CN116859842A - Chemical production line safety evaluation system - Google Patents

Abstract

The invention discloses a chemical production line safety evaluation system, which belongs to the technical field of chemical production safety and comprises an acquisition module and an evaluation module; the acquisition module is used for acquiring chemical production line information applied in enterprises; the evaluation module is used for evaluating the acquired chemical production line information and identifying the safety risk item of the current chemical production line, and the evaluation method comprises the following steps: based on chemical production line information, acquiring corresponding safety reference data, and analyzing the safety reference data to obtain hidden danger items and corresponding hidden danger values; and extracting corresponding hidden danger item analysis data from the chemical production line information according to the hidden danger items, evaluating the hidden danger item analysis data to obtain corresponding correction coefficients, substituting the obtained correction coefficients and hidden danger values into a risk evaluation formula to calculate corresponding risk values, and marking hidden danger items with the risk values larger than a threshold value X1 as safety risk items.

Description

Chemical production line safety evaluation system

Technical Field

The invention belongs to the technical field of chemical production safety, and particularly relates to a safety evaluation system of a chemical production line.

Background

At present, a chemical plant production line refers to a production line work in a factory, which is a production mode in industry, and refers to a work of only processing a certain segment by each production unit, so as to improve the working efficiency and the yield. The chemical production is an indispensable production work in the current social development, but the chemical production has unavoidable dangers, so that the safety problem in the chemical production needs to be paid attention to, especially for the chemical production lines of enterprises with insufficient experience and hard covers, the production safety problem is extremely easy to cause, and therefore, in order to reduce the occurrence probability of safety accidents and the influence after the accidents in the chemical production process, the invention provides a safety evaluation system of the chemical production line;

as disclosed in chinese patent CN115202312B, an intelligent system for inspecting and controlling chemical safety production is disclosed, which comprises a management module for recording a main inspection task, a distribution module for dividing the main inspection task into a plurality of sub inspection tasks and distributing the sub inspection tasks to corresponding inspection terminals, a map module arranged in the inspection terminals, a monitoring module for real-time monitoring the moving route of the inspection personnel, a recording module for recording the running parameters of the equipment in the inspection process, a positioning module for positioning the current position of the inspection terminals, and a verification module for verifying the identity information of the inspection personnel using the inspection terminals, wherein the inspection personnel inspect the equipment one by one according to the serial numbers by inspecting the serial numbers according to the inspection sequence, thereby preventing the condition of missing inspection in the traditional inspection process.

The probability of occurrence of safety accidents in chemical production is reduced through a daily inspection mode, but the efficiency of the mode is lower, and when the intelligent degree of equipment is higher and higher, the intelligent equipment has the function of automatically collecting and uploading corresponding parameters, so that the intelligent equipment cannot play a preset role, and particularly cannot play a role in safety accidents caused by human negligence in the production process, and the safety accidents caused by human negligence occupy a larger proportion in the safety accidents in chemical production.

Disclosure of Invention

In order to solve the problems of the scheme, the invention provides a chemical production line safety evaluation system for solving the existing chemical production safety problems.

The aim of the invention can be achieved by the following technical scheme:

the chemical production line safety evaluation system comprises an acquisition module, an evaluation module, a recommendation module and a work safety module;

the acquisition module is used for acquiring chemical production line information applied in enterprises;

the evaluation module is used for evaluating the acquired chemical production line information and identifying the safety risk item of the current chemical production line, and the evaluation method comprises the following steps:

based on chemical production line information, acquiring corresponding safety reference data, and analyzing the safety reference data to obtain hidden danger items and corresponding hidden danger values;

and extracting corresponding hidden danger item analysis data from the chemical production line information according to the hidden danger items, evaluating the hidden danger item analysis data to obtain corresponding correction coefficients, substituting the obtained correction coefficients and hidden danger values into a risk evaluation formula to calculate corresponding risk values, and marking hidden danger items with the risk values larger than a threshold value X1 as safety risk items.

Further, the risk assessment formula is fx=p×yh;

wherein: FX is a risk value; p is a correction coefficient; YH is the hidden trouble value.

Further, the recommendation module is used for pushing corresponding course data to corresponding management personnel according to the identified security risk items.

