KR101412957B1 - Device for Measurement of Radon in the Underground Water by means of In-line Sampling - Google Patents

Abstract

The present invention relates to a method for measuring groundwater radon concentration using a housing having a sample inlet and an air outlet, as well as being capable of removing and attaching a time integration type measuring instrument. The housing is connected to a pipe of an underground water use facility in an in- This is a technique that can fundamentally solve the error that may occur in the sampling process by allowing the measurement to be made simultaneously with the sampling after the sample is collected.

Description

[Background Art] [0002] Inline groundwater sampling devices for measuring the concentration of radon are in-

The present invention corresponds to a technique for reducing the error that may occur in the sampling process in the method of measuring the groundwater radon concentration.

In recent years, national radon concentration control has been conducted on indoor air and groundwater. About 20% of the groundwater used in drinking water in Korea is radon, which is a primary carcinogen, There was a report that the contamination exceeded the management standard value of 4,000 pCi / L. The most basic thing in the management of groundwater radon is accurate measurement, but it is a fact that the measurement result shows more than 100% difference according to analysis institute including seasonal concentration change. Based on the existing report on the error of the measured value of groundwater radon concentration, researcher Jung Hee Jung of Korea Institute of Science and Technology (KRIHS) presented 'Research on Standardization of Radon Analysis and Analysis Method in Groundwater' in 2008, Although there are factors that increase the uncertainty in the process, most of the existing analytical methods and papers consider only the uncertainty factors that arise in the post-acquisition analysis process, assuming that the calculations were done correctly. The uncertainty factor of at least 10% occurs and uncertainty of up to 30% occurs when uncertainty of the method is uncertain ".

In the measurement of groundwater radon concentration, errors that may occur including the errors in the water sampling process are listed in detail: (1) When the groundwater is taken from the groundwater pipe by using the transport container at the time of sampling and the groundwater is transferred from the transport container to the measurement container The difference between the amount of radon released from the surface of the groundwater to the air and the error due to the difference in the amount of radon released from the sample collection vessel to the air during the period from the completion of sampling to the beginning of the measurement ③ In the measurement process, there may be an error due to the interference of alpha radiation elements other than radon dissolved in ground water such as uranium, radium and thorium. Also, if a large amount of radium is dissolved in the groundwater, The time from the start of measurement to the start of measurement is long The longer side may increase the error by the Radon occurring in radium dissolved in the groundwater and this saw shown in "Figure 1".

The liquid scintillation counting method and the Lucas cell method are typical examples of the method for measuring the groundwater radon concentration. Liquid Scintillation Counting (LSC) is a suitable method for measuring within a short time when the number of samples is large. It is a solvent having a resonance ring such as benzene, toluene, and xylene, a compound having a large π electron concentration such as naphthalene, Ex: PBBO, PBD, PPO, BBOT, DPA, POPOP) are mixed together. Some of the extracted scintillation solutions are commercialized, but they are prepared by users themselves. The composition ratio of "RADONS", which is a typical extraction scintillation solution on the market, is 33: 66: 0.9 relative to toluene, naphthalene and PBBO. Lucas cell (Lucas cell) is the most widely used method only when the number of samples is not enough. After injecting helium gas into groundwater, radon dissolved in groundwater is collected in scintillator cell and PM tube ). ≪ / RTI > Since the measurement method described above requires expensive measurement equipment and analytical technology, it can not be used directly by the general public, and even when the public person collects the sample directly and sends the measurement to the analysis institute, the error in the sampling process can not be avoided It is a reality.

In addition to the two methods described above, there are simple methods for measuring the groundwater radon concentration by the time-integration method, and generally known methods for measuring the groundwater radon concentration using the time- This is a batch method using 'Equation 1' including the sampling step (Korean Institute of Interior Environment and Resources Annual Report Vol. 4, p161 ~ p164). The method of measuring the groundwater radon concentration by the time integration method will be described step by step: ① opening the valve connected to the ground water pipe to drain the water for a few minutes and then collecting the ground water into the transportation container; (3) transferring the groundwater sample from the transport container to a measuring container equipped with a time-integration measuring instrument, (4) placing the measuring container in a thermostat for about 3 days, collecting the time-integration measuring device, , And then calculating the groundwater radon concentration (Rn, w) after measuring the radon concentration.

