This specification is applicable to the design of new construction, expansion and reconstruction projects for the treatment of produced water from heavy oil fields for steam generator feed water. SY/T 0097-2000 Design specification for the treatment of produced water from heavy oil fields for steam generator feed water SY/T0097-2000 Standard download decompression password: www.bzxz.net

ICS 75.040:23.100.99
Registration No.: 8129-2001
Petroleum and Natural Gas Industry Standard of the People's Republic of China P
SY/T 0097-2000
Design specification for heavy oil field producedwater treatment as steam generator feedwater2000-12-25 Issued
State Administration of Petroleum and Chemical Industry
2001-06-01 Implementation
Basic provisions
Deep water treatment station
Scale and calculated water volume
Station selection
Plane layout
Pump room and process pipeline
Water quality treatment
Pretreatment·
Softening treatment
Post-treatment
Storage of chemicals, preparation of driving milk·
6.! ·General provisions
6.2 Acids and alkalis
Lime, salt, coagulants
Detection, control and testing
Water quality conditions for steam injection boiler feed water
Appendix A
Standard terms and definitions
Design specification for heavy oil field produced water treainent as stearn generator feedwater treatment Article description
Petroleum and natural gas industry standard of the People's Republic of China Design specification for heavy oil field produced water treainent as stearn generator feedwater treatment
Design specification for heavy oil field produced water treainent as stearn generator feedwater treatmentSY/T 0097-2000
Main unit: Shengli Petroleum Administration Bureau Survey and Design Institute Co-editor: Liaohe Shizhou Exploration and Design Institute Approving department: State Petroleum and Chemical Industry Bureau Petroleum Industry Press
2001 Beijing
State Petroleum and Chemical Industry Bureau Document
State Petrochemical Administration (2000) No. 457
Notice of the competent authorities on the approval of 39 oil and gas industry standards including "Petroleum and Natural Gas Engineering Master Plan Design Specification" China National Petroleum Corporation, China National Petroleum and Chemical Corporation, China National Offshore Oil Corporation, Petroleum Industry Standardization Technical Committee: The draft of 39 oil and gas industry standards including "Petroleum and Natural Gas Engineering Master Plan Design Specification" submitted by the Petroleum Industry Standardization Technical Committee for approval has been approved by our bureau and is now promulgated: The name and number of the standard are: Recommended standard:
Standard number
1. SY/T 0048---2000
SY 0062-2000
SYT 0064-.. 2000
SY/1 0065--2000
SY71 0095--2000
SY/F 0096-2000
SY/T·0097---2000
Standard Name
Specification for Design of General Layout of Petroleum and Natural Gas Project
(Replaces SYJ 48.-91)
Test Method for Penetration of Pipeline Anticorrosion Layer (Blunt Rod Method) (Replaces SY/T 0062-92)
Test Method for Water Permeability of Pipeline Anticorrosion Layer
(Replaces SY/T 0064~-92)
Test method for corrosion resistance and wear resistance of pipelines (rolling window method) (replaces SY/0065-92)
Test method for laboratory evaluation of magnesium sacrificial anode samples
Technical specification for deep anode bed with forced flow
Design specification for treatment of produced water from heavy oil field steam generator feed water
8. SY/T 5037--2000
SY/T 5040-2000
SY/T 5212-2000
SY/T 5217-2
SY /T 5262---2000
SY/T 5270-2
SY/T 5386--2000
SYF 5387-2000
SY7T 5440--2000
SY.T 5503--2000
SY/T 5516--2000
SYT 5523--2000
SY/ 5542--2000
$SY/T 5562-2000
$Y/F 5928-2000
Spiral arc welded steel pipe for low pressure fluid delivery pipeline (replace SY/T 5037-92)
Spiral welded steel pipe for pile
(replace SY/T 5040--92)
Quality classification of beam pumping unit
(replace SY/T 5212-1997)
Diamond drill bits and diamond core drill bits
(Replace SY/T 5217-92)
Specifications for fire-type heating furnaces (Replace SY/I
5262--92 SY/1 5263---91
Technical regulations for the design of high-pressure water injection pipeline accessories replace SY/I 5270-91
Details for the calculation of reserves in oil exploration
Fractured oil and gas
Reservoir part (Replace SY5386--91)
Technical requirements for test production of conventional Yuanshan oil reservoirs (Replace SY/T 5387--91)
Technical specifications for testing of natural gas wells
(Replace SY 544092, SY/T 559893) Determination method of chlorine content in quartz
(Replace SY/T 5503--92)
Chemical analysis method of magnetite
(Replace SYm 5516--92)