Further, the working method of the recommendation module comprises the following steps:

and establishing a course library according to the chemical production line information, acquiring the supplementary direction corresponding to each safety risk item, and matching corresponding course data from the course library based on the supplementary direction.

Further, the work safety module is used for monitoring and analyzing the safety risk items, knowing the production conditions of the chemical sections corresponding to the safety risk items in real time, and generating a corresponding processing scheme for processing.

Further, the working method of the working safety module comprises the following steps:

perfecting monitoring and collecting equipment according to each safety risk item, and collecting corresponding data in real time through the monitoring and collecting equipment;

presetting employee monitoring labels corresponding to each security risk item, and associating corresponding processing schemes for each employee monitoring label;

and acquiring employee work data corresponding to each security risk item, analyzing the employee work data in real time, acquiring corresponding employee monitoring labels, matching corresponding processing schemes based on the acquired employee monitoring labels, and carrying out corresponding processing according to the acquired processing schemes.

Further, the monitoring and collecting device comprises a target gas monitoring device, wherein the target gas monitoring device is arranged for the corresponding safety risk item and is used for monitoring target gas generated at the safety risk item.

Further, the staff monitoring labels comprise staff non-state work labels, when the analyzed staff monitoring labels are staff non-state work labels, warning is carried out through a warning device, a course library is associated, corresponding course data are matched, and the corresponding staff learning is sent.

Further, the method for matching course data in the recommendation module includes:

the method comprises the steps of obtaining corresponding teaching requirements, matching corresponding to-be-selected data from a course library according to the teaching requirements, analyzing the to-be-selected data to obtain an acceptance value, an education value, a first proportion coefficient and a second proportion coefficient corresponding to each to-be-selected data, marking the acceptance value, the education value, the first proportion coefficient and the second proportion coefficient as JC, JY, b1 and b2 respectively, calculating a corresponding priority value YM according to a priority formula YM=b1×JC+b×JY, and selecting the to-be-selected data with the highest priority value as matched course data.

Compared with the prior art, the invention has the beneficial effects that:

through the mutual cooperation between the acquisition module and the evaluation module, the potential safety hazard of the current chemical production line running in the current enterprise can be intelligently evaluated, corresponding safety risk items are identified, the enterprise is convenient to conduct corresponding management, especially for chemical enterprises with smaller corresponding scale and weaker capability, the intelligent determination of the safety risk items in the enterprise is important, and when the actual situation of the enterprise changes, the safety risk items can be dynamically evaluated without the need of engaging relevant experts for evaluation, so that the enterprise safety risk management system is efficient and labor-saving.

Through setting up the recommendation module, the supplementary enterprise of intelligence promotes safety control, realizes mutually supporting with evaluation module between, carries out chemical production risk management and control from the actual chemical production source of enterprise, reduces the emergence of chemical safety accident.

Through setting up work safety module, realize the real-time safety monitoring to each safety risk item in the production process, through mutually supporting with evaluation module and recommendation module between, realize the safety evaluation monitoring of chemical production overall process, ensure chemical production's safety goes on, and set up gas detection equipment special for each safety risk item, ensure when the target gas appears in this position, the discernment that can be quick, but not whole space lay, the pertinence detects this safety risk item production target gas department, avoid wasting the diffusion time of gas, especially under the condition of fan work, lead to discovery hysteresis.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the following description will briefly explain the drawings used in the embodiments or the description of the prior art, and it is obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings can be obtained according to these drawings without inventive effort to a person skilled in the art.

Fig. 1 is a functional block diagram of the present invention.

Detailed Description

The technical solutions of the present invention will be clearly and completely described in connection with the embodiments, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1, a chemical production line safety evaluation system comprises an acquisition module, an evaluation module, a recommendation module and a work safety module;

the acquisition module is used for acquiring chemical production line information applied in enterprises, such as data of which chemical products are produced, which equipment components are included, the conditions of workers corresponding to each production section, and the like, and capability data of operators, maintenance workers, and the like, such as academic, working experience, and the like, of each production section corresponding to each production section indicated by the conditions of workers.

