HOME   Cart(0)   Quotation   About-Us Policy PDFs Standard-List
www.ChineseStandard.net Database: 189759 (19 Oct 2025)

HJ 879-2017 English PDF

US$229.00 ยท In stock
Delivery: <= 3 days. True-PDF full-copy in English will be manually translated and delivered via email.
HJ 879-2017: Self-monitoring technology guidelines for pollution sources. Textile and dyeing industry
Status: Valid
Standard IDContents [version]USDSTEP2[PDF] delivered inStandard Title (Description)StatusPDF
HJ 879-2017English229 Add to Cart 3 days [Need to translate] Self-monitoring technology guidelines for pollution sources. Textile and dyeing industry Valid HJ 879-2017

PDF similar to HJ 879-2017


Standard similar to HJ 879-2017

GB 22128   GB 8702   HJ 607   HJ 880   HJ 881   HJ 878   

Basic data

Standard ID HJ 879-2017 (HJ879-2017)
Description (Translated English) Self-monitoring technology guidelines for pollution sources. Textile and dyeing industry
Sector / Industry Environmental Protection Industry Standard
Classification of Chinese Standard Z05
Classification of International Standard 13.020
Word Count Estimation 10,173
Date of Issue 2017-12-21
Date of Implementation 2018-01-01
Quoted Standard GB 4287; GB 28936; GB 28937; GB 28938; HJ 442; HJ 819; HJ 820; HJ/T 2.3; HJ/T 91; HJ/T 166
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 for the self-monitoring of the textile printing and dyeing industry, the development of monitoring programs, and the basic contents and requirements for information recording and reporting. This standard is applicable to self-monitoring of water, air pollutants and noise emitted by the pollution discharge units of the textile printing and dyeing industry during their production and operation phase, as well as the impact on the surrounding environment. Self-monitoring requirements for self-provided thermal power generating units (plants) and supporting power boilers shall be implemented in accordance with HJ 820.

HJ 879-2017: Self-monitoring technology guidelines for pollution sources. Textile and dyeing 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.
(Sewage disposal unit self-monitoring technical guide Textile printing and dyeing industry) People's Republic of China national environmental protection standards Sewage units self-monitoring technical guide Textile printing and dyeing industry Self-monitoring technology guidelines for pollution sources -Textile and dyeing industry 2017-12-21 Published 2018-01-01 implementation Ministry of Environmental Protection released Directory Foreword ii 1 scope of application .1 2 Normative references .1

3 Terms and definitions

4 Self-monitoring of the general requirements .2 5 Monitoring program development 2 6 Information Recording and Reporting .7 7 Other .8

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" "People's Republic of China Law of the People's Republic of China on Prevention and Control of Atmospheric Pollution "to guide and standardize the monitoring of the pollutant discharging units of the textile printing and dyeing industry and formulate this standard. This standard puts forward the general requirements for self-monitoring of textile printing and dyeing industry sewage disposal units, monitoring program formulation, 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 Light Industry Cleaner Production Center. This standard MEP approved on December 21,.2017. This standard since January 01,.2018 into effect. This standard is interpreted by the MEP. Sewage disposal unit self-monitoring technical guide Textile printing and dyeing industry

1 scope of application

This standard puts forward the general requirements for self-monitoring of textile printing and dyeing industry sewage disposal units, monitoring program formulation, information recording and The basic content and requirements of the report. This standard applies to the textile printing and dyeing industry sewage units in the production and operation of its discharge of water, air pollutants, noise And the impact on its surrounding environment to carry out self-monitoring. Own-owned thermal power plant (plant), self-supporting boiler requirements in accordance with the implementation of HJ 820.

