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GB 28664-2012: Emission standard of air pollutants for steelmaking industry
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Emission standard of air pollutants for steelmaking industry
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GB 28664-2012
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Basic data | Standard ID | GB 28664-2012 (GB28664-2012) | | Description (Translated English) | Emission standard of air pollutants for steelmaking industry | | Sector / Industry | National Standard | | Classification of Chinese Standard | Z63 | | Classification of International Standard | 13.040.20 | | Word Count Estimation | 10,118 | | Quoted Standard | GB/T 15432-1995; GB/T 16157-1996; HJ/T 67-2001; HJ/T 77.2-2008; HJ/T 397-2007; " automatic monitoring pollution management approach" SEPA Order No. 28; "Environmental monitoring and Management Measures" State Environmental Protection Administration Order | | Regulation (derived from) | Department of Environmental Protection Notice No. 43 of 2012 National Standards Bulletin No. 24 of 2012 | | Issuing agency(ies) | Ministry of Environmental Protection, General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China | | Summary | This Chinese standard specifies the steel production enterprises or production facilities air pollutant emission limits, monitoring, and monitoring requirements, and standards for the implementation and supervision of relevant regulations. This standard a | GB 28664-2012: Emission standard of air pollutants for steelmaking industry---This is a DRAFT version for illustration, not a final translation. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.) will be manually/carefully translated upon your order.
Emission standard of air pollutants for steelmaking industry
ICS
National Standards of People's Republic of China
Emission standards for air pollutants in the steel industry
Emission standard of air pollutants for steel smelt industry
Published on.2012-06-27
2012-10-01 Implementation
Ministry of Environmental Protection
State Administration of Quality Supervision, Inspection and Quarantine
release
Content
Foreword. II
1 Scope 1
2 Normative references 1
3 Terms and Definitions..1
4 Air pollutant emission control requirements..2
5 Air pollutant monitoring requirements.4
6 Implementation and supervision..5
Foreword
To implement the "Environmental Protection Law of the People's Republic of China", the Law of the People's Republic of China on Prevention and Control of Atmospheric Pollution
Laws and Laws of the Republic's Marine Environmental Protection Law and the State Council's Decision on Implementing the Scientific Outlook on Development and Strengthening Environmental Protection
Regulations and the "Opinions of the State Council on the Preparation of National Main Functional Zone Planning" to protect the environment, prevent pollution, and promote the steelmaking industry
The development of production processes and pollution control technologies, the development of this standard.
This standard specifies the emission limits, monitoring and monitoring requirements for air pollutants in steel-making production enterprises. To promote regional economy
Coordinated development with the environment, promoted the adjustment of economic structure and the transformation of economic growth mode, and guided the production process and pollution of the steel industry
The development direction of dyeing and treatment technology, this standard specifies the special emission limits for atmospheric pollutants.
The water pollutants, odor pollutants and environmental noise emitted by steel-making enterprises shall be subject to the corresponding national pollutant discharge standards.
The identification, treatment and disposal of solid waste generated are subject to national solid waste pollution control standards.
This standard is the first release.
From the date of implementation of this standard, the emission control of atmospheric pollutants in steel-making production enterprises shall be implemented in accordance with the provisions of this standard, no longer
Implementation of the "Integrated Emission Standards for Air Pollutants" (GB 16297-1996) and "Emission Standards for Air Pollutants in Industrial Furnaces" (GB )
Relevant provisions in 9078-1996).
Local provincial people's governments may formulate local pollutant discharge standards for pollutants not specified in this standard;
The pollutants items that have been stipulated in this standard may be formulated with local pollutant discharge standards that are stricter than this standard.
This standard was formulated by the Science and Technology Standards Department of the Ministry of Environmental Protection.
This standard was drafted. Baoshan Iron and Steel Co., Ltd., Shanghai Baosteel Engineering Technology Co., Ltd., Ministry of Environmental Protection
Institute of Environmental Standards.
This standard was approved by the Ministry of Environmental Protection on June 15,.2012.
This standard has been implemented since October 1,.2012.
This standard is explained by the Ministry of Environmental Protection.
Emission standards for air pollutants in the steel industry
1 Scope of application
This standard specifies the emission limits, monitoring and monitoring requirements for air pollutants in steel-making enterprises or production facilities, and
Relevant regulations such as implementation and supervision.
