Welcome to the Industrial Automation website!

NameDescriptionContent
XING-Automation
E-mail  
Password  
  
Forgot password?
  Register
当前位置:

The Guidelines for Chemical Process Safety Management embody four major ideas and trends

F: | Au:佚名 | DA:2023-11-28 | 565 Br: | 🔊 点击朗读正文 ❚❚ | Share:

1. From the "Guidelines for the Implementation of Process Safety Management in Chemical Enterprises" to the "Guidelines for the management of Chemical Process Safety", which is also the management guidelines for the production safety of chemical enterprises, from emphasizing process safety to emphasizing process safety, why do the names of the two standards change like this?

Jiang Juncheng: The "Guidelines for the Implementation of Process Safety Management in Chemical Enterprises" was promulgated in 2011, emphasizing process safety and focusing on improving the level of chemical process safety management in China.

It can be said that Process Safety Management (PSM) is the key and difficult point of chemical enterprise safety management. Only by improving the level of process safety management can chemical enterprises fundamentally enhance their ability to prevent production safety accidents.

The process safety management system focuses on preventing major process accidents, such as fires, explosions and leaks of toxic chemicals. Process-related safety, the United States OSHA and China's AQ standard have the corresponding reference, which is one of the most important links in the safety management of chemical enterprises.

The "Guidelines for Chemical Process Safety Management" officially implemented on April 1 this year emphasizes process safety, which is to better guide and promote chemical enterprises to accelerate the management level of process safety management elements, improve the ability to prevent and resolve major safety risks, and promote the continuous and stable improvement of the national chemical safety production situation.

2. The elements of the new standard have been increased from 12 to 20 points, and management requirements such as device safety planning and design, major hazard safety management, and intrinsically safer have been added. What new trends do these new management requirements reflect in terms of concept evolution and technology development of chemical safety management?

Jiang Juncheng: The new management requirements mainly reflect the following concepts and trends:

First, the whole life cycle safety management concept.

For example, the new management requirements for device safety planning and design reflect the increasing emphasis and attention of modern chemical process safety management on the whole life cycle safety management of chemical device design, construction, production, storage, use, waste disposal, etc.

For a long time in the past, the security management of enterprise equipment and device mainly focuses on the security management of device use and maintenance stage, and this management mode has limitations. In the modern safety management concept, the scope of safety management of equipment and devices begins to expand, from pre-planning, design, manufacturing to selection, purchase, transportation, installation, and then to normal use, maintenance, technical transformation, scrap, etc., we call this whole process the full life cycle, safety management should cover the whole process and each link of the whole life cycle of the device.

Safety starts with design, starts with quality, and many accidents can be traced back to hidden dangers planted early in their projects. Therefore, for chemical equipment, safety planning and design management requirements are crucial, for example, in the planning and design stage of the device through risk analysis and assessment, in the design to take measures to reduce the safety risk of equipment, acceptance risk assessment after the purchase of equipment, from the source to reduce the safety risk of device use and maintenance process.

The second is prevention first, the concept of moving forward.

For example, the new management requirements for intrinsically safer aspects reflect the evolution of modern chemical safety management from traditional accident monitoring and early warning and emergency response after accidents to pre-accident prevention. This concept emphasizes the basic principles of Minimize, Substitute, Moderate and Simplify to eliminate process safety risks as much as possible in the initial stages of chemical process design, so as to minimize risks and realize the essential safety of processes to the greatest extent.

Strictly speaking, there is no absolute intrinsically safe process, and a process is considered intrinsically safer when it eliminates or minimizes hazardous features compared to other alternative processes. In contrast, the traditional safety method is aimed at hazard control, which can only reduce the probability of accidents or weaken the impact of accident consequences. While intrinsically safer emphasizes the elimination or minimization of hazards in the early stage of the process according to the inherent properties of substances and processes, and requires process safety to be considered in essence throughout the whole life cycle of the process, thus eliminating the possibility of accidents and achieving zero process accidents.

It should be noted that intrinsic safety and traditional safety methods are not mutually negative, but effectively complement each other and have different positions and roles in each stage of process life. Overall, intrinsic security dominates and plays a guiding role throughout the life cycle. For example, guiding traditional security methods to adopt essential enhancement schemes as far as possible at the stage level of their application.

