HG/T 20655-2016 Technical code for design requirements for monitoring and control of heat supply unit and steam turbine unit in chemical plant (English Version)
Technical code for design requirements for monitoring and control of heat supply unit and steam turbine unit in chemical plant
1 General
1.0.1 This standard is formulated to ensure that the monitoring and control objects determined by heat supply units and steam turbine unit in chemical plant meet the requirements of safe, reliable and long-term stable operation.
1.0.2 The application scope of this code is as follows:
——A single non-reheat steam boiler with rated evaporation capacity of 670t/h, steam pressure of 13.7 MPa (G) and steam temperature of 540 °C or below and its supporting auxiliary system;
——Coal-fired, oil-fired and gas-fired hot water boilers and their supporting auxiliary systems;
——Oil-fired and gas-fired organic heat carrier boilers and their supporting auxiliary systems;
——A single steam turbine with rated power of 100MW or below and its supporting auxiliary system.
1.0.3 The design of monitoring and control of heat supply unit and steam turbine unit in chemical plant shall also comply with those stipulated in the current relevant standards of the nation in addition to those in this standard.
2 Terms
2.0.1 heat supply unit
equipment for providing heat energy for the chemical plant, including steam boilers, hot water boilers, organic heat carrier boilers and auxiliary systems
2.0.2 monitoring
measurement and checking of various parameters in the production process, allowing operators to monitor the operation of the system in time and ensure that the system runs within the specified parameters
2.0.3 automatic adjustment
automatic maintenance system runs under the given parameters
2.0.4 interlock
to automatically make the process enter a safe state through mutual contact and response among equipment to ensure safety of the system when the system runs beyond the set safe operation range.
2.0.5 sequence control
according to the preset program, to make each execution object in the production process automatically operate in sequence with the relevant conditions met so as to ensure the normal operation of the production process.
3 Control principle
3.1 Control level
3.1.1 Distributed Control System (DCS)/Fieldbus Control System (FCS) or Programmable Logic Controller (PLC) should be adopted as the control system. The control level of heat supply unit and steam turbine unit shall be consistent with or equivalent to the overall control level of the chemical plant.
3.2 Control mode
3.2.1 Centralized control should be adopted for the following heat supply units and steam turbine units:
1 Single steam boiler with rated evaporation capacity greater than or equal to 10t/h.
2 Single hot water boiler with rated thermal power greater than or equal to 7MW.
3 Single organic heat carrier boiler with rated thermal power greater than 7MW.
4 Single steam turbine unit with rated power greater than 1MW.
3.2.2 The control room should be arranged in the heat supply unit area, or uniformly arranged in the central control room of the whole plant according to the situation of the chemical plant and its equipment arrangement.
3.2.3 Auxiliary systems shall be provided with local control rooms in combination with adjacent or similar systems based on the principle of reducing local control rooms, so as to realize local centralized control. The auxiliary systems with simple process flow and convenient local operation may also adopt a local control mode.
4 Monitoring
4.0.1 The following operating parameters shall be monitored for heat supply unit and steam turbine unit:
1 Safety operating parameters
2 Economic accounting parameters.
3 Environmental protection parameters.
4 Other parameters to be monitored.
4.0.2 Monitoring instruments can be divided into four categories according to their functions: indicating, recording, accumulation and alarming.
4.0.3 The setting of monitoring instruments should be simplified with the requirements for safety, cost-effectiveness and environmentally-friendly operation.
Foreword vi
1 General
2 Terms
3 Control principle
3.1 Control level
3.2 Control mode
4 Monitoring
5 Control
5.1 Automatic adjustment
5.2 Interlock
5.3 Sequence control
Normative standards
Standard
HG/T 20655-2016 Technical code for design requirements for monitoring and control of heat supply unit and steam turbine unit in chemical plant (English Version)
Standard No.
