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HJ 880-2017: Self-monitoring technology guidelines for pollution sources. Petroleum refining industry
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Self-monitoring technology guidelines for pollution sources. Petroleum refining industry
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HJ 880-2017
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Basic data | Standard ID | HJ 880-2017 (HJ880-2017) | | Description (Translated English) | Self-monitoring technology guidelines for pollution sources. Petroleum refining industry | | Sector / Industry | Environmental Protection Industry Standard | | Classification of Chinese Standard | Z05 | | Classification of International Standard | 13.020 | | Word Count Estimation | 10,122 | | Date of Issue | 2017-12-21 | | Date of Implementation | 2018-01-01 | | Quoted Standard | GB 14554; GB 18484; GB 31570; HJ/T 55; HJ/T 91; HJ/T 164; HJ/T 166; HJ/T 194; HJ 442; HJ 664; HJ 733; HJ 819; HJ 820 | | Regulation (derived from) | Ministry of Environmental Protection Bulletin 2017 No. 76 | | Issuing agency(ies) | Ministry of Ecology and Environment | | Summary | This standard stipulates the general requirements, monitoring program formulation, information recording and reporting of the basic requirements and requirements for the self-monitoring of the petroleum refining industry. This standard is applicable to monitoring the discharge of water and gas pollutants, noise, and the impact on the surrounding environmental quality of the pollutant discharge units in the petroleum refining industry during the production and operation phase. The self-monitoring requirements of the self-provided thermal power generating units (plants) and supporting power boilers of the pollutant discharge units shall be implemented in accordance with HJ 820. | HJ 880-2017: Self-monitoring technology guidelines for pollution sources. Petroleum refining industry
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(Sewage Unit Self-Monitoring Technical Guide Petroleum Refining Industry)
People's Republic of China national environmental protection standards
Sewage units self-monitoring technical guide
Oil refining industry
Self-monitoring technology guidelines for pollution sources
-Petroleum refining industry
2017-12-21 Published
2018-01-01 implementation
Release MEP
Directory
Foreword .ii
1 scope of application .1
2 Normative references .1
3 Terms and definitions 1
4 Self-monitoring of the general requirements .2
5 monitoring program development .2
6 Information Recording and Reporting .6
7 others 7
Foreword
To implement the "Law of the People's Republic of China on Environmental Protection," "Water Pollution Prevention and Control Law of the People's Republic of China"
And the Law of the People's Republic of China on Prevention and Control of Atmospheric Pollution "to guide and regulate the self-monitoring work by the oil refining industrial sewage units and formulate this standard.
This standard proposes the general requirements for self-monitoring by the oil refinery industrial effluent units, the development of monitoring plans, information recording and
The basic content and requirements of the report.
This standard is released for the first time.
This standard by the Environmental Protection Department of Environmental Monitoring Division, Science and Technology Standards Division proposed and organized.
This standard is mainly drafted by. China Environmental Monitoring Station, China Petroleum Group Safety and Environmental Protection Technology Research Institute, Hebei Province
Environmental Monitoring Center Station, PetroChina Dushanzi Petrochemical Company Environmental Monitoring Center, PetroChina
Natural Gas Co., Ltd. Liaoyang Petrochemical Branch Environmental Monitoring Station.
This standard MEP approved on December 21,.2017.
This standard since January 01,.2018 into effect.
This standard is interpreted by the MEP.
Sewage Unit Self-Monitoring Technical Guide Petroleum Refining Industry
1 scope of application
This standard proposes the general requirements for self-monitoring by the oil refinery industrial effluent units, the development of monitoring plans, information recording and
The basic content and requirements of the report.
This standard applies to the petroleum refining industry sewage units in the production and operation of the discharge of water and air pollutants, noise
And the impact on the surrounding environment quality monitoring.
Sewage units own thermal power units (plants), self-supporting boiler requirements in accordance with the HJ 820 implementation.
2 Normative references
This standard references the following documents or the terms of them. For dated references, the effective version is valid
Used for this standard.