This standard applies to the management of atmospheric pollutants in existing steelmaking enterprises or production facilities, as well as the construction of steel industry.
Objective Environmental impact assessment, environmental protection facility design, completion environmental protection acceptance and air pollutant discharge pipe after commissioning
Reason.
This standard only applies to the pollutant discharge behavior permitted by law; the location of the newly established pollution source and the special protection area are
Management of pollution sources, in accordance with the Law of the People's Republic of China on Prevention and Control of Air Pollution, and the Prevention and Control of Water Pollution in the People's Republic
Law, Law of the People's Republic of China on Marine Environmental Protection, Law of the People's Republic of China on the Prevention and Control of Environmental Pollution by Solid Wastes,
Laws and Regulations such as the Law of the People's Republic of China on Prevention and Control of Radioactive Pollution and the Law of the People's Republic of China on Environmental Impact Assessment
The relevant provisions of the regulations are implemented.
2 Normative references
The contents of this standard refer to the terms in the following documents.
GB/T 15432-1995 Determination of total suspended particulate matter in ambient air
GB/T 16157-1996 Determination of particulate matter in fixed pollution source exhaust gas and sampling method of gaseous pollutants
HJ/T 67-2001 Determination of Fluoride in Fixed Atmospheric Sources Ion Selective Electrode Method
HJ/T 77.2-2008 Determination of Dioxins in Ambient Air and Exhaust Gases Isotope Dilution High Resolution Gas Colors
Spectral-high resolution mass spectrometry
HJ/T 397-2007 Fixed source exhaust gas monitoring technical specification
Measures for the Automatic Monitoring and Control of Pollution Sources (Order No. 28 of the State Environmental Protection Administration)
Measures for the Administration of Environmental Monitoring (Order No. 39 of the State Environmental Protection Administration)
3 Terms and definitions
The following terms and definitions apply to this standard.
3.1 Steelmaking
Melting, heating and purifying the charge (such as molten iron, scrap steel, sponge iron, iron alloy, etc.) to make it conform to the composition and purity
The required process involves the following production processes. hot metal pretreatment, smelting, refining outside the furnace (secondary metallurgy) and casting (continuous
Cast).
3.2 Existing companies
Before the date of implementation of this standard, the steelmaking production enterprise or production that has been approved for production or environmental impact assessment documents has been completed.
Facilities, including scrap processing, lime roasting, dolomite roasting.
3.3 New Enterprise
From the date of implementation of this standard, the environmental impact assessment document has passed the examination and approval of new, modified and expanded steelmaking industry construction projects, including
Scrap processing, lime roasting, dolomite roasting.
3.4 Standard status
The temperature is 273.15 K and the pressure is 101325 Pa. The concentration of atmospheric pollutants specified in this standard is
The dry gas in the standard state is the standard.
3.5 Hot metal pretreatment
In order to improve the smelting efficiency of steelmaking, the molten iron is removed from the process of removing some harmful components before entering the steelmaking furnace.
It should include pretreatment such as desulfurization, desiliconization, and dephosphorization.
3.6 Converter steelmaking
The smelting process is carried out by reacting oxygen blown into the furnace with elemental carbon, silicon, manganese, and phosphorus in the molten iron to release heat.
3.7 Electric furnace steelmaking
The smelting process using electric energy as a heat source is mainly an electric arc furnace.
3.8 Furnace refining
In order to improve the quality of the steel or increase the production efficiency, the refining task in the converter or electric furnace is transferred to the ladle or special
Secondary metallurgical process carried out in the vessel. Its main purpose is deoxidation, degassing, desulfurization, deep decarburization, removal of inclusions and ingredients
Fine-tuning, etc.
3.9 Casting
The qualified liquid steel produced by the steel making process (including secondary metallurgy) is made by a certain solidification forming process.
The processing of solid materials required is mainly cast steel, steel ingot casting and continuous casting. The steelmaking process of the steelworks is mainly continuous casting.
3.10 a flue gas
The flue gas is released from the converter steelmaking gas recovery process because the gas is unqualified and cannot be recovered.
3.11 secondary smoke
In addition to the primary flue gas, the converter steelmaking produces all the dusty fumes generated by the production process such as molten iron, feeding, slag discharging and tapping.
3.12 Particulate matter
The general term for the kiln dust and production dust emitted during the production process.
3.13 Dioxins
A collective term for polychlorinated dibenzo-p-dioxins (PCDDs) and polychlorinated dibenzofurans (PCDFs).
