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Basic dataStandard ID: HJ 988-2018 (HJ988-2018)Description (Translated English): Self-monitoring technology guidelines for pollution sources - flat glass industry Sector / Industry: Environmental Protection Industry Standard Classification of Chinese Standard: Z05 Word Count Estimation: 8,815 Issuing agency(ies): Ministry of Ecology and Environment HJ 988-2018: Self-monitoring technology guidelines for pollution sources - flat glass 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. Self-monitoring technology guidelines for pollution sources - flat glass industry National Environmental Protection Standard of the People's Republic Sewage unit self-monitoring technical guide Flat glass industry Self-monitoring technology guidelines for pollution sources - flat glass industry Published on.2018-12-04 2019-03-01 Implementation Department of Ecology and Environment i directory Preface ii 1 Scope.1 2 Normative references.1 3 Terms and Definitions 1 4 General requirements for self-monitoring..2 5 Monitoring plan development..2 6 Information records and reports.4 7 other 5 Ii preface To implement the Law of the People's Republic of China on Environmental Protection, the Law of the People's Republic of China on Prevention and Control of Atmospheric Pollution, Law of the Republic of China on Prevention and Control of Water Pollution, Measures for the Administration of Sewage Permits (Trial), guides and regulates flat glass industrial discharge units Self-monitoring work to develop this standard. This standard proposes the general requirements for self-monitoring of flat glass industrial sewage units, the development of monitoring plans, information records and The basic content and requirements of the report. This standard is the first release. This standard was proposed and organized by the Ministry of Ecology and Environment. This standard is mainly drafted by. China Environmental Monitoring Center, Hebei Province Environmental Monitoring Center. This standard is approved by the Ministry of Ecology and Environment on December 4,.2018. This standard has been implemented since March 1,.2019. This standard is explained by the Ministry of Ecology and Environment. 1 sewage unit self-monitoring technical guide flat glass industry 1 Scope of applicationThis standard proposes the general requirements for self-monitoring of flat glass industrial sewage units, the development of monitoring plans, information records and The basic content and requirements of the report. This standard is applicable to the gas and water pollutants emitted by the flat glass industrial sewage unit during the production operation phase. And carry out self-monitoring on the impact of surrounding environmental quality. This standard is also applicable to solar cell glass for electronic glass industry (substrate glass, crystalline silicon for thin film solar cells) Self-monitoring of sewage unit for packaging glass for solar cells. The self-monitoring requirements for self-contained thermal power generating units (plants) and supporting power boilers shall be in accordance with the self-monitoring technology of the sewage disposal units. Guide to Thermal Power Generation and Boiler (HJ 820) implementation.2 Normative referencesThe contents of this standard refer to the following documents or their terms. Valid versions of undated references Applicable to this standard. GB 12348 Environmental noise emission standards for industrial enterprises GB/T 14848 Groundwater Quality Standard GB 26453 Flat Glass Industry Air Pollutant Emission Standard HJ 2.2 Technical Guidelines for Environmental Impact Assessment Atmospheric Environment HJ/T 55 Technical Guidelines for the Monitoring of Unorganized Emissions of Air Pollutants HJ/T 164 Technical Specifications for Groundwater Environmental Monitoring HJ/T 194 Technical Specifications for Manual Air Quality Monitoring HJ 610 Environmental Impact Assessment Technical Guidelines Groundwater Environment HJ 819 General Guidelines for Self-Monitoring Technical Units of Sewage Units HJ 820 sewage unit self-monitoring technical guide thermal power generation and boiler National Directory of Hazardous Wastes (Order No. 39 of the Ministry of Environmental Protection)3 Terms and definitionsThe following terms and definitions defined in GB 26453 apply to this standard. 3.1 Flat glass Plate-shaped silicate glass. 3.2 Flat glass industry The industry of flat glass is produced by processes such as floatation and calendering. 24 General requirements for self-monitoring The pollutant discharge unit shall check the pollution source, pollutant index and potential environmental impact of the unit, and formulate a monitoring plan. Set up and maintain monitoring facilities, carry out self-monitoring according to the monitoring plan, do quality assurance and quality control, record and save Monitor data and information and publicly monitor the results to the public.5 Monitoring plan development5.1 Exhaust emission monitoring 5.1.1 Organized exhaust emission monitoring points, indicators and frequency 5.1.1.1 Monitoring point setting Exhaust gas from each process is discharged to the external environment through the exhaust pipe, etc., and must be exhausted in front of the exhaust pipe or exhaust pipe. The track sets the monitoring point. 