'Rn, a' is the radon concentration in the air layer of the measurement vessel containing the groundwater, and 'Va' is the air layer of the measurement vessel containing the groundwater. 'Vw' is the volume of the groundwater layer of the measuring vessel containing the groundwater, 'S' is the Ostwald partition coefficient, and its value changes according to the temperature. It means that the measurement is performed irrespective of the season , The Ostwald partition coefficients at these temperatures are 0.53 and 0.16, respectively (Washington JW and Arther WR, Geophysical Research Letters, 1990) , It is known that the radon concentration is measured under the same temperature condition as in the case where the temperature is not the same. The method of measuring the radon concentration in the air layer using the time integration type measuring instrument is described in detail in the '100650' folder-shaped time-integrated radon concentration measuring instrument with a semicircular ring attached thereto, so that further explanation is omitted in the present invention.

The problem to be solved by the present invention is to reduce the error that may occur in the process of collecting the ground water even for the ordinary people who are not well aware of the radon. Specifically, the groundwater is collected from the groundwater pipe to the transportation container, It is possible to minimize the amount of radon leaking from the groundwater surface to the outside of the housing by omitting the existing step of transferring the groundwater from the vessel to the measuring vessel, and (2) even if a measuring vessel such as a measuring cylinder is not separately prepared at the sampling site, And (3) the measurement is initiated from the point of completion of the sampling to prevent the leakage of radon that may occur in the transportation process, and also the error due to the increase in radon produced by the radium dissolved in the groundwater ④ In the measurement process Such as uranium, thorium, and radium, which are dissolved in the groundwater. In the present invention, since it corresponds to the case where the measurement is started at the same time as the sampling, and it is assumed that the accurate information about the temperature change of the measurement site is unknown, it is used in the calculation of the groundwater radon concentration using Equation (2) .

'Rn, a''is the average value of the radon concentration during the measurement period measured in the air layer inside the housing,' Va 'is the radon concentration of the groundwater in the housing interior, 'K' is the Ostwald partition coefficient at 20 ° C, and its value is' 0.2593 '. In this case, the value of' . In the Ostwald partition coefficient, assuming that the temperature of the room where the housing is located during the measurement period has a temperature distribution of 10 ° C to 30 ° C, and assuming that the median value of 20 ° C is the general room temperature, '0.2593' However, this value is equivalent to averaging the values derived from the repeated experiment. Also, if a temperature other than 20 ° C is selected, the value will be changed. Therefore, a tolerance range generally accepted in place of '0.2593' You can also use other values in.

In the measurement of groundwater radon concentration using the time integral method corresponding to the simple measurement method, when groundwater is collected from a groundwater pipe to a transport container at the time of sampling, and at the stage of transferring the groundwater from the transport container to the measurement container, In order to prevent the radon from leaking, as shown in FIG. 3, a 'O' -shaped ring having a time integration type measuring device is attached to the inside of the upper part, and a housing having a sample inlet and an air outlet is attached to the side A certain amount of samples can be collected from the site and the measurement can be started when the groundwater samples are collected. Especially, when the volume ratio (Va / Vw) of the air layer to the groundwater layer is large, the radon concentration in the air layer may be lowered to increase the measurement error, and the volume ratio of the air layer to the groundwater layer ) Is small, the measurement error can be reduced by increasing the concentration of the radon in the air layer, but the size of the housing will be increased, so that it is necessary to optimize the size. In the present invention, the radon concentration according to the temperature change is calculated for the same sample using the "Radon sheet-A" which is an Excel program reflecting the influence of temperature and humidity when measuring the groundwater radon concentration using the alpha track And the result is shown in FIG. 2. When the concentration of groundwater radon is above 1,000 pCi / L at the optimal time point when the sampling is completed, it is 1 day, 1,000 pCi / L at 100 pCi / L for 2 days, and 100 pCi / / L, it can be said that about 3 days is sufficient. However, since most of the cases do not have prior information on the radon concentration in the groundwater to be measured, the measurement period of 3 days is most appropriate.