GB 14554 Odor pollutant emission standards
GB 18484 hazardous waste incineration pollution control standards
GB 31570 petroleum refining industrial pollutant discharge standards
HJ/T 55 Guidelines for Unorganized Emissions Monitoring of Air Pollutants
HJ/T 91 Technical Specifications for Surface Water and Sewerage Monitoring
HJ/T 164 Groundwater Environmental Monitoring Technical Specifications
HJ/T 166 Soil Environmental Monitoring Technical Specifications
HJ/T 194 Environmental Air Quality Manual Monitoring Technical Specifications
HJ 442 Marine environment monitoring code
HJ 664 Technical Specifications for Ambient Air Quality Monitoring Sites (Trial Implementation)
HJ 733 Technical Guidelines for the Testing of Volatile Organic Compounds for Leakage and Open Surface Emissions
HJ 819 Technical Guidelines for Self-Monitoring of Sewage Disposal Units General
HJ 820 Self-Monitoring Technical Guidelines for Sewage Disposal Units Thermal Power Generation and Boilers
"National List of Hazardous Wastes" (Ministry of Environmental Protection, National Development and Reform Commission, Ministry of Public Security Order No. 39)
3 Terms and definitions
GB 31570, HJ 819 and defined by the following terms and definitions apply to this standard.
3.1
Petroleum refining industry
With crude oil, heavy oil as raw materials, the production of gasoline fractions, diesel fractions, fuel oil, lubricants, petroleum wax, oil
Green and petrochemical raw materials and other industries.
3.2
Volatile organic compounds
Refers to the atmospheric photochemical reactions of organic compounds, or according to the prescribed method of measurement or accounting to determine the organic compound
Things. This standard uses non-methane total hydrocarbons as a comprehensive control indicator of exhaust and volatile organic compounds at the enterprise boundary.
3.3
Hydrogenated crude oil hydrargyrate crude oil
This standard specifically refers to the mercury content greater than 5 μg/g of crude oil.
4 Self-monitoring of the general requirements
Sewage units should check their own sources of pollution, pollutants and potential environmental impact indicators, the development of monitoring programs, set
And maintain the monitoring facilities, carry out self-monitoring according to the monitoring plan, conduct quality assurance and quality control, record and save the monitoring
Data, in accordance with the law to the public monitoring results.
5 monitoring program development
5.1 Wastewater discharge monitoring
5.1.1 monitoring point
The pollutant discharging unit shall set the monitoring points at the total waste water discharge and the rainwater discharge. Workshop or production facilities wastewater discharge supervision
Set the measuring point in accordance with the provisions of Table 1.
5.1.2 Monitoring indicators and frequency
Wastewater discharge monitoring indicators and the minimum monitoring frequency according to Table 1 implementation.
Table 1 Wastewater discharge monitoring indicators minimum monitoring frequency
Monitoring point monitoring indicators
Monitoring frequency
Direct emissions indirect emissions
Total discharge of waste water
Flow, COD, ammonia nitrogen automatic monitoring week
Petroleum, pH, suspended solids, total nitrogen, total
Phosphorus, sulfide, volatile phenol
Zhou Yue
On the 5th biochemical oxygen demand, total organic carbon, total vanadium,
Benzene, toluene, o-xylene, m-xylene, para
Xylene, ethylbenzene, total cyanide
Rose quarter
Delayed coking unit cold coke water, cut coke water effluent discharge Benzo (a) pyrene six months a
Atmospheric and vacuum distillation unit electric desalination wastewater discharge port b
Total mercury months
Alkyl mercury six months a
Acidic water stripping device Wastewater discharge port Total arsenic month
FCCU flue gas desulfurization wastewater discharge port
Catalytic gasoline adsorption desulfurization device flue gas desulfurization wastewater discharge port
Total nickel month
Aviation gasoline reconcile workshop wastewater discharge
Tetraethyl lead production plant wastewater discharge port
Total lead month
Rainwater discharge
pH, COD, ammonia nitrogen, petroleum,
Suspended matter
Day c
Note 1. The environmental protection department at the municipal level or above designated by the district explicitly requires that the indicators of pollutants for the automatic monitoring equipment be installed and automatically monitored.
Note 2. Monitoring the concentration of pollutants should be monitored simultaneously flow.
Note. a2020 on January 1 from the monthly implementation.
b for the processing of mercury-containing crude oil situation.
c Monitor emissions by day.
