RU115080U1 - AUTOMATED SYSTEM OF TECHNOLOGICAL RADIATION CONTROL OF PIPELINES AND EQUIPMENT OF MARINE PLATFORM AND TERMINALS - Google Patents

Abstract

An automated system of technological radiation monitoring of pipelines and equipment of offshore platforms and terminals, consisting of radiation monitoring units based on gamma-spectrometric scintillation sensors in a sealed capsule, a power supply unit, communications, equipment for collecting, processing and recording information on the assessment of the parameters of salt deposition, characterized in that a hardware and software complex was introduced into the system, including an industrial computer and software, as well as an information output device connected with an industrial computer.

Description

The utility model relates to the field of radiation safety and relates to radiation monitoring technologies at industrial facilities.

A known system of technological radiation monitoring in marine nuclear power plants, consisting of detection units, including sensors of general gamma activity and spectrometric sensors, equipment for collecting, processing and summarizing data on the radiation situation, power supply, communication. (Ship nuclear power plants. V.A. Kuznetsov, Publishing house "Shipbuilding", Leningrad, 1989) - prototype.

The known system has several disadvantages for the implementation of technological radiation control on pipelines and equipment of offshore platforms and terminals.

It does not allow to assess the intensity of scaling on the internal surfaces of pipelines and equipment.

The objective of the proposed utility model is to provide the possibility of radiation monitoring of offshore platforms and terminals and at the same time evaluate the parameters of scaling containing radionuclides of natural origin on the internal surfaces of pipelines and equipment.

To do this, into an automatic system of technological radiation monitoring of pipelines and equipment of offshore platforms and terminals, consisting of radiation monitoring units based on gamma-spectrometric scintillation sensors in an airtight capsule, power supply and communications unit, equipment for collecting, processing and recording information on the estimation of scaling parameters, according to utility model introduced hardware-software complex, including an industrial computer and software connected to the blocks of radiation go control, and an information output device associated with an industrial computer.

The introduction of a hardware-software complex allows you to process information in such a way that data will be obtained at the output, allowing you to evaluate the parameters of scale, including:

- dose rate of gamma radiation from elements of the equipment of the offshore platform during operation;

- dose rate and spectral composition of gamma radiation at the collection point for disposal of solid salt deposits contaminated with radionuclides of natural origin;

- volumetric activity and isotopic composition of a solution containing radionuclides of natural origin, in the process of waste disposal.

These data are necessary for evaluating the parameters of scaling on the internal surfaces of pipelines and equipment, which will allow us to analyze the average thickness and growth rate of scaling. This information can be used to determine the moment when it is necessary to clean the pipelines, as well as the cleaning efficiency after it.

In addition, the possibility of determining the dose rate, isotopic composition of scaling and their specific activity is necessary when implementing the technological process for the disposal of industrial waste contaminated with radionuclides of natural origin obtained by chemical cleaning of pipelines.

The essence of the utility model is illustrated in the figure, which shows a block diagram of the proposed automated system for technological radiation monitoring of pipelines and equipment of offshore platforms and terminals.

The system contains radiation monitoring units 1, made on the basis of gamma-spectrometric scintillation sensors with a germanium crystal Bi 76 * 76 mm in sealed capsules, connected to power and switching units 2, which are connected to information collection, processing and recording equipment 3. In the collection equipment , processing and recording information 3 introduced a hardware-software complex 4, including an industrial computer and software (not shown), which is connected to an information output device 5, communicating annym with an industrial computer (not shown).

Technological radiation control of pipelines and equipment on offshore platforms and terminals using the proposed automated system is carried out as follows.

The radiation monitoring units 1 are placed on pipelines and equipment of offshore platforms and terminals (not shown in the figure) to be monitored, the time measurement mode is selected in the spectrometer mode, which is entered into the control program of the hardware-software complex 4, which includes the measurement mode of equipment items. The measurement results obtained from the radiation monitoring units 1 in the form of energy spectra that carry information on the content and composition of naturally occurring radionuclides in the scale, by processing in hardware-software complex 4 are converted into the activity of naturally occurring radionuclides, using the software included in the composition of the hardware-software complex 4 is compared with the threshold activity values obtained during the model test. The results of the measurements and the processing are transmitted to the information output device 5. Based on the obtained values of the activity of radionuclides of natural origin and the developed software included in the hardware-software complex 4, the presence of scaling and their parameters are determined.

Thus, the technological radiation monitoring system solves all the necessary tasks to ensure the radiation safety of offshore platforms and terminals, which distinguishes the device from the prototype.

Claims (1)

Automated system for technological radiation monitoring of pipelines and equipment of offshore platforms and terminals, consisting of radiation monitoring units based on gamma-spectrometric scintillation sensors in an airtight capsule, power supply, communications, equipment for collecting, processing and recording information on the assessment of scaling parameters, characterized in that a hardware-software complex was introduced into the system, including an industrial computer and software, as well as an inf output device rmatsii associated with industrial PC.