The process of transferring groundwater from the groundwater pipe to the transport container and the transfer of the groundwater from the transport container to the measurement container and the difference in the amount of radon leakage from the groundwater surface or the transport container to the air during the start of measurement after completion of the sampling The error was minimized and the error due to radon increase in undetermined radium produced by radon dissolved in groundwater was also minimized.

FIG. 1 is a graph showing radon decay curves along with the elapse of time from the completion of sampling and the radon production curves due to radium dissolved in the groundwater. As shown in FIG. 1, when radon and radium are sampled, It is equivalent to the calculation result assuming that it is dissolved.
Fig. 2 is a graph showing the error according to the ambient temperature change when measuring the groundwater radon concentration using the alpha track (a-track). When the calculated value at 20 ° C is used as a reference, , The maximum error corresponds to about ± 20%, and if the room temperature change width is 10 ° C. to 30 ° C., the error of the measured value is less than ± 15%. It can be seen that this is not a large value considering that the error that may occur when the sampling method is uncertain is 30%.
FIG. 3 is a photograph of a housing actually manufactured to represent an embodiment of the present invention. In FIG. 3, a side wall of the main body is provided with a sample inlet for connecting to a groundwater pipe, and an air outlet for discharging air inside the housing And an upper part is provided with a ring which can be mounted in the form of a suspension of an alpha track (? Track).
FIG. 4 is a view for explaining the structure of the housing. It can be used not only for a time-integration type measuring device with a loop but also for a time-integration type measuring device without a loop, It expresses.

In the present invention, there is a connection portion corresponding to the lid of the main body, and a ring or mesh network capable of removing and attaching the time integration type measuring device is provided at the upper portion. A sample injection port and an air discharge port for connecting to the ground water pipe are attached to the side of the main body The amount of radon emitted to the outer air layer of the housing is adjusted so that the groundwater is drawn from the bottom in the inline sampling step by using the housing having the structure in which the position of the sample injection port is attached to the lower part and the position of the air outlet is attached to the upper part as much as possible. In addition, it is possible to obtain groundwater radon concentration without significant error even if the housing is stored in the field rather than the thermostat after the completion of the sampling. Examples of the time integral type measuring instrument applicable to the present invention include not only solid state detectors such as LR-115, CR-39, PC, and CN but also time-integral detectors using solid ion batteries, In order to eliminate the influence of nuclides and discussion, a filter type measuring device using a filter of about 1 μm pore size, as well as an air gap type measuring device using an air gap of about 10 μm or a hole (hole) It will be possible. However, when the housing with the time integral type measuring instrument is to be moved after the sampling, the time integral type measuring instrument will become wet due to the ground water flow. Therefore, in the case of the filter type measuring instrument, Waterproofing or water-repellent treatment must be performed in advance to prevent wetting of the air gap. In the case of the air gap type measuring instrument, measures should be taken to prevent the air gap from being clogged by water. In the means for removing and mounting the time integration type measuring device inside the housing, if a ring is attached to the upper part of the housing, it is possible to use a time integral type measuring device with a ring like? Track, If you insert it, you will be able to use a measuring device without a ring attached. As the material of the housing, an organic polymer such as rigid polyvinyl chloride, polypropylene, polyethylene, nylon, Teflon, polystyrene, polycarbonate, and an alloy of iron and iron including glass and stainless steel may be used. A transparent material may be advantageous to confirm whether the groundwater volume is maintained or an opaque material housing may be used because an air outlet is provided at a corresponding point of the housing so that a predetermined amount of groundwater sample can be collected. Hereinafter, the present invention will be described in more detail with reference to the following examples. However, the present invention is not limited thereto.

