water sample continuation determines whether water monitoring data is valid data, thereby do not need manually testing apparatus to be carried out to verification, whole process completes full automation, without personnel, intervene, do not need to drop into a large amount of manpowers, material resources, financial resources just can be differentiated the validity of water monitoring data, accuracy, thereby it is low to have solved in correlation technique water quality monitoring result precision, the problem of length consuming time, realized the validity that can judge rapidly and accurately water monitoring data, accuracy, thereby obtain the effect of water monitoring data accurately and effectively.
In the above embodiment of the present invention, water sample is carried out to the step that Quality Control test obtains Quality Control result and comprise at least one step in Duplicate Samples testing procedure, standard specimen testing procedure and mark-on testing procedure: Duplicate Samples testing procedure: water sample is carried out to Duplicate Samples test and obtain Duplicate Samples test result; Standard specimen testing procedure: testing tool is carried out to standard specimen test and obtain standard specimen test result; Mark-on testing procedure: water sample is carried out to mark-on recovery test and obtain mark-on recovery test result, wherein, Quality Control result comprises that Duplicate Samples test result, standard specimen test result and mark-on reclaim at least one test result in test result.
The water quality of water station test at present, the cycle that gathers water sample is commonly 4 hours one-periods, each gatherer process approximately needs the time of one hour, the above embodiment of the present invention can utilize the free time (3 hours) between each collection period to carry out the Quality Control means such as Duplicate Samples test, standard specimen test, mark-on recovery test, and utilize Quality Control result to determine the validity of water monitoring data, thereby can save time, laborsaving and obtain exactly water monitoring data.
According to the abovementioned embodiments of the present invention, Duplicate Samples testing procedure: water sample is carried out to the step that Duplicate Samples test obtains Duplicate Samples test result and comprise: every Preset Time, the target monitoring material of water sample is carried out to water-quality test and obtain water-quality test data; Using the mean value of multiple water-quality test data as Duplicate Samples test result; According to Quality Control result, determine that whether water monitoring data is that the step of valid data comprises: detect Duplicate Samples test result and whether meet the first preset range; In the situation that Duplicate Samples test result meets the first preset range, determine that water monitoring data is valid data; In the situation that Duplicate Samples test result does not meet the first preset range, determine that water monitoring data is invalid data.
Particularly, start Duplicate Samples test, to the same water sample follow-on test collecting repeatedly, calculate the mean value of repeatedly measuring, for example, target detection material is ammonia, measuring is for the first time 8 point measurements, the content (being water monitoring data) that records the ammonia of water sample is 4.5, after obtaining water monitoring data, again same water sample test is obtained to two measured values for twice: 4.6 and 4.4, average is 4.5, Duplicate Samples test result is 4.5, the error of Duplicate Samples test result and water monitoring data is in 30% scope, determine that water monitoring data is valid data, otherwise be invalid data, in above-mentioned example, water monitoring data is valid data.
In the above embodiment of the present invention, standard specimen testing procedure: testing tool is carried out to the step that standard specimen test obtains standard specimen test result and comprise: the target monitoring material of the sample of use test instrument to the first preset concentration carries out water-quality test and obtains sample test data; Using the error of sample test data and the first preset concentration as standard specimen test result; According to Quality Control result, determine that whether water monitoring data is that the step of valid data comprises: detect standard specimen test result and whether meet the second preset range; In the situation that standard specimen test result meets the second preset range, determine that water monitoring data is valid data; In the situation that standard specimen test result does not meet the second preset range, determine that water monitoring data is invalid data.
Particularly, start standard specimen test, the sample of concentration known is tested, test result and this concentration error of calculation, for example, target detection material is ammonia, the sample test that is 2.0 to concentration, recording concentration is 1.8, calculates 1.8 and 2.0 error, if this error is in the scope of 10-15%, determine that water monitoring data is valid data, otherwise be invalid data, obviously, in above-mentioned example, water monitoring data is valid data.
Wherein, the second preset range is pre-set value range, generally can regulate based on experience value.
In the above embodiment of the present invention, mark-on testing procedure: water sample is carried out to mark-on and reclaim test and obtain mark-on and reclaim the step of test result and comprise: use and put sampling device and add water sample to obtain the water sample after mark-on in the mother liquor of the second preset concentration of preset vol; The recovery of standard addition of the water sample after mark-on is reclaimed to test result as mark-on; According to Quality Control result, determine that whether water monitoring data is that the step of valid data comprises: detect standard specimen test result and whether meet the 3rd preset range; In the situation that standard specimen test result meets the 3rd preset range, determine that water monitoring data is valid data; In the situation that standard specimen test result does not meet the 3rd preset range, determine that water monitoring data is invalid data.
Putting sampling device and the mother liquor of (being generally several milliliters of zero points) high concentration very little volume can be joined to certain volume (this volume is not unique fixing in above-described embodiment, optionally 200ml) water sample in mix, it is more accurate to adding target control ratio that this puts sampling device.