5.2 Exhaust emissions monitoring
5.2.1 Organized emissions monitoring points, indicators and frequency
5.2.1.1 Monitoring points
Exhaust gas discharged through the exhaust pipe to the external environment, etc., should be set in the flue monitoring points; the same monitoring indicators, multiple
Exhaust gas mixture should be in the exhaust after the confluence of the common flue or respectively set in each flue monitoring points; there is a bypass
Of the bypass flue should also set the monitoring point; organic waste gas recovery treatment unit should be set at the inlet and exhaust emissions
Measuring point.
5.2.1.2 Monitoring indicators and frequency
Organized emissions monitoring indicators and the minimum monitoring frequency according to Table 2 implementation.
Table 2 Minimum Monitoring Frequency of Organized Exhaust Gas Monitoring Indicators
Monitoring point monitoring indicators monitoring frequency
Technology furnace exhaust tube (single rated power ≥ 14MW)
Nitroxide automatic monitoring
Sulfur dioxide, particulate matter Quarterly (month a)
Process Furnace Exhaust Gas Cylinder (Single Nominal Power < 14MW) Nitrogen Oxides, Sulfur Dioxide, Particulate Quarterly (Month a)
Catalytic cracking catalyst regeneration flue gas exhaust
Nitrogen oxides, sulfur dioxide, particulate matter automatic monitoring
Nickel and its compounds quarterly
Reforming catalyst regeneration flue gas exhaust
Ionic Liquid Method Alkylation Plant Catalyst Regeneration Flue Gas Exhaust
Total non-methane hydrocarbon months
Hydrogen chloride quarter
Catalytic gasoline adsorption desulfurization regeneration flue gas exhaust particulate matter, sulfur dioxide quarter
Acid gas recovery device exhaust
Sulfur dioxide automatic monitoring
Hydrogen sulfide, nitrogen oxides b month
Sulfuric acid fog c quarter
Oxidized asphalt plant exhaust
Asphalt smoke season
Benzo (a) pyrene six months
Wastewater treatment of organic waste gas collection and disposal devices exhaust
Total non-methane hydrocarbons, hydrogen sulfide month
Benzene, toluene, xylene quarter
Monitoring point monitoring indicators monitoring frequency
Organic waste gas treatment unit imports and exports d non-methane total hydrocarbon months
Hazardous waste incinerator exhaust e
Nitrogen oxides, sulfur dioxide, particulate matter automatic monitoring
Flue gas blackness, carbon monoxide, hydrogen fluoride,
Hydrogen chloride, mercury and its compounds, cadmium and its
Compounds, (arsenic, nickel and its compounds),
Lead and its compounds, (chromium, tin, antimony,
Copper, manganese and their compounds)
Dioxin year
Note 1. The environmental protection department at the municipal level or above designated by the district explicitly requires that the indicators of pollutants for the automatic monitoring equipment be installed and automatically monitored.
Note 2. Exhaust gas monitoring shall be based on the corresponding standard analysis methods, technical specifications simultaneously monitor the flue gas parameters.
Note. a If the fuel is purified gas, gas gas and natural gas are monitored quarterly; if other fuel is used, the gas is monitored on a monthly basis.
b Applicable to acid gas recovery unit with oxidation tail gas pollutant control.
c for acid gas recovery unit to produce sulfuric acid situation.
d Organic exhaust vent If exhaust gas contains particulate matter, sulfur dioxide or nitrogen oxides, it must be monitored.
e Hazardous waste incinerator exhaust gas cylinder monitoring other requirements according to GB 18484 implementation.
5.2.2 Unorganized emissions monitoring points, indicators and frequency
The setting of unorganized emission monitoring points, the monitoring indicators and the minimum frequency of monitoring are shown in Table 3.
Table 3 Minimum Monitoring Frequency of Monitoring Indicators of Unorganized Exhaust Gas
Monitoring point monitoring indicators monitoring frequency
Business Borders
Total non-methane hydrocarbons, particulates, hydrogen chloride a, benzene, toluene,
Xylene, ammonia, hydrogen sulfide, odor concentration
Quarterly
Benzo (a) pyrene years
Pumps, compressors, valves, open valves or open lines,
Gas/vapor pressure relief equipment, sampling connection system
Volatile organic quarter
Flanges and other connectors, other sealing equipment, volatile organic compounds for six months
Note 1. For equipment and pipeline assembly leak detection point, if the same sealing point for three consecutive leaks test cycle, the test cycle can be
Doubled, but in the follow-up monitoring of the test site once the detection of leakage, the monitoring frequency according to the original implementation.