A 1/8 "sample inlet is attached to the side of a closed container of 1.3L volume, which is easily available in the market, at a height of 2 cm from the bottom, and another hole is opened at a height of 9.5 cm to form a 1/8" After attaching 'O' type ring on the inside of the lid, the housing is completed. After installing the α-track in the housing at the inward park of Dunsan-dong, Daejeon city using the ground water as drinking water, close the opening and closing the valve of sample inlet and air outlet and prepare the sample collection. After a sufficient flow rate, the hose having a diameter corresponding to the sample injection port is connected to the faucet, and groundwater is further flowed through the hose for about 1 to 2 minutes, and the flow rate of the groundwater is adjusted to about 0.2 L / min. The sampling is started by connecting the hose to the injection port. The valve of the sample inlet is closed at the instant when the ground water is discharged to the air outlet or the moment when the sample is filled into the housing, and then the valve of the air outlet is closed to complete the sampling. At about 3 days from the completion of sampling, the opening and closing part of the housing was opened to take out the α-track, and the radon concentration in the air layer was measured. Subsequently, the radon concentration was calculated by substituting the equation (2) , And the results obtained by the batch sampling method corresponding to the sampling method used before the present invention was introduced are shown together in Table 1.

Comparison of measured values of groundwater radon concentration according to sampling method and temperature change (unit: pCi / L) division Inline sampling Batch sampling Initiate measurement simultaneously with sampling Measurement start after 2 days Constant temperature (30 ± 0.5 ° C) 543 470 358 Transient temperature (23 ~ 27 ℃) 557 536 357 Average 550 503 358 error 0.0% -8.5% -34.9%

In the present invention, a method of collecting a sample in a state in which a groundwater pipe is connected to a sample inlet of a housing having a time integration type measuring instrument is defined as an inline sampling method. Groundwater is collected using a sample collection bottle prepared separately The sampling method of transferring to a measuring container was defined as a batch sampling method. As can be seen from the measurement results in Table 1, when the measurement results by the inline sampling method are taken as a reference, the results obtained by the batch sampling method are as low as 8.5% even if the measurement is started simultaneously with the sampling Could know. In addition, when the measurement was started by transferring the sample to the housing after precisely two days after collecting the sample using the glass bottle prepared separately, it was confirmed that it is 34.9% lower than the measurement result by the inline sampling method , It can be predicted that the longer the time from the completion of the sampling to the start of the measurement, the greater the error of the measurement value becomes.

In order to understand the embodiment described above in an easy-to-understand manner, the following steps can be taken: (1) mounting a time integration type measuring instrument on a rack of a ring or mesh provided on the upper part of the housing, (2) connecting a hose to a valve connected to the ground water pipe, And then collecting the ground water by connecting the hose to the sample inlet of the housing in the state of opening the sample inlet and the air outlet of the housing after closing the valve of the sample inlet as soon as the water surface of the groundwater reaches the air outlet, Measuring the radon concentration in the air layer by collecting the time integral type measuring instrument after about three days after the housing is transported to the room of the analyzing institution or a neighboring house, The volume of the air layer Va 'and the groundwater bed volume Vw' in the inline air layer of Equation , And calculating the radon concentration (Rn, w ') of the groundwater by substituting it into the equation (1). In summary, the above steps are summarized in three steps. In this case, the housing containing the time integration type measuring instrument is connected to the piping of the underground water use facility in an in-line form to collect the ground water sample and measure the radon concentration in the air layer of the housing Step, and calculation of the groundwater radon concentration by substituting the measurement value into Equation (2). Generally, since the water pressure has a distribution of about 1.5 kg / cm 2 to 4.0 kg / cm 2, it takes about 1 to 2 minutes for the groundwater surface to reach from the bottom of the housing to the air outlet, It will be necessary to adjust the valve connected to the piping in advance so that it can reach about one minute.

Claims (1)

An apparatus for measuring groundwater radon concentration,
A housing for sampling the sample; An 'O' -shaped loop or mesh formed at the top of the housing for mounting a time-integration measuring instrument inside the housing; A sample inlet formed at a lower side of the housing and having a valve for allowing ground water to flow from the bottom; And an air discharge port formed on a side surface of the housing and having a valve for collecting a predetermined amount of groundwater.

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