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 4287 Textile Dyeing and finishing industrial water pollutant emission standards GB 28936 Reeling industrial water pollutant discharge standards Wool textile industrial water pollutant discharge standards GB 28938 Ma Fang textile industrial water pollutant discharge standards HJ 442 Marine environment monitoring code 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 HJ/T 2.3 Environmental Impact Assessment Technical Guidelines Surface water environment HJ/T 91 Technical Specifications for Surface Water and Sewerage Monitoring HJ/T 166 Soil Environmental Monitoring Technical Specifications "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 4287, GB 28936, GB 28937, GB 28938, HJ 819 and the following terms and definitions apply to This standard. 3.1 Textile and dyeing industry pollutant discharge unit textile and dyeing industry pollutant emission unit Refers to the hemp, silk, wool and other textile fiber processing, textile materials pre-treatment, dyeing, printing, finishing the main Dyeing and processing, as well as engaged in weaving, clothing and apparel processing, and pollution produced by the production units. 3.2 Dyeing and dyeing Refers to the textile materials (fibers, yarns, threads and fabrics) to chemical-based process, including pre-treatment, Dyeing, printing, finishing (including the general finishing and functional finishing) and other processes. 3.3 Textile wastewater treatment plant centralized wastewater treatment plant for textile and dyeing industry For two or more textile printing and dyeing industry sewage disposal units to provide wastewater treatment services, and the implementation of GB 4287, GB 28936, GB 28937, GB 28938 water pollutant discharge requirements of enterprises or institutions. 4 Self-monitoring of the general requirements The unit should be identified sources of pollution, pollutants and potential environmental impacts, the development of monitoring programs, set up and maintain Test facilities, carry out self-monitoring according to the monitoring plan, make quality assurance and quality control, record and save the monitoring data according to Law to the public monitoring results.