3.14 Toxicity Equivalent Factor (TEF)
The ratio of the affinity of dioxin-like congeners to the affinity of 2,3,7,8-tetrachlorodibenzo-p-dioxin to the Ah receptor.
3.15 Toxicity equivalent (TEQ)
The concentration of each dioxin-like congener is converted to an equivalent concentration equivalent to the toxicity of 2,3,7,8-tetrachlorodibenzo-p-dioxin.
The toxic equivalent concentration is the product of the measured concentration and the toxic equivalent factor of the isomer.
3.16 exhaust pipe height
The height from the ground level from the exhaust pipe (or its main building structure) to the outlet of the exhaust pipe, in m.
4 Air pollutant emission control requirements
4.1 From October 1,.2012 to December 31,.2014, existing companies implement the air pollutants specified in Table 1.
Emission limit.
Table 1 Limits of atmospheric pollutant emission concentration of existing enterprises
Unit. mg/m3 (except dioxin)
Pollutant project production process or facility limit pollutant emission monitoring position
Particulate converter (primary flue gas) 100 workshop or production facility exhaust
Mixed iron furnace and hot metal pretreatment (including pouring tank, slag, etc.),
Converter (secondary flue gas), electric furnace, refining furnace 50
Continuous casting cutting and flame cleaning, lime kiln, dolomite kiln
Roasting 50
Steel slag treatment 100
Other production facilities 50
Dioxins
(ng-TEQ/m3) Electric Furnace 1.0
Fluoride (in F) Electroslag Metallurgy 6.0
4.2 As of January 1,.2015, existing companies implement the limits for atmospheric pollutant emissions specified in Table 2.
4.3 Since October 1,.2012, new enterprises have implemented the air pollutant emission limits specified in Table 2.
Table 2 Limits of atmospheric pollutant emission concentration of newly-built enterprises
Unit. mg/m3 (except dioxin)
Pollutant project production process or facility limit pollutant emission monitoring position
particulates
Converter (primary smoke) 50
Workshop or production facility exhaust
Hot metal pretreatment (including pouring tank, slag, etc.), converter (two
Secondary smoke), electric furnace, refining furnace 20
Continuous casting cutting and flame cleaning, lime kiln, dolomite kiln
Roasting 30
Steel slag treatment 100
Other production facilities 20
Dioxins
(ng-TEQ/m3) Electric Furnace 0.5
Fluoride (in F) Electroslag Metallurgy 5.0
4.4 According to the requirements of environmental protection work, the density of land development has been high, the environmental carrying capacity has begun to weaken, or the environment
Areas with small capacity, fragile ecological environment, and prone to serious environmental pollution problems and requiring special protection measures should
Strictly control the pollutant discharge behavior of enterprises, and implement the special emission limits of atmospheric pollutants specified in Table 3 in the above-mentioned enterprises.
value.
The geographical scope and time for the implementation of special emission limits for atmospheric pollutants shall be administered by the administrative department of environmental protection of the State Council or the province.
Level people's government regulations.
Table 3 Special emission limits for atmospheric pollutants
Unit. mg/m3 (except dioxin)
Pollutant project production process or facility limit pollutant emission monitoring position
particulates
Converter (primary smoke) 50
Workshop or production facility exhaust
Hot metal pretreatment (including pouring tank, slag, etc.), converter
(secondary flue gas), electric furnace, refining furnace 15
Continuous casting cutting and flame cleaning, lime kiln, dolomite kiln
Roasting 30
Steel slag treatment 100
Other production facilities 15
Dioxins
(ng-TEQ/m3) Electric Furnace 0.5
Fluoride
(in F) Electroslag Metallurgy 5.0
4.5 Unorganized emissions of particulate matter from enterprises are subject to the limits specified in Table 4.
Table 4 Unorganized emission concentration limits for particulate matter in existing and new enterprises
Unit. mg/m3
Serial number unorganized emission source limit
1 Factory production workshop 8.0
2 No complete workshop 5.0
4.6 In the production process of the existing enterprise production and construction projects, the environmental protection acceptance and the subsequent production process, the environmental protection department responsible for supervision
The competent administrative department shall monitor the ambient air quality in sensitive areas such as residential, teaching, medical and other uses. Construction item
The specific monitoring scope of the target is the surrounding sensitive area determined by environmental impact assessment; the existing enterprise that has not conducted environmental impact assessment
Industry, the scope of monitoring is the environmental protection administrative department in charge of supervision, according to the characteristics and laws of corporate sewage discharge and local self-
However, factors such as meteorological conditions are determined by reference to the relevant environmental impact assessment technical guidelines. Local governments should respond to the environmental quality of their jurisdiction
Responsible for taking measures to ensure that environmental conditions meet environmental quality standards.