Note 2. According to the environmental impact assessment documents and their approval, as well as raw materials and technology to determine whether to monitor other stink pollutants GB 14554.
Note 3. Other requirements for VOC monitoring are implemented according to HJ 733 and other national VNO regulations.
Note. a applies to the process unit has a continuous reforming unit or the use of ionic liquid alkylation unit situation.
5.3 factory environment noise monitoring
Site environmental noise monitoring points set should follow the principles of HJ 819, the main consideration pump motor, air-cooled motor, pressure
Shrink motor, fan and other noise sources in the plant distribution.
Environmental noise at the factory boundary quarterly at least once a day monitoring, monitoring indicators for the equivalent A sound level. Surrounding sensitive points
The frequency of monitoring should be raised.
5.4 Peripheral environmental quality impact monitoring
5.4.1 Other environmental management policies, or environmental impact assessment documents and their approval (only for January 1,.2015 inclusive)
If the pollutant discharge unit that has obtained the approval of environmental impact assessment has the explicit request, it shall be executed as required.
5.4.2 Without clear requirements, if the pollutant discharge unit deems it necessary, it may supervise the air quality of surrounding water, soil and environment
Measurement. The ambient air may be set according to the relevant provisions of HJ 664, HJ/T 55, HJ/T 164, HJ/T 166, HJ/T 194, underground
Water, soil monitoring points, for wastewater discharged directly into surface water, seawater discharge units, according to HJ/T 91, HJ 442
Relevant regulations to set the surrounding surface water, seawater monitoring points, monitoring indicators and the minimum monitoring frequency can be implemented with reference to Table 4.
Table 4 Surrounding Environmental Quality Impact Monitoring Indicators Minimum Monitoring Frequency
Category Monitoring indicators Monitoring frequency
Ambient air a
Total non-methane hydrocarbons, particulates, hydrogen chloride b, benzene, toluene, xylene, ammonia,
Hydrogen sulfide
Six months
Benzo (a) pyrene years
Surface water
pH, COD, ammonia nitrogen, petroleum, suspended solids, total nitrogen, total phosphorus,
Sulfide, volatile phenol, five days of biochemical oxygen demand, total organic carbon, total vanadium, benzene,
Toluene, o-xylene, m-xylene, p-xylene, ethylbenzene, total cyanide,
Benzo (a) pyrene, total arsenic, total nickel, total lead, total mercury, alkyl mercury and so on
Quarterly
groundwater
pH, Permanganate Index, Ammonia Nitrogen, Petroleum, Total Nitrogen, Total Phosphorus, Vulcanization
Volatile Phenols, BOD 5, Total Organic Carbon, Total Vanadium, Benzene, Toluene,
O-xylene, m-xylene, p-xylene, ethylbenzene, total cyanide, benzo (a)
Pyrene, total arsenic, total nickel, total lead, total mercury, alkyl mercury and so on
seawater
pH, COD, ammonia nitrogen, petroleum, suspended solids, total nitrogen, total phosphorus,
Sulfide, volatile phenol, five days of biochemical oxygen demand, total organic carbon, total vanadium, benzene,
Toluene, o-xylene, m-xylene, p-xylene, ethylbenzene, total cyanide,
Benzo (a) pyrene, total arsenic, total nickel, total lead, total mercury, alkyl mercury and so on
Six months
soil
pH, sulfide, benzene, toluene, xylene, benzo (a) pyrene, total arsenic, total
Nickel, total lead, total mercury and so on
Note. a every measured three days.
b For process units with continuous reformer or ionic liquid alkylation unit.
5.5 Other requirements
5.5.1 In addition to the indicators of pollutants in Table 1 to Table 3, the indicators of pollutants in 5.5.1.1 and 5.5.1.2 should also be included in the monitoring indicators
Range, and with reference to Table 1 ~ Table 3 and HJ 819 to determine the monitoring frequency.
