Standard for design of waste heat power generation in cement plant English
1 General Provisions
1.0.1 This standard is prepared with the purpose to specify the design of waste heat power generation in cement plant and to ensure security and reliability, advanced technology and reduced energy consumption.
1.0.2 This standard is applicable to the design of waste heat power generation engineering for new construction, renovation, extension of new dry cement production line.
1.0.3 The design of waste heat power generation in cement production line shall meet the relevant requirements of the national industrial policies and current national standards Code for design of cementplant GB50295 and Code for design of energy conservation of cementplant GB 50443.
1.0.4 In case the project of waste heat power generation includes cogeneration, the design of relevant parts shall meet the relevant requirements of the current national standard Code for design of small fossil fired powerplant GB 50049.
1.0.5 The design of environmental protection, labor safety and occupational health for the waste heat power generation in cement plant shall meet the relevant requirements of the current national standards Code for design of environmental protection of cementplant GB50558 and Code for design of safety and health of cementplant GB 50577.
1.0.6 In addition to the requirements stipulated in this standard, the design of the waste heat power generation in cement plant shall comply with those stipulated in the current relevant standards of the nation.
2 Terms
2.0.1
waste heat recovery (WHR )
the system utilizes the recoverable thermal energy exhausted in production process on the basis of environmental temperature
2.0.2
waste heat power generation (WHG )
to generate power by using waste heat discharged in cement production process
2.0.3
air quenching cooler boiler (AQC boiler )
the heat-exchange device to produce hot water, steam and other working mediums by utilizing waste heat of exhaust gas discharged from kiln head clinker cooler, AQC boiler for short.
2.0.4
suspend preheater boiler (SP boiler )
the heat-exchange device to produce hot water, steam and other working mediums by utilizing waste heat of exhaust gas discharged from kiln tail preheater, SP or PH boiler for short.
2.0.5
bypass boiler (BP boiler )
the heat-exchange device to produce hot water, steam and other working mediums by utilizing waste heat of exhaust gas discharged from kiln tail bypass, BP boiler for short.
2.0.6
combined heat and power
waste heat power generation may also supply heating to externality by hot water or steam at the same time of the production of electric energy.
2.0.7
main building
combined building equipped with steam turbine generator unit and the corresponding workshops.
2.0.8
flasher
the container, which can enable the hot water at certain temperature and pressure to turn into the saturated steam under certain pressure because of the pressure decreasing.
2.0.9
disconnection
the process of disconnecting the operation between the waste heat boiler and cement production line.
2.0.10
percentage of auxiliary power
ratio between the service power consumption and the total generation of the waste heat power generation system.
3 Basic Requirements
3.0.1
waste heat power generation shall utilize the waste heat, which not be used any more in cement production process.
3.0.2
design principles of waste heat power generation engineering shall be in accordance with the following requirements:
1 Waste heat power generation engineering shall not affect the normal operation of the cement production;
2 Waste heat power generation engineering shall neither increase the clinker comparable comprehensive energy consumption nor decrease clinker production;
3 Waste heat power generation engineering should be implemented after completing thermal calibration or investigation for operation condition when cement production lines reached the designed capacity and in stable operation;
4 In the synchronous construction with the cement production line, parameters of exhaust gas may be determined on the basis parameters of cement process design and that of waste heat power generation system which has been put into operation and has similar conditions;
5 The capacity of related equipment in production line shall be checked when the waste heat power generation systems are added to the original cement production line.
3.0.3 Design specifications of waste heat power generation shall be in accordance with those specified in Table 3.0.3.
3.0.4 The automation control level of waste heat power generation system shall not be lower than that of cement production line.The related technical parameters of waste heat power generation system shall communicate with that in the control system of the cement production line.
Standard
GB 50588-2017 Standard for design of waste heat power generation in cement plant (English Version)
Standard No.