5.1.1.2 Monitoring indicators and monitoring frequency Organized exhaust gas monitoring points, monitoring indicators and minimum monitoring frequency of flat glass industrial sewage unit according to Table 1 Row. Table 1 Organized exhaust gas monitoring points, monitoring indicators and minimum monitoring frequency Production process production facility monitoring point Frequency of monitoring indicators Raw material crushing system Rough broken machine, fine broken machine, screening machine, bucket Elevator, belt conveyor Each device Corresponding row Pump Particle year Preparation and storage Bucket elevator, belt conveyor, screen Extension Batching system Mixer, bucket elevator, belt conveyor Delivery machine, kiln head silo Broken glass system broken glass crusher, belt conveyor Melting process glass melting furnace Melting furnace pair Should be exhausted Automatic monitoring of sulfur dioxide, nitrogen oxides and particulate matter Smoke blackness Hydrogen chloride, fluoride, ammonia b for half a year Mercury and its compounds c, cadmium and its compounds c, chromium and Compound c, arsenic and its compound c, lead and its compounds c, nickel and its compounds c, zinc and its compounds c Half a year Forming annealing process online coating equipment Equipment pair Should be exhausted Particulate matter, hydrogen chloride, fluoride, tin and their compounds for half a year Coal gas system Coal storage, processing equipment, screening equipment, Coal machine Particles for half a year Burning petroleum coke system Petroleum coke (powder) storage, crushing equipment, Grinding equipment, screening equipment, conveying equipment Particles for half a year Note. Exhaust gas monitoring shall be synchronized to monitor flue gas parameters in accordance with relevant standard analysis methods and technical specifications. a The key control area can appropriately increase the frequency of monitoring according to management needs. b Applicable to the use of ammonia-containing substances such as liquid ammonia as a reducing agent to remove nitrogen oxides from the flue gas unit, optional measurement of this indicator. c Applicable to flat glass industrial sewage unit with heavy oil, coal tar and petroleum coke as fuel. The sewage unit should be tested according to the fuel composition of each purchased batch. The analysis report determines the types of heavy metals that should be monitored in the exhaust gas. If there is no analysis report, all the heavy metal indicators specified in this standard should be monitored. 35.1.2 Unorganized exhaust emission monitoring points, indicators and frequency The setting of the unorganized exhaust gas monitoring point of the flat glass industrial sewage unit shall be carried out in accordance with the requirements of HJ/T 55, monitoring The indicators and the minimum monitoring frequency are implemented in accordance with Table 2. Table 2 Unorganized exhaust gas monitoring points, monitoring indicators and minimum monitoring frequency Monitoring point monitoring indicators monitoring frequency remarks The factory boundary particles are suitable for all flat glass industrial sewage units for half a year. Ammonia tank area around ammonia for half a year It is suitable for hydrogen production from liquid ammonia and ammonia-containing substances such as liquid ammonia and ammonia. A flat glass industrial sewage unit for removing nitrogen oxides from flue gas for a reducing agent. The hydrogen sulfide around the gas generator is suitable for the flat glass industrial sewage unit that uses the furnace gas as fuel for half a year. Non-methane total hydrocarbon year around the storage tank Suitable for flat glass with fuel oil and coal tar as fuel and built-in storage tank Glass industrial sewage unit. 5.2 Wastewater discharge monitoring If the wastewater is discharged, the unit that discharges the sewage should set a monitoring point at the total discharge port of the wastewater; the discharge of the circulating cooling water should be The circulating cooling water discharge port shall be set at the monitoring point; the fuel discharge unit for heavy oil, coal tar and petroleum coke shall be in the desulfurization wastewater. The treatment facility discharge port sets the monitoring point. The monitoring indicators and the minimum monitoring frequency of each monitoring point are implemented in accordance with Table 3. Table 3 Wastewater monitoring points, monitoring indicators and minimum monitoring frequency Monitoring point fuel type monitoring indicators Frequency of monitoring Direct emission indirect emissions Waste water discharge All fuel Flow, pH, chemical oxygen demand, ammonia nitrogen, Suspended matter, five-day biochemical oxygen demand, total phosphorus, Total nitrogen, animal and vegetable oil, petroleum Month quarter Heavy oil, coal tar, petroleum pyrofluoride, sulfide, total zinc quarterly Produce gas volatile phenol, total cyanide, sulfide monthly quarter Circulating cooling water discharge all fuel Flow, pH, suspended solids, chemical aerobic Amount, ammonia nitrogen Quarter Desulfurization wastewater treatment facility exhaustion hole Heavy oil, coal tar, petroleum coke Flow, total mercury, total cadmium, total chromium, total arsenic, Total lead, total nickel, benzo(a)芘a Quarter Oven ash water seal water And washing of washing gas Water discharge Producer gas benzo (a) 芘a quarter Rain drain All fuel chemical oxygen demand, ammonia nitrogen, suspended solids Day b heavy oil, coal tar oil Oven phenol, total cyanide, sulfide a If two consecutive monitoringes have not been detected, they can be relaxed to monitor once a year; if monitoring is not detected for two consecutive years, monitoring may not be carried out. b When the discharge port has flow, monitoring is carried out, and the discharge period is monitored daily. If there is no abnormality in the monitoring year, it can be relaxed to monitor once every quarter. 