HG/T 20655-2016
Status
valid
Language
English
File Format
PDF
Word Count
25000 words
Price(USD)
620.0
Implemented on
2016-7-1
Delivery
via email in 1 business day
Detail of HG/T 20655-2016
Standard No.
HG/T 20655-2016
English Name
Technical code for design requirements for monitoring and control of heat supply unit and steam turbine unit in chemical plant
Technical code for design requirements for monitoring and control of heat supply unit and steam turbine unit in chemical plant
1 General
1.0.1 This standard is formulated to ensure that the monitoring and control objects determined by heat supply units and steam turbine unit in chemical plant meet the requirements of safe, reliable and long-term stable operation.
1.0.2 The application scope of this code is as follows:
——A single non-reheat steam boiler with rated evaporation capacity of 670t/h, steam pressure of 13.7 MPa (G) and steam temperature of 540 °C or below and its supporting auxiliary system;
——Coal-fired, oil-fired and gas-fired hot water boilers and their supporting auxiliary systems;
——Oil-fired and gas-fired organic heat carrier boilers and their supporting auxiliary systems;
——A single steam turbine with rated power of 100MW or below and its supporting auxiliary system.
1.0.3 The design of monitoring and control of heat supply unit and steam turbine unit in chemical plant shall also comply with those stipulated in the current relevant standards of the nation in addition to those in this standard.
2 Terms
2.0.1 heat supply unit
equipment for providing heat energy for the chemical plant, including steam boilers, hot water boilers, organic heat carrier boilers and auxiliary systems
2.0.2 monitoring
measurement and checking of various parameters in the production process, allowing operators to monitor the operation of the system in time and ensure that the system runs within the specified parameters
2.0.3 automatic adjustment
automatic maintenance system runs under the given parameters
2.0.4 interlock
to automatically make the process enter a safe state through mutual contact and response among equipment to ensure safety of the system when the system runs beyond the set safe operation range.
2.0.5 sequence control
according to the preset program, to make each execution object in the production process automatically operate in sequence with the relevant conditions met so as to ensure the normal operation of the production process.
3 Control principle
3.1 Control level
3.1.1 Distributed Control System (DCS)/Fieldbus Control System (FCS) or Programmable Logic Controller (PLC) should be adopted as the control system. The control level of heat supply unit and steam turbine unit shall be consistent with or equivalent to the overall control level of the chemical plant.
3.2 Control mode
3.2.1 Centralized control should be adopted for the following heat supply units and steam turbine units:
1 Single steam boiler with rated evaporation capacity greater than or equal to 10t/h.
2 Single hot water boiler with rated thermal power greater than or equal to 7MW.
3 Single organic heat carrier boiler with rated thermal power greater than 7MW.
4 Single steam turbine unit with rated power greater than 1MW.
3.2.2 The control room should be arranged in the heat supply unit area, or uniformly arranged in the central control room of the whole plant according to the situation of the chemical plant and its equipment arrangement.
3.2.3 Auxiliary systems shall be provided with local control rooms in combination with adjacent or similar systems based on the principle of reducing local control rooms, so as to realize local centralized control. The auxiliary systems with simple process flow and convenient local operation may also adopt a local control mode.
4 Monitoring
4.0.1 The following operating parameters shall be monitored for heat supply unit and steam turbine unit:
1 Safety operating parameters
2 Economic accounting parameters.
3 Environmental protection parameters.
4 Other parameters to be monitored.
4.0.2 Monitoring instruments can be divided into four categories according to their functions: indicating, recording, accumulation and alarming.
4.0.3 The setting of monitoring instruments should be simplified with the requirements for safety, cost-effectiveness and environmentally-friendly operation.
Contents of HG/T 20655-2016
Foreword vi
1 General
2 Terms
3 Control principle
3.1 Control level
3.2 Control mode
4 Monitoring
5 Control
5.1 Automatic adjustment
5.2 Interlock
5.3 Sequence control
Normative standards