Particularly, start mark-on test, high concentration (i.e. the second preset concentration) mother liquor of sampling device a certain amount of to adding in water sample (being preset vol) is put in use, by formula, calculate recovery of standard addition, formula is particularly: recovery of standard addition=(mark-on Specimen Determination value-Specimen Determination value) ÷ adds scalar × 100%.The 3rd preset range can be 80% to 120%.
It should be noted that, in the step shown in the process flow diagram of accompanying drawing, can in the computer system such as one group of computer executable instructions, carry out, and, although there is shown logical order in flow process, but in some cases, can carry out shown or described step with the order being different from herein.
As can be seen from the above description, the present invention has realized following technique effect:
Adopt the present invention, after gathering water sample by acquisition module, use water-quality test module to carry out water-quality test to the target monitoring material in the water sample collecting and obtain water monitoring data, then Quality Control module is carried out Quality Control test to water sample and is obtained Quality Control result, and according to Quality Control result, determines whether water monitoring data is valid data by determination module.By being tested to the Quality Control result obtaining, the stubborn Quality Control of water sample continuation determines whether water monitoring data is valid data, thereby do not need manually testing apparatus to be carried out to verification, whole process completes full automation, without personnel, intervene, do not need to drop into a large amount of manpowers, material resources, financial resources just can be differentiated the validity of water monitoring data, accuracy, thereby it is low to have solved in correlation technique water quality monitoring result precision, the problem of length consuming time, realized the validity that can judge rapidly and accurately water monitoring data, accuracy, thereby obtain the effect of water monitoring data accurately and effectively.
Obviously, those skilled in the art should be understood that, above-mentioned of the present invention each module or each step can realize with general calculation element, they can concentrate on single calculation element, or be distributed on the network that multiple calculation elements form, alternatively, they can be realized with the executable program code of calculation element, thereby, they can be stored in memory storage and be carried out by calculation element, or they are made into respectively to each integrated circuit modules, or the multiple modules in them or step are made into single integrated circuit module to be realized.Like this, the present invention is not restricted to any specific hardware and software combination.
The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations.Within the spirit and principles in the present invention all, any modification of doing, be equal to replacement, improvement etc., within all should being included in protection scope of the present invention.
Claims (10)
1. a water monitoring data disposal route, is characterized in that, comprising:
Target monitoring material in the water sample collecting is carried out to water-quality test and obtain water monitoring data;
Described water sample is carried out to Quality Control test and obtain Quality Control result;
According to described Quality Control result, determine whether described water monitoring data is valid data.
2. water monitoring data disposal route according to claim 1, is characterized in that, described water sample is carried out to the step that Quality Control test obtains Quality Control result and comprise at least one step in Duplicate Samples testing procedure, standard specimen testing procedure and mark-on testing procedure:
Described Duplicate Samples testing procedure: described water sample is carried out to Duplicate Samples test and obtain Duplicate Samples test result;
Described standard specimen testing procedure: testing tool is carried out to standard specimen test and obtain standard specimen test result;
Described mark-on testing procedure: described water sample is carried out to mark-on recovery test and obtain mark-on recovery test result,
Wherein, described Quality Control result comprises that described Duplicate Samples test result, described standard specimen test result and described mark-on reclaim at least one test result in test result.
3. water monitoring data disposal route according to claim 2, is characterized in that,
Described Duplicate Samples testing procedure: described water sample is carried out to the step that Duplicate Samples test obtains Duplicate Samples test result and comprise: every Preset Time, the described target monitoring material of described water sample is carried out to water-quality test and obtain water-quality test data; Using the mean value of multiple described water-quality test data as described Duplicate Samples test result;
According to described Quality Control result, determine that whether described water monitoring data is that the step of valid data comprises: detect described Duplicate Samples test result and whether meet the first preset range; In the situation that described Duplicate Samples test result meets described the first preset range, determine that described water monitoring data is valid data; In the situation that described Duplicate Samples test result does not meet described the first preset range, determine that described water monitoring data is invalid data.
4. water monitoring data disposal route according to claim 2, is characterized in that,
Described standard specimen testing procedure: testing tool is carried out to the step that standard specimen test obtains standard specimen test result and comprise: use the described target monitoring material of the sample of described testing tool to the first preset concentration to carry out water-quality test and obtain sample test data; Using the error of described sample test data and described the first preset concentration as described standard specimen test result;
According to described Quality Control result, determine that whether described water monitoring data is that the step of valid data comprises: detect described standard specimen test result and whether meet the second preset range; In the situation that described standard specimen test result meets described the second preset range, determine that described water monitoring data is valid data; In the situation that described standard specimen test result does not meet described the second preset range, determine that described water monitoring data is invalid data.