4.7 The production process equipment for generating atmospheric pollutants must establish a local gas collection system and a centralized purification treatment device to meet the standard.
emission. All exhaust cylinders should be at least 15m high. When there is a building within a radius of.200m around the exhaust pipe, the exhaust pipe is high
The degree should also be higher than the highest building by more than 3m.
4.8 For lime kiln and dolomite kiln exhaust, the oxygen content in the exhaust gas should be monitored at the same time to measure the air pollution in the exhaust pipe.
The discharge concentration of the substance shall be converted into the reference emission concentration under the condition of 8% oxygen content according to formula (1), and this shall be used as the judgment discharge.
Whether it is the basis for compliance. Before the country does not stipulate the baseline exhaust gas of other production facilities, the actual measured concentration is used as the
The basis for determining whether air pollutant emissions are up to standard.
Base CO
C โ
โ
โ=
821 (1)
Where. C base - baseline emission concentration of atmospheric pollutants, mg/m3;
C Real--measured concentration of atmospheric pollutants, mg/m3;
O Real--Measured oxygen content in dry kiln and dolomite kiln dry flue gas, %.
5 Air pollutant monitoring requirements
5.1 Sampling of emissions from enterprises shall be carried out according to the type of pollutants to be monitored and at the specified pollutant discharge monitoring position.
If there is an exhaust gas treatment facility, it should be monitored after the facility. A permanent drain outlet sign shall be provided at the pollutant discharge monitoring location.
5.2 Requirements for the installation of automatic monitoring equipment for pollutant discharge in newly built enterprises and existing enterprises, in accordance with relevant laws and
Implementation of the Measures for the Administration of Dynamic Monitoring.
5.3 Frequency, sampling time and other requirements for monitoring the discharge of pollutants from enterprises, according to relevant national pollution source monitoring techniques
The provisions of the surgical specifications are implemented. Dioxin indicators are monitored once a year.
5.4 Monitoring and sampling of atmospheric pollutants in the exhaust pipe shall be carried out in accordance with GB/T 16157 and HJ/T 397.
5.5 Sampling points for unorganized emissions of atmospheric pollutants are located at the discharge gates of doors, windows, roofs, gas buildings, etc.
Maximum value. If the unorganized emission source is open-air or covered with no walls, the monitoring point should be selected 5m away from the smoke (powder) dust source.
Any point at a minimum height of 1.5m and select the maximum concentration. Sampling of unorganized emission monitoring points, using any continuous 1h
Samples are averaged, or 4 samples are averaged at equal intervals over any 1 hour.
5.6 The enterprise shall monitor and save the sewage discharge in accordance with the relevant laws and the Measures for the Administration of Environmental Monitoring.
Original monitoring record.
5.7 The concentration of atmospheric pollutants is determined using the method criteria listed in Table 5.
Table 5 Standards for determination of atmospheric pollutant concentration
No. Contaminant Project Method Standard Name Method Standard Number
1 particulate matter
Determination of particulate matter in fixed pollution source exhaust gas and sampling method of gaseous pollutants GB/T 16157-1996
Determination of total suspended particulate matter in ambient air - Gravimetric method GB/T 15432-1995
2 Fluoride atmosphere fixed pollution source fluoride determination ion selective electrode method HJ/T 67-2001
3 Dioxin-based ambient air and exhaust gas dioxin determination isotope dilution high resolution gas chromatography-high resolution mass spectrometry HJ/T 77.2-2008
6 Implementation and supervision
6.1 This standard is supervised and implemented by the environmental protection administrative department of the people's government at or above the county level.
6.2 Under any circumstance, the enterprise shall comply with the air pollutant emission control requirements of this standard and take necessary measures to ensure the pollution.
Dyeing and control facilities are operating normally. Environmental protection departments at all levels can conduct on-site sampling or monitoring when conducting supervisory inspections of enterprises.
The results are used as a basis for determining whether the discharge behavior meets emission standards and implements relevant environmental protection management measures.
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