Analysis method of oil and gas field water
(Replace SYT 552392)
Physical property analysis of formation crude oil
(Replace SY 5542-92)
Perforating gun for gas well
(Replace SY/T 5562--92)
Provisions for archiving and storage of oil-bearing seismic exploration data (Replace SY/T 5928--94)
23.SY/T 5930—2000
SY/T 5931-2000
SYI 5935--2000
SY/T 59362000
SY/T 5939—2000
SYF 5965-2000
SY/T 59812000
SY/T 6053—2000
SY7I 6095-2000
SYT 60982000
SY/r 6424: --2000
SY/T 64252000
SY/T 6508-2000
SY71 6509-2000
Use and maintenance of magnetotelluric sounder
(replaces SY/T 5930-94)
Use and maintenance of measuring instruments (replace SY/I5931--94SY/I 5932---94, SY/I6248--19967
I/OSYSTFM series seismic data acquisition system inspection items and technical indicators
(replace SYr 5935--94)
Use and maintenance of land-based digital seismic geophones (replace SY/T 5936-94)
Use and maintenance of gravimeters
(replace SY/ 5939-94)
Geological design specifications for oil and gas exploration wells,
(replace SY/T 5965-94)
Technical regulations for conventional oil testing and production (replace SY gate I598194,SY/F 601694)
Inspection items and technical indicators of YKZ480 telemetry digital seismograph (replace SYT6053-94)
Technical requirements for the preparation of development plan for lenticular sandstone gas fields (replace SY/T 6095-94)
Calculation method of recoverable reserves of natural gas
(replace SY/I 6098-94, SY/T 6220-1996)bzxz.net
Performance test method of composite flooding system
Technical requirements for the preparation of adjustment plan for development of thermal recovery heavy oil reservoirs Steam stimulation
Non-destructive testing method for oil well pipes Penetrant flaw detection of non-ferromagnetic threads
Kelly
37.SY7F 6510--2000
38. SY/T 6511--2000
39. SY/T 6512--2000
Technical requirements for design of steam development scheme for heavy oil
Economic evaluation method for oil development scheme
Technical requirements for preparation of feasibility plan for tertiary oil recovery Chemical flooding part
The above standards shall be implemented from June 1, 2001. State Administration of Petroleum and Chemical Industry
December 25, 2000
This specification is compiled according to the arrangement of the 34th document of Quality and Safety of China National Natural Gas Group Corporation in 1999 (Notice on Issuing the 1999 Self-plan for the Formulation and Revision of Petroleum and Natural Gas Industry Standards), edited by the Survey and Design Institute of Shengli Petroleum Administration Bureau, and participated by the Survey and Design Institute of Liaorun Petroleum Exploration. In the process of compilation, the technology and experience of the treatment of produced water for steam generator feed water in Shengli Oilfield and Liaohe Oilfield were summarized, and the United States and Canada were investigated. The relevant national engineering technologies, and the water softening technologies of thermal power plants and petrochemical production in my country were investigated, and the opinions of relevant oilfield design institutes were fully solicited. This specification was proposed by China National Petroleum Corporation: This specification is under the jurisdiction of China National Oil and Gas Group Corporation Planning and Design Institute: This specification is edited by Shengli Petroleum Management Survey and Design Institute. This specification is edited by: Liaohe Zhiyou Exploration Bureau Survey and Design Institute, and the main drafters of this specification are Peng Zhongxun, Li Naiwen, Wang Hongchao, Dong Lin, and Sun Shengkun. This specification is edited by Shengli Petroleum Management Survey and Design Institute, and the interpretation of 1 General Provisions. ||1.0.1 In order to unify the design standards and technical requirements for the treatment of produced water from heavy oil fields used for steam generator feed water, so that the design is technologically advanced, economically reasonable, safe and applicable, and quality is ensured, this specification is specially formulated.
1.0.2 This specification is applicable to the design of new, expanded and rebuilt projects for the treatment of produced water from heavy oil fields used for steam generators (export steam dryness is less than or equal to 80%).
1.0.3 The cost of produced water from heavy oil fields used for steam generator feed water shall be determined according to the specific conditions of the oil field and the overall planning of the oil field after technical and economic comparison; When conditions permit, it should be used for water injection.