5. water monitoring data disposal route according to claim 2, is characterized in that,
Described mark-on testing procedure: described water sample is carried out to mark-on and reclaim test and obtain mark-on and reclaim the step of test result and comprise: use and put sampling device and add described water sample to obtain the water sample after mark-on in the mother liquor of the second preset concentration of preset vol; The recovery of standard addition of the water sample after described mark-on is reclaimed to test result as described mark-on;
According to described Quality Control result, determine that whether described water monitoring data is that the step of valid data comprises: detect described standard specimen test result and whether meet the 3rd preset range; In the situation that described standard specimen test result meets described the 3rd preset range, determine that described water monitoring data is valid data; In the situation that described standard specimen test result does not meet described the 3rd preset range, determine that described water monitoring data is invalid data.
6. a water monitoring data treating apparatus, is characterized in that, comprising:
Water-quality test module, carries out water-quality test for the target monitoring material to the water sample collecting and obtains water monitoring data;
Quality Control module, obtains Quality Control result for described water sample being carried out to Quality Control test;
Determination module, for determining according to described Quality Control result whether described water monitoring data is valid data.
7. water monitoring data treating apparatus according to claim 6, is characterized in that, described Quality Control module comprises at least one module in Duplicate Samples test module, standard specimen test module and mark-on test module:
Described Duplicate Samples test module: described water sample is carried out to Duplicate Samples test and obtain Duplicate Samples test result;
Described standard specimen test module: testing tool is carried out to standard specimen test and obtain standard specimen test result;
Described mark-on test module: described water sample is carried out to mark-on recovery test and obtain mark-on recovery test result,
Wherein, described Quality Control result comprises that described Duplicate Samples test result, described standard specimen test result and described mark-on reclaim at least one test result in test result.
8. water monitoring data treating apparatus according to claim 7, is characterized in that,
Described Duplicate Samples test module comprises:
Water-quality test submodule, obtains water-quality test data for the described target monitoring material of described water sample being carried out to water-quality test every Preset Time;
The first computing module, for using the mean value of multiple described water-quality test data as described Duplicate Samples test result;
Described determination module comprises:
Whether first detection module, meet the first preset range for detection of described Duplicate Samples test result;
First determines submodule, in the situation that described Duplicate Samples test result meets described the first preset range, determines that described water monitoring data is valid data; Also, in the situation that described Duplicate Samples test result does not meet described the first preset range, determine that described water monitoring data is invalid data.
9. water monitoring data treating apparatus according to claim 7, is characterized in that,
Described standard specimen test module comprises:
Standard specimen test submodule, obtains sample test data for using the described target monitoring material of the sample of described testing tool to the first preset concentration to carry out water-quality test;
The second computing module, for using the error of described sample test data and described the first preset concentration as described standard specimen test result;
Described determination module comprises:
Whether the second detection module, meet the second preset range for detection of described standard specimen test result;
The second determination module, in the situation that described standard specimen test result meets described the second preset range, determines that described water monitoring data is valid data; Also, in the situation that described standard specimen test result does not meet described the second preset range, determine that described water monitoring data is invalid data.
10. water monitoring data treating apparatus according to claim 7, is characterized in that,
Described mark-on test module comprises:
Put original mold piece, for using, put sampling device and add described water sample to obtain the water sample after mark-on in the mother liquor of the second preset concentration of preset vol;
Mark-on test submodule, for reclaiming test result using the recovery of standard addition of the water sample after described mark-on as described mark-on;
Described determination module comprises:
Whether the 3rd detection module, meet the 3rd preset range for detection of described standard specimen test result;
The 3rd determination module, in the situation that described standard specimen test result meets described the 3rd preset range, determines that described water monitoring data is valid data; Also, in the situation that described standard specimen test result does not meet described the 3rd preset range, determine that described water monitoring data is invalid data.
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Cited By (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
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| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105549563A (en) * | 2015-12-31 | 2016-05-04 | 聚光科技(杭州)股份有限公司 | Remote quality control method and apparatus of water quality monitoring system |
| CN105675834A (en) * | 2015-12-31 | 2016-06-15 | 聚光科技(杭州)股份有限公司 | Quality control method of water quality monitoring system, and apparatus thereof |
| CN105549563B (en) * | 2015-12-31 | 2018-05-08 | 聚光科技(杭州)股份有限公司 | The long-range quality control method and device of water quality monitoring system |
| CN110907587A (en) * | 2019-10-15 | 2020-03-24 | 山东工商学院 | Portable formaldehyde detector |
| CN111487209A (en) * | 2020-04-06 | 2020-08-04 | 浙江信捷检测技术有限公司 | Method for measuring concentration of urea in swimming pool water |
| CN115684527A (en) * | 2022-10-27 | 2023-02-03 | 山东冽泉环保工程咨询有限公司 | Method for monitoring non-aqueous phase liquid |
| CN115684527B (en) * | 2022-10-27 | 2024-01-02 | 山东冽泉环保工程咨询有限公司 | Monitoring method of non-aqueous phase liquid |
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