  • Basler BE1-57/27R Solid State Protective Relay
  • Basler BE3-25AX Time Overcurrent Relay
  • BASLER ELECTRIC BE1-24/A1EF1JC1N0F / BE124A1EF1JC1N0F Overvoltage Relay
  • Basler Electric Solid State Protective Relay BE1-32R Style B2ED1PB0N0F
  • Basler BE3-51-3E1E1 9320000110 24VDC Overcurrent Relay
  • Basler UFOV 260A Underfrequency Overvoltage Module
  • Basler 50F4EA1PA0N0F Instantaneous Overcurrent Relay
  • Basler BE1-50 Instantaneous Overcurrent Relay
  • Basler BE1-32 Solid State Protective Relay
  • Basler SCP 250-G-60 VAR Power Factor Controller
  • Basler BE1-59N A5EE1KC0N0F Ground Fault Relay
  • Basler BE1-79A Reclosing Relay
  • Basler BE1-32R E1EA1OA0N0F Reverse Power Relay
  • Basler DCQA-103 DCQC104-1 CMX-7D Circuit Board
  • Basler SSR125-12 Static Regulator 918500102
  • Basler 90 17709 112 Regulator Control Board
  • Basler AVC63-4 AVC634 Voltage Regulator
  • Basler 9 1049 04 100 PC Board Control Module
  • Basler SR4A-2B03B3A Static Voltage Regulator
  • Basler SR8A-2B15B3A Static Voltage Regulator
  • Basler KR7FFX Static Regulator 840V
  • Basler EL200-7 Voltage Regulator 90-660VAC 7A
  • Basler PRP210-1 Reverse Power Relay 9056300102
  • Basler SSR 63-12 Static Regulator 600VAC
  • Basler 9289901106 Digital Board
  • Basler DECS100 Voltage Regulator DECS100A01
  • Basler Electric CEM-2020 Contact Expansion Module
  • Basler Electric BE3-25-1 C1 N4 Synchronizing Check Relay
  • Basler Electric ACA2000-50GM GigE Camera 2MP 50fps
  • Basler Electric ACA2240-20GMSYM GigE Camera Sony IMX264
  • Basler BE1-50G Ground Overcurrent Relay
  • Basler PRS250 Veri-Sync Relay
  • Basler MOC2199 Output Module
  • Basler UFOV 260A Underfrequency Overvoltage Module
  • Basler BE-15482-001 Control Module
  • Basler LSP4-7 Protective Relay
  • Basler SCP 250-G-60 VAR Power Factor Controller
  • Basler BE146N Negative Sequence Overcurrent Relay
  • Basler APR63-5 Automatic Voltage Regulator
  • Basler 9507900107 SR8A Retrofit Voltage Regulator
  • Basler BE1-320 Directional Power Relay
  • Basler KR7F Voltage Regulator 9116200100
  • Basler UFOV 260A Overvoltage Protective Module
  • Basler AEC63-7 Analog Excitation Controller
  • Basler 9992D90G01 Control Module
  • Basler 6966D22G01 Control Board
  • Basler 6965D40G01 Control Board
  • Basler BE1-50/51M-104 Overcurrent Relay
  • Basler BE1-BPR Programmable Breaker Relay
  • BASLER Electric SSR 125-9 1256 00 102 Static Voltage Regulator
  • Basler Electric MVC 112 Manual Voltage Control
  • Basler Electric 9321000102 Control Module
  • Basler Electric RA-70-MDCT7 Rectifier Assembly
  • Basler Electric ACA1300-60GM GigE Camera
  • Basler Electric 6427C85G01 Interface Board
  • Basler Electric 6965D05G01 Control Board
  • Basler Electric ACA2500-14UC Current Transducer
  • Basler Electric 9170206111 Protective Relay
  • Basler Electric BE1-11-G6D1M1J1P0E000 Protection Relay
  • Basler Electric BE1-50/51B-107 Overcurrent Relay
  • Basler 9121000106 Voltage Controller
  • Basler B3E-E1P-A0N0F Solid State Protective Relay
  • Basler 9121000106 Manual Voltage Control
  • Basler PRP320 Motor Pull-out Relay
  • Basler SSE-N 250-9KW Shunt Exciter Regulator