1.0.4 The design of produced water for steam generator feed water treatment shall meet the requirements of safe production, environmental protection, energy conservation, and be convenient for maintenance and operation management. 1.0.5 The design of produced water for steam generator feed water treatment shall be based on the continuous summary of production practice experience and scientific experiments, and actively and prudently adopt new technologies: 106 The design of produced water for steam generator feed water treatment shall comply with the provisions of the current national mandatory standards in addition to complying with this specification. 2 Terminology
2.0.1 Heavy oil produced water is produced by the production of heavy oil from the production well. 2.0.2 Steam generator
sieam generator
This specification refers to the direct-flow steam generator used for heavy oil thermal recovery, also known as steam injection boiler.
2.0.3 Water treatment equipment
watertreating equipment
The main purpose of the structure is to remove suspended impurities, colloidal impurities and dissolved solids in the water:
2.0.4 In depth treatment In depth treatment The produced water of heavy oil is treated by water purification, softening and other processes.
2.0.5 Chemical washing and softening chenica!clarification The process of removing calcium, magnesium, silicon dioxide, etc. contained in softening water by forming insoluble compounds under the action of chemicals: heating the raw water to 105-115℃ for chemical precipitation softening is called hot method, and chemical precipitation softening of raw water below this temperature is called cold method.
3 Basic provisions
3.0.1 When produced water from heavy oil fields is used for steam generator feed water treatment, it should be treated with water softening and other technical treatments based on the water quality of the treatment shield in accordance with the requirements of the "Design Specification for Oil Produced Water Treatment" SYT0006. 3.0.2 The treatment design of steam generator feed water should be based on the water volume and water quality data of the raw water, and should fully consider the possible changes in water quality and water volume. 3.0.3 The quality of the treated feed water should meet the requirements of Appendix A of this specification, and should also meet the water quality conditions of the steam generator water used. 3.0.4 Treatment process The selection of the main treatment equipment should be based on the quality of the raw water and the quality of the steam generator feed water, combined with the production scale, local conditions, and reference to the experience of similar water treatment stations, through technical and economic comparison and comprehensive research.
3.0.5 The self-used water in the treatment process should be recycled and reprocessed. According to the different water qualities of the recycled water, it should be separately sent to different treatment structures for reprocessing. 306 The treatment process should reduce the discharge of sludge, waste acid, alkali and other harmful substances, and should do a good job in pollution-free treatment and comprehensive storage utilization: 3.0.7 In the treatment process, the surplus water should be fully utilized. 3.0.8 The engineering design of the water treatment station shall consider the necessary measures for the maintenance, cleaning and partial shutdown of the main equipment and pipelines: 1. The number of main similar treatment equipment shall not be less than two, and they can be shut down for maintenance separately;
The inlet and outlet pipes of each structure shall take necessary maintenance isolation measures. The power supply level of the water treatment station is level 2: 3.0.92
3.0, 10 The water treatment station shall be equipped with ventilation facilities: 3.0.11 The heating in the station should be set up in the same system as the steam injection station or the oil refining treatment station. When the heating facilities are set up independently, the heating power type According to the specific situation and after technical and economic comparison, the heating and ventilation design in the station shall comply with the provisions of the "Heating and Ventilation Regulation Design Code" GHI19:
3.0.13 The water supply and drainage design in the station shall comply with the provisions of the "Water Supply and Drainage Design Code for Oil and Gas Plants, Stations and Reservoirs" SY/T0089.
3.0.14 The water treatment station shall be equipped with necessary automatic control and detection instruments: 3.0.15 Process pipelines, chemical pipelines, containers, storage tanks, etc. shall take corresponding anti-corrosion measures according to factors such as the nature of produced water, chemical corrosiveness and soil corrosion degree.1 This specification is formulated to unify the design standards and technical requirements for the treatment of produced water from heavy oil fields for steam generators, so that the design is technologically advanced, economically reasonable, safe and applicable, and quality assured.
1.0.2 This specification is applicable to the design of new, expanded and rebuilt projects for the treatment of produced water from heavy oil fields for steam generators (export steam dryness is less than or equal to 80%) for water supply.
1.0.3 The cost of produced water from heavy oil fields for steam generators shall be determined based on the specific conditions of the oil field and the overall planning of the oil field after technical and economic comparison; when conditions permit, it shall be used for water injection first.