5 monitoring program development

5.1 Wastewater discharge monitoring 5.1.1 monitoring point All textile printing and dyeing industry sewage units must be set at the total discharge of waste water monitoring points. The use of chrome-containing dyes and auxiliaries for dyeing textile printing and dyeing industrial sewage units, to be in the dyeing workshop or production facilities wastewater Drain set the monitoring point. A printing process, and the printing process using photosensitive network technology textile printing and dyeing industry sewage units, to be in the printing plant or Wastewater discharge facilities of production facilities shall set up monitoring points. All textile printing and dyeing wastewater treatment facilities must be set at the total discharge monitoring points. 5.1.2 Monitoring Indicators and Monitoring Frequency Drainage units in the printing and dyeing industry wastewater discharge monitoring points, monitoring indicators and the minimum monitoring frequency in accordance with Table 1 implementation. Table 1 Dyeing and Printing Industry wastewater discharge units monitoring points, monitoring indicators and the minimum monitoring frequency Monitoring point monitoring indicators Monitoring frequency Direct emissions indirect emissions Total discharge of waste water Flow, pH, COD, ammonia nitrogen automatic monitoring Suspended matter, color day On the 5th biochemical oxygen demand, total phosphorus a, total nitrogen a week Aniline, sulphide monthly Chlorine dioxide b, Adsorbable organic halogen (AOX) b Quarterly six months Total antimony c quarter Workshop or production facility wastewater exhaustion hole Hexavalent chromium d month Drainage of chemical oxygen demand, suspended solids e Note. The monitoring indicators listed in the table, the municipal district and above designated environmental authorities clearly require the installation of automatic monitoring equipment, to be taken automatically. Note. a total nitrogen/total phosphorus implementation of the total control area, the minimum monitoring frequency of total nitrogen/total phosphorus implementation of the day. b for chlorine bleaching process bleaching units. Monitoring results exceeded, the monitoring frequency should be increased. c for raw materials containing polluting sewage units. Water quality in the total antimony exceeds the basin or coastal areas, the total antimony minimum monthly monitoring frequency of implementation. d for the use of chromium-containing dyes and auxiliaries, photosensitive network technology for dyeing and printing of sewage units. e Monitoring by day during discharge. Wool spinning, hemp spinning, reeling, weaving, washing wastewater treatment units effluent discharge monitoring points, monitoring indicators and minimum monitoring Frequency according to Table 2 implementation. Table 2 wool, linen, reeling, weaving, washing wastewater discharge unit effluent industry Monitoring points, monitoring indicators and the minimum monitoring frequency Monitoring point monitoring indicators Monitoring frequency Direct emissions indirect emissions Total discharge of waste water Flow, pH, COD, ammonia nitrogen automatic monitoring Suspended solids, color a day week 5th biochemical oxygen demand week Total phosphorus b, total nitrogen b, animal and vegetable oils c month Adsorption organic halogen (AOX) d half a year Drainage of chemical oxygen demand, suspended solids e Note. The monitoring indicators listed in the table, the municipal district and above designated environmental authorities clearly require the installation of automatic monitoring equipment, to be taken automatically. Note. a for linen, washing industry sewage units. b Total nitrogen/total phosphorus Implementation Total control area, total N/P minimum monitoring frequency Per day. c for wool, silk industry sewage units. d for linen industry waste units. Monitoring results exceeded, the monitoring frequency should be increased. e Monitoring by day during discharge. Textile dyeing and printing industry wastewater treatment facilities wastewater discharge monitoring points, monitoring indicators and the minimum monitoring frequency in accordance with Table 3 carried out. Table 3 Textile Dyeing and Printing and Dyeing Industrial Wastewater Treatment Facilities Wastewater discharge monitoring points, monitoring indicators and minimum monitoring frequency Monitoring point monitoring indicators monitoring frequency Textile printing and dyeing industrial wastewater Centralized treatment facilities total row Let go Flow, pH, COD, ammonia nitrogen automatic monitoring Suspended solids, color, total phosphorus a, total nitrogen a day Five days biochemical oxygen demand week Total antimony b, chlorine dioxide c, adsorbable organic halogen (AOX) c, sulfide c, aniline Class c, hexavalent chromium c, animal and vegetable oil c Note. The monitoring indicators listed in the table, the municipal district and above designated environmental authorities clearly require the installation of automatic monitoring equipment, to be taken automatically. Note. a total nitrogen/total phosphorus implementation of the total control area, the minimum monitoring frequency of total nitrogen/total phosphorus implementation of the day. b Water quality of the total antimony in watersheds or coastal areas, the total antimony implementation by the week. c According to the receiving wastewater discharge sewage unit to determine the specific monitoring indicators. 5.2 Exhaust emissions monitoring 5.2.1 Organized emissions monitoring sites, monitoring indicators and monitoring frequency Textile printing and dyeing industry sewage unit organized emissions monitoring points, monitoring indicators and the minimum monitoring frequency in accordance with Table 4 Row. Table 4 Textile Printing and Dyeing Industry Sewage Disposal Organized Monitoring Points and Monitoring Indicators and Minimum Monitoring Frequency Pollution source monitoring points monitoring indicators monitoring frequency Printing facilities Printing facilities Exhaust stacks or workshop exhaust treatment facilities Discharge openings Non-methane total hydrocarbon quarter Toluene, xylene for six months Stereotyped facility Stereotype facility Exhaust air outlet or workshop exhaust treatment facility discharge Particulates for six months Non-methane total hydrocarbon quarter Coating Facilities Coating Facilities Exhaust stack or workshop exhaust treatment facility discharge Non-methane total hydrocarbon quarter Toluene, xylene for six months Note 1. Exhaust gas exhaust gas monitoring to monitor the gas parameters simultaneously. Note 2. Monitoring results exceeded, the corresponding indicators should increase the monitoring frequency. Note 3. According to the environmental impact assessment documents and their approval, as well as raw materials, technology to determine whether to monitor other organic pollutants. Note 