  • Basler BE1-50-51B-107 Overcurrent Relay
  • BASLER ELECTRIC MVC 108 MANUAL VOLTAGE CONTROL MODULE 9 0370 00 102
  • Basler BE1-59N-A7E-D1J-D0N0F Ground Overvoltage Relay
  • Basler BE1-46N-G1E-B8P-B0N0F Negative Sequence Overcurrent Relay
  • Basler BE1-951 Overcurrent Protection System
  • Basler Electric MOC2199 Motor Operated Potentiometer
  • Basler Electric BE1-60 Voltage Balance Solid State Relay B1FA1C1M1F
  • Basler Electric BE1-67N Directional Overcurrent Relay
  • Basler Electric PIA2400-17GM Interface Module
  • Basler Electric V6RAB Rectifier Module
  • Basler Electric BE1-32R Reverse Power Relay B2E E1R A0N1F
  • Basler Electric IFM-150 Firing Circuit Chassis 120V AC
  • Basler Electric IFM-102 Firing Circuit Chassis 120V AC
  • Basler Electric 9170206111 NSNP Control Module
  • Basler Electric SSR 63-12 Static Voltage Regulator
  • Basler UFOV 260A Overvoltage Protective Module
  • Basler SCA1300-32GM CCD Camera Lens Enclosure
  • Basler BA1-27 Under Voltage Relay
  • Basler 149D866G06 Control Board
  • Basler 9072300130 Power Supply Module
  • Basler CBS 305 Current Boost System
  • Basler BE1-60 Voltage Balance Relay
  • Basler Electric CBS 212 Current Boost System Sensing 120/240VAC 50/60Hz 10VA
  • Basler MVC-300 Manual Voltage Control Unit
  • Basler SSR125-12 Static Voltage Regulator 918500102
  • Basler SR32A2B05B3E Static Voltage Regulator
  • Basler Electric BE1-59N Ground Fault Overvoltage Relay
  • Basler Electric 9110000113 Excitation Module
  • Basler Electric 90-72300-114 Control Accessory
  • Basler Electric PRS-250 Protection Relay System
  • Basler Electric BE1-50/51M-109 Overcurrent Relay
  • Basler Electric SR4A1B10B3E Static Voltage Regulator
  • Basler Electric CBS 212 Current Boost System
  • Basler Electric SR32A2B05B3E Static Voltage Regulator
  • Basler Electric MOC2207 Motor Operated Potentiometer
  • Basler Electric SR4A1B05A3E Static Voltage Regulator
  • Basler Electric BE1-32R Power Relay B2EE1PA0N1F
  • Basler BEI-81 Underfrequency Relay
  • Basler CBS 212A Current Boost System
  • Basler SSR 63-12 Static Voltage Regulator
  • Basler DGC-2020 Digital Genset Controller
  • Basler BE1-32 Reverse Power Relay
  • Basler BE1-50/51B-207 Overcurrent Relay
  • Basler BE1-951 Overcurrent Protection System
  • Basler 9073800-103 Power Supply
  • Basler SCA1300-32FC CCD Camera
  • Basler 9073800-103 Power Supply
  • Basler SCA1300-32FC CCD Camera
  • Basler L304KC Protective Relay
  • Basler BE3-25-1S1N4 Time Overcurrent Relay
  • Basler 9032300113 Excitation Support System
  • Basler BE1-59N Ground Overvoltage Relay
  • Basler MVC-300 Manual Voltage Control Unit
  • Basler MOC2102 Potentiometer
  • Basler BE1-87G Generator Differential Relay
  • Basler Electric DECS-200 Digital Excitation Control System
  • Basler Electric DECS 125-15-B2C5 Digital Excitation System
  • Basler Electric PLA2400-12GM Power Supply
  • Basler Electric BE1-50/51B-235 Overcurrent Relay
  • Basler Electric BE1-27/59 Undervoltage Overvoltage Relay
  • Basler Electric CEM-2020 Contact Expansion Module
  • Basler Electric BE1-32R Solid State Power Relay
  • Basler Electric BE1-700 Digital Generator Management Relay