5.5.1.1 Permits for discharge, standards for pollutant discharge (control), environmental impact assessment documents and their approval (only
Limited to January 1,.2015 (inclusive) after the approval of environmental impact assessment of the sewage unit), the relevant provisions of environmental management to be clear
Seeking indicators of pollutants.
5.5.1.2 sewage units according to the production process of raw materials, production processes, intermediate and final product type, the monitoring results indeed
The actual discharge of pollutants in toxic or hazardous pollutants or priority list of pollutants related indicators, or other toxic pollutants
index.
5.5.2 The monitoring frequency of each indicator can meet the requirements of this standard and can be based on the principle of determining the monitoring frequency in HJ 819
High monitoring frequency.
5.5.3 Sampling methods, monitoring and analysis methods, monitoring of quality assurance and quality control in accordance with HJ 819 implementation.
5.5.4 Description of the monitoring program, change in accordance with HJ 819 implementation.
6 Information Recording and Reporting
6.1 Information Recording
6.1.1 Monitoring information record
Manual monitoring records and automatic monitoring of operation and maintenance records in accordance with HJ 819 implementation.
6.1.2 production and pollution control facilities operating conditions record requirements
6.1.2.1 Production facilities operating conditions
a) main facility
Record the operating status and production load of each unit of each main production unit in normal working conditions by frequency and record each unit
The amount of raw materials, the amount of excipients, the output of the main product, the yield of by-products, the water withdrawal (fresh water), the discharge of waste water, the fuel consumption
Consumption, sulfur content of fuel, sulfur content of raw materials and various metal content, operating time and other parameters. Catalytic cracking unit also
Should record the main components of the new catalyst and the amount of waste catalyst emissions, catalyst recycling and so on.
b) Public and auxiliary facilities
Including sewage treatment facilities, storage tanks, flare systems, power stations, storage tanks, including design, process parameters (temperature,
Liquid level, turnover), etc., the torch system should continuously record the working conditions of the ignition facilities and torch (torch gas flow, torch head temperature
Degrees, the fire kind of gas flow, the fire temperature, etc.).
c) the whole plant operation
Annual production hours under normal conditions and non-normal conditions (production plant or facilities open down, check maintenance), the use of raw and auxiliary fuels
Volume, output of major products and so on. Excipients focus on recording pollution control facilities and pollutant emissions related content.
6.1.2.2 pollution control facilities operating conditions
Pollution control facilities operation and management information should include the key parameters of equipment operation verification, can fully reflect the production facilities and governance
Management of facilities operation and management.
a) The wastewater treatment facilities include two parts. pretreatment facilities and centralized wastewater treatment facilities. The wastewater treatment volume shall be recorded daily,
Back to the amount of water, operating parameters (including operating conditions, etc.), dosage, delivery frequency, power consumption, sludge production and so on. Such as
Occurrence of facilities outage, inspection and maintenance, accidents and other anomalies, to be recorded.
b) Organized waste gas treatment facilities need to record pollution treatment facilities operating time, operating parameters (including operating conditions, etc.)
Use medicine, delivery frequency and so on. In the event of equipment outage, inspection and maintenance, accidents and other anomalies, the need to record.
6.1.3 General Industrial Solid Waste and Hazardous Waste Records
Record the production of general industrial solid waste, comprehensive utilization, disposal capacity, storage; according to the management of hazardous waste
Relevant requirements, the daily record of hazardous waste production, comprehensive utilization, disposal, storage and its specific whereabouts. raw material
Or other hazardous waste generated during the auxiliary process should also be recorded. General Industrial Solid Waste and Hazardous Waste Generation
See Table 5.
Table 5 Sources of General Industrial Solid Waste and Hazardous Waste
Category Waste Name
General industrial solid waste ash, gypsum, bag (bag) dust generated by the bag
Hazardous waste waste lye, waste acid, spent catalyst, oily sludge and so on.
Note. Other possible hazardous wastes are identified according to the "National List of Hazardous Wastes" or national standards for identification and identification of hazardous wastes.
6.2 Information Report, Emergency Monitoring Report, Information Disclosure
Follow HJ 819.
7 others
The pollutant discharging entity shall faithfully record the working conditions during the manual monitoring (including the production load and the operation of pollution control facilities, etc.)
Ensure monitoring data is representative.
This standard specifies the content, in accordance with HJ 819 implementation.
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