45.3 Environmental noise monitoring at the boundary of the plant The environmental noise monitoring point setting at the boundary should follow the principle in HJ 819, mainly considering centrifugal fan, air compressor, The distribution of noise sources such as cutting machines and pumps in the plant area and the location of sensitive points in the surrounding environment. Factory boundary environmental noise quarterly At least one day and night monitoring is carried out, and the monitoring indicator is the equivalent A sound level. If there are sensitive points around, the frequency of monitoring should be increased. 5.4 Surrounding environment quality impact monitoring 5.4.1 Environmental Management Policy or Environmental Impact Assessment Document and its approval [only available after January 1,.2015 (inclusive) If the pollutant discharge unit approved by the environmental impact assessment has clear requirements, it shall be implemented as required. 5.4.2 If there is no clear requirement, the pollutant discharge unit may monitor the surrounding environmental quality according to the actual situation. 5.5 Other requirements 5.5.1 In addition to the pollutant indicators in Tables 1 to 3, the pollutant indicators in 5.5.1.1 and 5.5.1.2 should also be included in the monitoring. The range of indicators, and refer to Tables 1 to 3 and HJ 819 to determine the frequency of monitoring. 5.5.1.1 Drainage permit, pollutant discharge (control) standards implemented, environmental impact assessment documents and their approval [Received only for environmental impact assessments obtained after January 1,.2015 (including)] and relevant regulations Pollutant indicator. 5.5.1.2 The sewage unit shall be based on the raw and auxiliary materials used in the production process, the production process, the intermediate and final product types, and the monitoring knot. If it is determined that the actual emissions are in the list of pollutants in the toxic or harmful controlled priority list, or other toxic Pollutant indicator. 5.5.2 The monitoring frequency of each indicator can be determined according to the frequency of monitoring in HJ 819 on the basis of meeting this standard. Then increase the frequency of monitoring. 5.5.3 Sampling methods, monitoring and analysis methods, monitoring quality assurance and quality control are performed in accordance with HJ 819. 5.5.4 The description and changes of the monitoring plan shall be implemented in accordance with HJ 819.6 Information records and reports6.1 Information Record 6.1.1 Monitoring information record Manual monitoring records and automatic monitoring of operation and maintenance records are performed in accordance with HJ 819. 6.1.2 Production and pollution control facility operation record 6.1.2.1 Production Health Record The production line records the cumulative production time and production load of the main production facilities of each production unit under normal working conditions; Excipient usage (quartz sand, silica sand, feldspar, dolomite, limestone, thenardite, soda ash, etc.); fuel use (solid Body fuel, fuel oil, gas, natural gas, etc., and information on the proportion of substances and elements; flat glass production (square Meter, thickness, heavy box, pull amount, etc. 6.1.2.2 Record of operation of exhaust gas treatment facilities a) Record the basic conditions of desulfurization, denitrification, dust removal equipment, and commissioning time; 5b) Record the amount of desulfurizer used, the amount of denitration reducing agent used, and the amount of desulfurization by-product produced; c) Record the operation of desulfurization, denitrification, dust removal facilities, faults and maintenance, bag duster cleaning cycle and changing bags Situation, etc. 6.1.2.3 Unusual working condition record When the sewage unit is shut down, the equipment is overhauled, the equipment is operating abnormally, or the pollution control facilities are abnormal, the smoke should be recorded. Parameter information such as emission mode, emission time, and main monitoring indicators (sulphur dioxide, nitrogen oxides, particulate matter). 6.1.2.4 Record of wastewater treatment status Relevant information such as wastewater treatment methods, whereabouts and emissions should be recorded. 6.1.3 Record of industrial solid waste Record the amount of general industrial solid waste and hazardous waste generated, comprehensive utilization, disposal volume, storage capacity, hazardous waste The object should also record its specific destination. General industrial solid waste including refractory materials, dust collection, waste packaging materials, water Treatment of precipitates, desulfurization products, and the like. Hazardous waste includes waste engine oil, coal tar, spent catalyst, phenol cyanide wastewater treatment sludge, etc. Other processes may produce The hazardous wastes are identified in accordance with the National Hazardous Waste List and the national hazardous waste identification standards and identification methods. 6.1.4 Information report, emergency report, information disclosure Executed according to HJ 819.7 otherThe sewage disposal unit shall truthfully record the working conditions during the manual monitoring (including the production load, the operation of the pollution control facilities, etc.). Ensure that the monitoring data is representative. Except as provided in this standard, it is implemented in accordance with HJ 819. ......Tips & Frequently Asked Questions:Question 1: How long will the true-PDF of HJ 988-2018_English be delivered?Answer: Upon your order, we will start to translate HJ 988-2018_English as soon as possible, and keep you informed of the progress. 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