DE1589988A1 - Procedure for measuring the dose equivalent of the mixed gamma neutron radiation and the arrangement for carrying out this procedure - Google Patents

Description

1599988

Badan Jfdrowyoh Warsiawa, Poland

Procedure for the measurement of the Dosls equivalent · the Approved Gaaata I Neutron Radiation and Arrangement on the burc & lead of this procedure *

Patent protection has lasted since ...

The SpdfIndisag has provided the process for anchoring the dose equivalency of the mixed GaBta * -EeutroneE radiation and arranging for this to be carried out

Procedure

The Qrad the radiation hazard with the help of the information provided by

rated.

The patent officer stated that Dipl.-Ing. PSZOTA the inventor 1st

BATH ORIGINAL

-a- 1589 ?!

According to the Dtiinltion of the International Committee for Bateation Units and Badiationsbeaeeeungen (JCRU Report 10a), the dose equivalent (BB) is the product of the afesoMerttn Dosi8 (D) _{t of} the quality factor (QP) and d * · division factors (DF) ι

DB _a D χ QF I Di

The evaluation method of the DF granting factor is up to not yet bestinmfc and "i has been accepted" that * le resembles a unit "

Boron quality factor QF is a function of the linear strobe font tmd represents the biological sfektiTität in the situation of the strablungechut © *. S · »is the unit of the Boeisäquivaltnts, the previous assessment methods _t which were used to bestisnaag the Doeieäquiralents of the seen ray ling, are based on the measurement, with the help of separate sound elements _for the radiation components, wringing the radiation xxnienstraMt The method is used in all the Soviet Union, the United States and the United States, France, the German Federal Republic and Great Britain and is based on the radiation levitation with the help of the Xonisationskaaern and the beaessuag of the "#utronization by means of detectors" from the moderator (Vom Type τοη laaktns »inderson) · Such measurements

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1589998

are bothersome and have disadvantages. In some American and English centers a detector in the form of a double ionization chamber is used

Devices of the type of this detector measure the dose equivalent of the radiation in only a limited range of the neutron energy tone keV to 10MeT ₉ in connection with which these devices require essential devices for the neutron energy below 100 keV as well as over 10 MtY »

The dimensioning procedure, which is based on the principle Effects of Sänlenrekomblnation in gases is based, sioh as a method of measuring the dose equivalent of the mixed radiation in the beginning ikitwickluxigsstadiua, As it is from the Xtiteratape ^ uelleai can be seen, this method was used in the Central en CTEEN (Switzerland) and BrooktiaTen (United States) Sound Hordamerica) adapted *

This method, also known as a combination procedure, has a number of compartment parts, namely limited Measurement dy namics up to 10 rem / hours Pressure gas filling, which causes serious difficulties with regard to the measurement in the leide τβη Schwaohetromneutronen *, _ .. ■ '

109884/0255

BAD ORIGINAL ';, ^: ->

- ♦ - ■. 1583388

In the case of a method according to the present invention, one immediate measurement of the bosis equiralont of the geaificitsn Radiation becomes a Seaessungsrorrichtiuag, like it is shown la Hg «1, applied * the detector arrangement consists of a syiindric ionization chamber, which is equivalent to tissue 1, and the organic scintillator 2. The organic scintillator alt dem fotorerri eleven acher 3 form the scintillator counter » the la current area works »Konstxmktionsaäsaig is the organic scintillator within the Electrode of the central ionisationskaaer arranged In the case of the Slectroaeter 4, the frequency of the S ^ annuEsen, which in a specially chosen system of alarm stands at its entrance, beaeftsen

When erfinduagageaä.asen TERF the Beaessusg Ahren is di "linear Abhängigkeitj which zwlsehen dea ratio of Anseigen of Seintillationsaähler * I ^ is the power of abeobiertan dose P and dea factor Strahlungiqualität QF, auegtautst" Tuck ibhänsigkelt which is geaeigt in Hg ₉ 2 , is expressed by the equation

ehongt "" "■ - ■" ■ "" -.

■? F ■

Q? »10/1 - 0.9 E - * - /» * o ^K glütsih constan · 1st » Sa them force of the absorbed dose P alt dea stroa

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BATH ORIGINAL,

Ionlsationskaaer X ^ is connected »P m aljj, where a is equal, constans, the Dosi © is equivalent BS a. ^ Χ i» * (% - 0.9 KIf) IOa.

From this fc # ic & clothes gehfc indicate tHe DE proportioneil let ser difference between dea Ström of ionization "canter and the Stroateil the lot overvl el fächere" You Rated DB can proceed by dee the Stngangawiderstand Elektrometerß so _f selects as the one in Hg · shown is «The result of such a connection is the direct measurement of the dose * equivalent in rem« a. The field of application of the method of the present invention extends to the mixed Samma-T neutron radiation iron theory to fast and inclusive relatiristic neutrons of any composition Radiation »The measurement method according to the present invention has some additional advantages ₉ but not heavily dependent on Tom Q? the radiation, ease of insgleiehs the mental state of both detectors great by changing the gain of the photomultiplier "uribegrenster Beaeesiingsbtreieh toward dose" \ _f strengthen Wii kungeaOglichkeit in strong I * pulef eidern,

- ο. y

109384 / 02SS

BADORlGtNAL

Possibility of using a thin-walled construction, depending on the design loads
The charging eg esa s se method is particularly useful in the stress field of nuclear reactors, accelerators and other work in the use of neutron sources. It can be used in the form of a portable or stationary apparatus.

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BATH ORIGINAL

Claims (1)

1589388 1. Procedure for measuring the dose equivalent mixed faiama chewing blasted, thereby keruiseicbntiis that the difference between the currents in the arrangement of the detectors of the ionization chamber (1) equivalent to the tissue is usd d «m Strooscintillationasanier (2, 3) is measured, where this difference is proportional to the bosie equivalent of the mixed gamma-heutron radiation * while the linear dependence of the Ratio of the current of the scintillation counter for the flow of the ionization chamber (1) utilizes the radiation quality factor, 2 · arrangement for implementing the Method E according to claim 1, characterized in that it consists of a cylindrical ionization chamber (I) ₉ a scintillator (2) and a photomultiplier (3), wherein the scintillator is disposed within the ionization chamber (1) ₀ as well as from a slectrometer (4) connected at the same time to the chamber (1) and the photorerriel fan (3) " 3 © Regulations for carrying out the procedure J & spruek 2, characterized in that the scintillator (2) an organic compound is « 109884/0255,
BAD ORK3INM L e r s e i t e