GB 50588-2017
Status
valid
Language
English
File Format
PDF
Word Count
41000 words
Price(USD)
300.0
Implemented on
2018-5-1
Delivery
via email in 1 business day
Detail of GB 50588-2017
Standard No.
GB 50588-2017
English Name
Standard for design of waste heat power generation in cement plant
Standard for design of waste heat power generation in cement plant English
1 General Provisions
1.0.1 This standard is prepared with the purpose to specify the design of waste heat power generation in cement plant and to ensure security and reliability, advanced technology and reduced energy consumption.
1.0.2 This standard is applicable to the design of waste heat power generation engineering for new construction, renovation, extension of new dry cement production line.
1.0.3 The design of waste heat power generation in cement production line shall meet the relevant requirements of the national industrial policies and current national standards Code for design of cementplant GB50295 and Code for design of energy conservation of cementplant GB 50443.
1.0.4 In case the project of waste heat power generation includes cogeneration, the design of relevant parts shall meet the relevant requirements of the current national standard Code for design of small fossil fired powerplant GB 50049.
1.0.5 The design of environmental protection, labor safety and occupational health for the waste heat power generation in cement plant shall meet the relevant requirements of the current national standards Code for design of environmental protection of cementplant GB50558 and Code for design of safety and health of cementplant GB 50577.
1.0.6 In addition to the requirements stipulated in this standard, the design of the waste heat power generation in cement plant shall comply with those stipulated in the current relevant standards of the nation.
2 Terms
2.0.1
waste heat recovery (WHR )
the system utilizes the recoverable thermal energy exhausted in production process on the basis of environmental temperature
2.0.2
waste heat power generation (WHG )
to generate power by using waste heat discharged in cement production process
2.0.3
air quenching cooler boiler (AQC boiler )
the heat-exchange device to produce hot water, steam and other working mediums by utilizing waste heat of exhaust gas discharged from kiln head clinker cooler, AQC boiler for short.
2.0.4
suspend preheater boiler (SP boiler )
the heat-exchange device to produce hot water, steam and other working mediums by utilizing waste heat of exhaust gas discharged from kiln tail preheater, SP or PH boiler for short.
2.0.5
bypass boiler (BP boiler )
the heat-exchange device to produce hot water, steam and other working mediums by utilizing waste heat of exhaust gas discharged from kiln tail bypass, BP boiler for short.
2.0.6
combined heat and power
waste heat power generation may also supply heating to externality by hot water or steam at the same time of the production of electric energy.
2.0.7
main building
combined building equipped with steam turbine generator unit and the corresponding workshops.
2.0.8
flasher
the container, which can enable the hot water at certain temperature and pressure to turn into the saturated steam under certain pressure because of the pressure decreasing.
2.0.9
disconnection
the process of disconnecting the operation between the waste heat boiler and cement production line.
2.0.10
percentage of auxiliary power
ratio between the service power consumption and the total generation of the waste heat power generation system.
3 Basic Requirements
3.0.1
waste heat power generation shall utilize the waste heat, which not be used any more in cement production process.
3.0.2
design principles of waste heat power generation engineering shall be in accordance with the following requirements:
1 Waste heat power generation engineering shall not affect the normal operation of the cement production;
2 Waste heat power generation engineering shall neither increase the clinker comparable comprehensive energy consumption nor decrease clinker production;
3 Waste heat power generation engineering should be implemented after completing thermal calibration or investigation for operation condition when cement production lines reached the designed capacity and in stable operation;
4 In the synchronous construction with the cement production line, parameters of exhaust gas may be determined on the basis parameters of cement process design and that of waste heat power generation system which has been put into operation and has similar conditions;
5 The capacity of related equipment in production line shall be checked when the waste heat power generation systems are added to the original cement production line.
3.0.3 Design specifications of waste heat power generation shall be in accordance with those specified in Table 3.0.3.
3.0.4 The automation control level of waste heat power generation system shall not be lower than that of cement production line.The related technical parameters of waste heat power generation system shall communicate with that in the control system of the cement production line.