1.0.4 The design of produced water for steam generator feed water treatment shall meet the requirements of safe production, environmental protection, energy conservation, and be convenient for maintenance, operation and management. 1.0.5 The design of produced water for steam generator feed water treatment shall be based on the continuous summary of production practice experience and scientific experiments, and actively and prudently adopt new technologies: 106 The design of produced water for steam generator feed water treatment shall comply with the provisions of the current national mandatory standards in addition to this specification. 2 Terminology
2.0.1 Produced water in heavy oil wells Oily wastewater produced from production wells along with heavy oil. 2.0.2 Steam generator
sieam generator
This specification refers to the once-through steam generator used for heavy oil thermal recovery, also known as steam injection boiler.
2.0.3 Water treatment equipment
watertreating equipment
The structure whose main purpose is to remove suspended impurities, colloidal impurities and dissolved solids in water:
2.0.4 In depth treatment On the basis of produced water treatment, produced water from heavy oil undergoes water purification, softening and other process re-treatment processes.
2.0.5 Chemical precipitation softening The process in which calcium, magnesium, silicon dioxide, etc. contained in water are removed by forming insoluble compounds under the action of chemicals: Heating the raw water to 105-115℃ for chemical precipitation softening is called hot method, and chemical precipitation softening of raw water below this temperature is called cold method.
3 Basic regulations
3.0.1 When produced water from heavy oil fields is used for steam generator feed water treatment, it shall be treated with water softening and other technical treatments based on the water quality of the treatment shield in accordance with the requirements of the Design Specification for Oil Produced Water Treatment SYT0006. 3.0.2 The treatment design of steam generator feed water shall be based on the water volume and water quality data of the raw water, and shall fully consider the possible changes in water quality and water volume. 3.0.3 The quality of the treated feed water shall comply with the requirements of Appendix A of this specification, and at the same time, it shall meet the water quality conditions of the steam generator water used. 3.0.4 Treatment process The selection of the main treatment equipment should be based on the quality of the raw water and the quality of the steam generator feed water, combined with the production scale, local conditions, and reference to the experience of similar water treatment stations, through technical and economic comparison and comprehensive research.
3.0.5 The self-used water in the treatment process should be recycled and reprocessed. According to the different water qualities of the recycled water, it should be separately sent to different treatment structures for reprocessing. 306 The treatment process should reduce the discharge of sludge, waste acid, alkali and other harmful substances, and should do a good job in pollution-free treatment and comprehensive storage utilization: 3.0.7 In the treatment process, the surplus water should be fully utilized. 3.0.8 The engineering design of the water treatment station shall consider the necessary measures for the maintenance, cleaning and partial shutdown of the main equipment and pipelines: 1. The number of main similar treatment equipment shall not be less than two, and they can be shut down for maintenance separately;
The inlet and outlet pipes of each structure shall take necessary maintenance isolation measures. The power supply level of the water treatment station is level 2: 3.0.92
3.0, 10 The water treatment station shall be equipped with ventilation facilities: 3.0.11 The heating in the station should be set up in the same system as the steam injection station or the oil refining treatment station. When the heating facilities are set up independently, the heating power type According to the specific situation and after technical and economic comparison, the heating and ventilation design in the station shall comply with the provisions of the "Heating and Ventilation Regulation Design Code" GHI19:
3.0.13 The water supply and drainage design in the station shall comply with the provisions of the "Water Supply and Drainage Design Code for Oil and Gas Plants, Stations and Reservoirs" SY/T0089.
3.0.14 The water treatment station shall be equipped with necessary automatic control and detection instruments: 3.0.15 Process pipelines, chemical pipelines, containers, storage tanks, etc. shall take corresponding anti-corrosion measures according to factors such as the nature of produced water, chemical corrosiveness and soil corrosion degree.1 This specification is formulated to unify the design standards and technical requirements for the treatment of produced water from heavy oil fields for steam generators, so that the design is technologically advanced, economically reasonable, safe and applicable, and quality assured.
1.0.2 This specification is applicable to the design of new, expanded and rebuilt projects for the treatment of produced water from heavy oil fields for steam generators (export steam dryness is less than or equal to 80%) for water supply.
1.0.3 The cost of produced water from heavy oil fields for steam generators shall be determined based on the specific conditions of the oil field and the overall planning of the oil field after technical and economic comparison; when conditions permit, it shall be used for water injection first.