The evaluation module is used for evaluating the acquired chemical production line information and identifying the safety risk item of the current chemical production line, and the specific process is as follows:

acquiring safety accident data of the chemical production line in the current market according to the acquired chemical production line information, namely acquiring the acquired historical safety accident data which can be acquired by utilizing the prior art and is generated by using the chemical production line, marking the acquired safety reference data as safety reference data, analyzing the acquired safety reference data to acquire hidden danger items corresponding to the chemical production line and hidden danger values corresponding to the hidden danger items, wherein the hidden danger items refer to production links or production sections in the chemical production line which are more likely to generate safety accidents, the production links are likely to generate safety accidents, the safety accidents are set according to the quantity and specific gravity of the generated accidents, specifically, a corresponding reference evaluation model is established based on a CNN network or a DNN network, the corresponding training set is established in a manual mode, the safety reference data is evaluated by the reference evaluation model after the training is successful, and the hidden danger values corresponding to the hidden danger items are acquired.

Acquiring hidden danger item analysis data corresponding to hidden danger items in chemical production line information, namely actual condition data of the current enterprise at each hidden danger item, and data related to the hidden danger items such as equipment maintenance data, detection data, employee capability data and the like; because the strength and the management level of different enterprises are different, the risk degree of the same hidden danger in different enterprises can be extremely different, and therefore, the enterprise needs to be subjected to targeted analysis based on actual conditions, the correction coefficient and the supplementing direction of the enterprise relative to the hidden danger item are obtained by analyzing hidden danger items and corresponding hidden danger item data, the supplementing direction is set for the correction coefficient which is larger than 1, namely, the correction coefficient is smaller than 1, the supplementing direction is not, and the enterprise is qualified in the production management of the hidden danger item, and is excellent; the supplementing direction is the insufficient direction of the enterprise in the hidden danger item, such as insufficient staff capacity, insufficient maintenance, insufficient monitoring and the like, and specifically, a corresponding parameter analysis model is established based on a CNN network or a DNN network, a corresponding training set is established in a manual mode for training, and the hidden danger item and corresponding hidden danger item data are analyzed through the parameter analysis model after the training is successful, so that a corresponding correction coefficient and the supplementing direction are obtained;

and respectively marking the obtained correction coefficient and hidden danger value as p and YH, calculating a corresponding risk value FX according to a risk assessment formula FX=p×YH, and marking hidden danger items with the risk value larger than a threshold value X1 as safety risk items.

Through the mutual cooperation between the acquisition module and the evaluation module, the potential safety hazard of the current chemical production line running in the current enterprise can be intelligently evaluated, corresponding safety risk items are identified, the enterprise is convenient to conduct corresponding management, especially for chemical enterprises with smaller corresponding scale and weaker capability, the intelligent determination of the safety risk items in the enterprise is important, and when the actual situation of the enterprise changes, the safety risk items can be dynamically evaluated without the need of engaging relevant experts for evaluation, so that the enterprise safety risk management system is efficient and labor-saving.

The recommendation module is used for generating important monitoring measures and corresponding staff safety training directions of enterprises for the safety risk items according to the identified safety risk items, assisting the enterprises in reducing the occurrence probability of safety accidents in subsequent chemical production, and improving the safety of the chemical production from the source; the specific process is as follows:

according to chemical production line information, a large amount of course data related to the production line are collected, the course data not only comprise capacity improvement courses, but also comprise various safety warning videos and other data, staff and the like are helped to know the hazards of the safety warning videos, for example, corresponding safety accident videos can be pushed for scattered work of first-line staff, the corresponding course data can be obtained by specifically utilizing the existing retrieval technology, and a corresponding course library is established according to the obtained course data;

the supplementing direction corresponding to each safety risk item is obtained, and for the condition without the supplementing direction, the enterprise is indicated that the enterprise can not supplement staff, equipment maintenance and the like, and only needs to carry out subsequent key monitoring; and matching proper course data from the course library according to the obtained supplementary direction, pushing the obtained course data to corresponding management personnel, and determining when, where and whether training is carried out by the management personnel.

Through setting up the recommendation module, the supplementary enterprise of intelligence promotes safety control, realizes mutually supporting with evaluation module between, carries out chemical production risk management and control from the actual chemical production source of enterprise, reduces the emergence of chemical safety accident.

