A. V. Batyunin scite author profile

The required range of neutron radiation intensity monitoring of the International Experimental Thermonuclear Reactor (ITER) is from 10 14 to10 21 n/s. One of the systems of neutron diagnostics, called the Divertor Neutron Flux Monitor (DNFM), contains as primary converters fission chambers (FCs) placed in the ITER Vacuum Vessel beneath the Divertor Dom. During the operation the FCs will be exposed to the intense neutron radiation and electromagnetic fields. The expected neutron flux at the location of the DNFM FC is 10 6-10 13 n•cm-2 •s-1. A distinctive feature of the neutron diagnostic channel for ITER is the desired time resolution of 1 ms and a measuring error of 10%. Such a requirement can be realized only at an FC signal registration rate of at least 1•10 5 s-1. Therefore, the pulse mode of processing the FC signals is very limited and it will probably be used only for calibration and diagnostics of the equipment. The working monitoring range of the channel with one FC will be less than 7 orders of magnitude. This explains the necessity of using several FCs with different sensitivity in the DNFM. The hardware of the signal processing equipment will be the same for all FCs. The wide-range channel equipment circuitry development for DNFM recording signals is based on the experience of the MEPhI in the development, implementation and operation of wide-range neutron flux monitoring equipment for control and protection systems (CPS) for various types of nuclear reactors. An important factor in the design of such equipment is the use of the fluctuation (Campbell) mode of fission chamber operation and signal processing equipment. The use of the fluctuation mode made it possible to radically solve the problem of the neutron flux monitoring in CPS channels in the 10-order range using a single FC. The equipment operates in the pulse, fluctuation and current modes. The work which related to the testing of the DNFM detector unit (DU) mockup by the influence of intensive fluxes of neutron and gamma radiation and evaluation of technical decisions of the neutron flux monitoring channel was performed with use of the research reactors. The fission chamber Signals Processing Unit (SPU) was used. This device based on microprocessors with wide application of high integration chips, including complex programmable logic devices (CPLD).Taking into account the requirements for ITER neutron diagnostics and the conditions for DU testing, the SPU circuitry was adjusted and the software of microprocessors and CPLDs was modified to control the temperature of the DU. In addition, a test complex including hardware and software for controlling equipment, processing and recording measurement data is assembled for a detailed research of the DU characteristics. The test complex includes the remote thermo assembly and the control and signal processing equipment. Thermo assembly includes an electric heater (EH) and a thermocouple (TC). Control and signal processing equipment consist of heater power supply (PS), DU signals processing unit ...

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Neutron diagnostics on the Angara-5 assembly

Batyunin¹,

Bulatov²,

Zaĭtsev³

et al. 1991

At Energy

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Formation of the Neutron Energy Spectrum Near the Target of a Portable NG-24M Neutron Generator

et al. 2016

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A. V. Batyunin

Fission chamber simulator for data acquisition performance tests

Thermal–hydraulic analysis of a candidate design for ITER divertor neutron flux monitor (DNFM)

Fission Chambers Detector Unit Mockup Testing at Research Reactors

Neutron diagnostics on the Angara-5 assembly

Formation of the Neutron Energy Spectrum Near the Target of a Portable NG-24M Neutron Generator

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