1.0.4 The design of produced water for steam generator feed water treatment shall meet the requirements of safe production, environmental protection, energy conservation, and be convenient for maintenance, operation and management. 1.0.5 The design of produced water for steam generator feed water treatment shall be based on the continuous summary of production practice experience and scientific experiments, and actively and prudently adopt new technologies: 106 The design of produced water for steam generator feed water treatment shall comply with the provisions of the current national mandatory standards in addition to this specification. 2 Terminology
2.0.1 Produced water in heavy oil wells Oily wastewater produced from production wells along with heavy oil. 2.0.2 Steam generator
sieam generator
This specification refers to the once-through steam generator used for heavy oil thermal recovery, also known as steam injection boiler.
2.0.3 Water treatment equipment
watertreating equipment
The structure whose main purpose is to remove suspended impurities, colloidal impurities and dissolved solids in water:
2.0.4 In depth treatment On the basis of produced water treatment, produced water from heavy oil undergoes water purification, softening and other process re-treatment processes.
2.0.5 Chemical precipitation softening The process in which calcium, magnesium, silicon dioxide, etc. contained in water are removed by forming insoluble compounds under the action of chemicals: Heating the raw water to 105-115℃ for chemical precipitation softening is called hot method, and chemical precipitation softening of raw water below this temperature is called cold method.
3 Basic regulations
3.0.1 When produced water from heavy oil fields is used for steam generator feed water treatment, it shall be treated with water softening and other technical treatments based on the water quality of the treatment shield in accordance with the requirements of the Design Specification for Oil Produced Water Treatment SYT0006. 3.0.2 The treatment design of steam generator feed water shall be based on the water volume and water quality data of the raw water, and shall fully consider the possible changes in water quality and water volume. 3.0.3 The quality of the treated feed water shall comply with the requirements of Appendix A of this specification, and at the same time, it shall meet the water quality conditions of the steam generator water used. 3.0.4 Treatment process The selection of the main treatment equipment should be based on the quality of the raw water and the quality of the steam generator feed water, combined with the production scale, local conditions, and reference to the experience of similar water treatment stations, through technical and economic comparison and comprehensive research.
3.0.5 The self-used water in the treatment process should be recycled and reprocessed. According to the different water qualities of the recycled water, it should be separately sent to different treatment structures for reprocessing. 306 The treatment process should reduce the discharge of sludge, waste acid, alkali and other harmful substances, and should do a good job in pollution-free treatment and comprehensive storage utilization: 3.0.7 In the treatment process, the surplus water should be fully utilized. 3.0.8 The engineering design of the water treatment station shall consider the necessary measures for the maintenance, cleaning and partial shutdown of the main equipment and pipelines: 1. The number of main similar treatment equipment shall not be less than two, and they can be shut down for maintenance separately;
The inlet and outlet pipes of each structure shall take necessary maintenance isolation measures. The power supply level of the water treatment station is level 2: 3.0.92
3.0, 10 The water treatment station shall be equipped with ventilation facilities: 3.0.11 The heating in the station should be set up in the same system as the steam injection station or the oil refining treatment station. When the heating facilities are set up independently, the heating power type According to the specific situation and after technical and economic comparison, the heating and ventilation design in the station shall comply with the provisions of the "Heating and Ventilation Regulation Design Code" GHI19:
3.0.13 The water supply and drainage design in the station shall comply with the provisions of the "Water Supply and Drainage Design Code for Oil and Gas Plants, Stations and Reservoirs" SY/T0089.
3.0.14 The water treatment station shall be equipped with necessary automatic control and detection instruments: 3.0.15 Process pipelines, chemical pipelines, containers, storage tanks, etc. shall take corresponding anti-corrosion measures according to factors such as the nature of produced water, chemical corrosiveness and soil corrosion degree.13 The water supply and drainage design within the station shall comply with the provisions of the "Water Supply and Drainage Design Code for Oil and Gas Plants, Stations and Reservoirs" SY/T0089.
3.0.14 The water treatment station shall be equipped with necessary automatic control and detection instruments: 3.0.15 Process pipelines, chemical pipelines, containers, storage tanks, etc. shall take corresponding anti-corrosion measures based on factors such as the properties of produced water, chemical corrosiveness and soil corrosion degree.13 The water supply and drainage design within the station shall comply with the provisions of the "Water Supply and Drainage Design Code for Oil and Gas Plants, Stations and Reservoirs" SY/T0089.
3.0.14 The water treatment station shall be equipped with necessary automatic control and detection instruments: 3.0.15 Process pipelines, chemical pipelines, containers, storage tanks, etc. shall take corresponding anti-corrosion measures based on factors such as the properties of produced water, chemical corrosiveness and soil corrosion degree.
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