In another embodiment, as the course data stored in the course library is more and more, the variety of the course data conforming to the supplement direction is not limited to one type, but has multiple choices, and the subsequent targeted courses for the staff may also have multiple choices, so that an intelligent recommendation method needs to be provided, and suitable course data is intelligently recommended according to the actual situation, so that the situation that the manager needs to select or push too many course data, resulting in the anaerobic condition of the audience is avoided, which is specifically as follows:

corresponding teaching requirements including teaching requirements corresponding to working labels of staff in a supplementing direction and working safety module are obtained, course data meeting the teaching requirements are matched from a course library according to the obtained teaching requirements, the teaching requirements are marked as to-be-selected data, analysis is carried out from an actual receiving angle, namely, analysis is carried out according to the actual situation of an audience, corresponding receiving values and education values are output, for example, for a first staff, the teaching requirements which are more suitable for popular and easy understanding are probably caused by self knowledge, the more the receiving values occupy the same place, specifically, a corresponding demand analysis model is established based on a CNN network or a DNN network, a corresponding training set is established in a manual mode for training, the teaching requirements and the to-be-selected data are analyzed through the demand analysis model after the training is successful, the corresponding receiving values, the education values and the proportional coefficients respectively corresponding to the receiving values and the education values are respectively the first proportional coefficient and the second proportional coefficient, the education values are respectively marked as JC, the YM 1 and the b2, the priority is increased, the priority value is calculated according to the teaching quality carried out on the to-be-selected data, and the priority value is the best-selected data according to the priority value JC 1+b.

The working safety module is used for monitoring and analyzing the safety risk items, knowing the production conditions of chemical sections corresponding to the safety risk items in real time, carrying out safety operation analysis, judging whether equipment perfection is required according to the actual conditions of the safety risk items, namely judging whether corresponding acquisition equipment is required to be additionally arranged for realizing data acquisition of the safety risk items according to the actual working environment, guaranteeing the acquisition of corresponding data, and operating video acquisition of staff working at the safety risk items; also, as gas detection, target gas generation caused by illegal operation is aimed at some toxic and inflammable gas leakage; perfecting monitoring equipment;

for safety monitoring in the working process, the invention is carried out from two aspects of staff operation and target gas detection, and for gas detection equipment, the invention is specially arranged for each safety risk item, so that when the target gas appears at the position, the target gas can be rapidly identified, but not the whole space is arranged, the target gas generated by the safety risk item is detected in a targeted way, the waste of gas diffusion time is avoided, and particularly, the discovery is delayed under the condition of fan operation; namely, the target gas monitoring equipment is set for each safety risk item;

the employee work data corresponding to each security risk item, namely the data acquired by the acquisition equipment, are acquired in real time; presetting employee monitoring labels corresponding to each security risk item, wherein the employee monitoring labels are labels which can be possibly provided for the employee to work at the security risk item according to normal work, disfiguring, sleeping and other non-working states, abnormally adding various labels of articles such as catalysts, raw materials and the like, associating corresponding processing schemes for each employee monitoring label, such as abnormally adding the article labels, generating verification schemes corresponding to phenomenon association according to the result, generating target gas and the like if the reaction is too severe, and identifying corresponding expression forms in real time when the abnormally adding article labels occur, and carrying out subsequent judgment and emergency processing; if the working labels are in a non-state such as a vague state and a sleeping state, the corresponding warning devices are associated to warn, a course library is associated, warning videos corresponding to the behaviors are matched, and the warning videos are sent to corresponding staff for learning; specific setting corresponding processing schemes for association according to actual conditions;

analyzing the obtained employee working data in real time to obtain corresponding employee monitoring labels, specifically, establishing a corresponding monitoring analysis model based on a CNN network or a DNN network, establishing a corresponding training set in a manual mode for training, and analyzing the employee monitoring data through the monitoring analysis model after successful training to obtain the corresponding employee monitoring labels; and based on the obtained employee monitoring label matching corresponding processing scheme, carrying out corresponding processing according to the obtained processing scheme.

Through setting up work safety module, realize the real-time safety monitoring to each safety risk item in the production process, through mutually supporting with evaluation module and recommendation module between, realize the safety evaluation monitoring of chemical production overall process, ensure chemical production's safety goes on, and set up gas detection equipment special for each safety risk item, ensure when the target gas appears in this position, the discernment that can be quick, but not whole space lay, the pertinence detects this safety risk item production target gas department, avoid wasting the diffusion time of gas, especially under the condition of fan work, lead to discovery hysteresis.

The above formulas are all formulas with dimensions removed and numerical values calculated, the formulas are formulas which are obtained by acquiring a large amount of data and performing software simulation to obtain the closest actual situation, and preset parameters and preset thresholds in the formulas are set by a person skilled in the art according to the actual situation or are obtained by simulating a large amount of data.

The above embodiments are only for illustrating the technical method of the present invention and not for limiting the same, and it should be understood by those skilled in the art that the technical method of the present invention may be modified or substituted without departing from the spirit and scope of the technical method of the present invention.

Claims (9)

1. The chemical production line safety evaluation system is characterized by comprising an acquisition module and an evaluation module;

the acquisition module is used for acquiring chemical production line information applied in enterprises;

the evaluation module is used for evaluating the acquired chemical production line information and identifying the safety risk item of the current chemical production line, and the evaluation method comprises the following steps:

based on chemical production line information, acquiring corresponding safety reference data, and analyzing the safety reference data to obtain hidden danger items and corresponding hidden danger values;

and extracting corresponding hidden danger item analysis data from the chemical production line information according to the hidden danger items, evaluating the hidden danger item analysis data to obtain corresponding correction coefficients, substituting the obtained correction coefficients and hidden danger values into a risk evaluation formula to calculate corresponding risk values, and marking hidden danger items with the risk values larger than a threshold value X1 as safety risk items.

2. The chemical production line safety evaluation system according to claim 1, wherein the risk evaluation formula is fx=p×yh;

wherein: FX is a risk value; p is a correction coefficient; YH is the hidden trouble value.

3. The chemical production line safety assessment system according to claim 1, further comprising a recommendation module for pushing corresponding course data to corresponding administrators according to the identified safety risk items.

4. A chemical production line safety assessment system according to claim 3, wherein the working method of the recommendation module comprises:

and establishing a course library according to the chemical production line information, acquiring the supplementary direction corresponding to each safety risk item, and matching corresponding course data from the course library based on the supplementary direction.

5. The chemical production line safety evaluation system according to claim 1, further comprising a work safety module, wherein the work safety module is used for monitoring and analyzing safety risk items, knowing production conditions of chemical sections corresponding to the safety risk items in real time, and generating corresponding processing schemes for processing.

6. The chemical production line safety assessment system according to claim 5, wherein the working method of the working safety module comprises:

perfecting monitoring and collecting equipment according to each safety risk item, and collecting corresponding data in real time through the monitoring and collecting equipment;

presetting employee monitoring labels corresponding to each security risk item, and associating corresponding processing schemes for each employee monitoring label;

and acquiring employee work data corresponding to each security risk item, analyzing the employee work data in real time, acquiring corresponding employee monitoring labels, matching corresponding processing schemes based on the acquired employee monitoring labels, and carrying out corresponding processing according to the acquired processing schemes.

7. The chemical production line safety assessment system according to claim 6, wherein the monitoring and collection device comprises a target gas monitoring device configured for a corresponding safety risk item for monitoring target gas generated at the safety risk item.

8. The chemical production line safety evaluation system according to claim 6, wherein the staff monitoring label comprises a staff non-working label, and when the analyzed staff monitoring label is the staff non-working label, the staff monitoring label is warned by a warning device and is associated with a course library, and the corresponding course data is matched and sent to corresponding staff learning.

9. The chemical production line safety assessment system according to claim 4, wherein the method for matching course data in the recommendation module comprises:

the method comprises the steps of obtaining corresponding teaching requirements, matching corresponding to-be-selected data from a course library according to the teaching requirements, analyzing the to-be-selected data to obtain an acceptance value, an education value, a first proportion coefficient and a second proportion coefficient corresponding to each to-be-selected data, marking the acceptance value, the education value, the first proportion coefficient and the second proportion coefficient as JC, JY, b1 and b2 respectively, calculating a corresponding priority value YM according to a priority formula YM=b1×JC+b×JY, and selecting the to-be-selected data with the highest priority value as matched course data.