4. Printing facilities refer to the facilities that produce the key sections of waste gas such as steaming, electrostatic flocking, digital printing and transfer printing. If the textile printing and dyeing industry sewage units have other organized emissions sources should be based on pollutant emissions, with reference to HJ 819 Determine the monitoring indicators and monitoring frequency and so on. 5.2.2 Unorganized exhaust emission monitoring points, monitoring indicators and monitoring frequency Textile dyeing and printing industry sewage unit unorganized emissions monitoring points, monitoring indicators and the minimum monitoring frequency in accordance with Table 5 Row. Table 5 textile printing and dyeing industry sewage unit unorganized emissions monitoring points, monitoring indicators and the minimum monitoring frequency Sewage monitoring sites monitoring points monitoring frequency Printing and dyeing industry sewage unit factory Particulate matter, odor concentration a, ammonia b, hydrogen sulfide b, non Total methane Six months Woolen, hemp, silk industry sewage unit boundary particles, odor concentration a, ammonia b, hydrogen sulfide b half a year Weaving, washing industry sewage unit boundary particles, odor concentration b, ammonia b, hydrogen sulfide b half a year Note. If there are sensitive spots around, monitoring frequency should be appropriately increased. Note. a According to the environmental impact assessment documents and their approval, as well as raw materials, technology to determine whether to monitor other odor pollutants. b Sewage treatment units with wastewater treatment facilities monitor this pollutant index. Textile dyeing and printing industry waste water centralized treatment facilities unorganized emissions monitoring points, monitoring indicators and the minimum monitoring frequency Press According to Table 6 implementation. Table 6 Textile dyeing and printing industry wastewater treatment facilities unorganized emissions monitoring points, monitoring indicators and the minimum monitoring frequency Unit monitoring points monitoring indicators monitoring frequency Textile printing and dyeing industrial wastewater Centralized facilities Factory odor concentration a, ammonia, hydrogen sulfide quarter Note. a According to the environmental impact assessment documents and their approval, as well as raw materials, technology to determine whether to monitor other odor pollutants. 5.3 factory environment noise monitoring The site environmental noise monitoring point setting should follow the principle of HJ 819, mainly consider the noise source in Table 7 in the plant area Distribution and location of sensitive points around the environment. Environmental noise at the factory at least quarterly monitoring carried out day and night, around the sensitive Sense, should increase monitoring frequency. Table 7 factory environment noise monitoring distribution should pay attention to the main noise source Noise source main equipment Production workshop shampoo facilities, linen degumming facilities, reeling facilities, weaving facilities, printing and dyeing production facilities, washing facilities, etc. Wastewater treatment facilities Wastewater treatment of fans, pumps, aeration equipment, sludge dewatering equipment 5.4 Peripheral environmental quality impact monitoring 5.4.1 Environmental Impact Assessment Documents and Approvals (Only for the environmental impact assessment obtained after January 1,.2015 (inclusive) Complex), the relevant environmental management policies have a clear requirement, the implementation of the requirements. 5.4.2 No specific requirements, if the textile printing and dyeing industry, sewage treatment units, textile printing and dyeing wastewater treatment plant operating unit It is considered necessary to monitor the surrounding surface water, seawater and soil. For waste water directly into the surface water, sea water spinning Dyeing and dyeing industrial sewage units and textile printing and dyeing wastewater treatment facilities, according to HJ/T 2.3, HJ/T 91, HJ 442 And receiving water body environmental management requirements set monitoring sections and monitoring points. To carry out soil monitoring of the textile printing and dyeing industry sewage units And textile printing and dyeing industrial wastewater treatment facilities, according to HJ/T 166 and soil environmental management requirements set monitoring points. Supervisor Measured indicators and the minimum monitoring frequency in accordance with Table 8 implementation. Table 8 Peripheral Environmental Quality Impact Monitoring Indicators and the Minimum Monitoring Frequency Monitoring frequency of target environmental monitoring indicators Surface water pH value, suspended solids, permanganate index, BOD 5, ammonia nitrogen, total phosphorus, Total nitrogen, total antimony a, total chromium b, aniline c and so on Quarterly seawater pH, Permanganate Index, BOD 5, Dissolved Oxygen, Active Phosphate, Inorganic nitrogen, total antimony a, total chromium b, aniline c and so on Six months Soil pH, chromium and other years b Note. a applies to the raw material containing polyester sewage units, as well as to receive such sewage treatment units wastewater treatment facilities. b for the use of chrome-containing dyes and auxiliaries, photosensitive network technology for dyeing and printing of sewage units, as well as the wastewater discharge units to receive such Centralized facilities. c applies to the printing and dyeing industry sewage units, as well as to receive such sewage treatment units centralized wastewater treatment facilities. 5.5 Other requirements 5.5.1 In addition to the indicators of pollutants in Tables 1 to 6 and 8, the indicators of pollutants in 5.5.1.1 and 5.5.1.2 should also be included in the monitoring Indicator range, and with reference to Table 1 ~ Table 6, Table 8 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) obtained after the approval of environmental impact assessment), the relevant provisions of environmental regulations clearly required pollution Index 5.5.1.2 According to the production process of raw and auxiliary materials, production processes, intermediate and final product type, monitoring results to determine the actual row Put in the toxic or harmful pollutants or priority list of pollutants related to pollutants, or other indicators of toxic pollutants. 5.5.2 The monitoring frequency of each index can meet the requirements of this standard and can be improved according to the principle of determining the frequency of monitoring in HJ 819 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 health information records Detailed records of production and pollution control facilities operating conditions, daily production should record the relevant information with reference to the following, and Organized into account for future reference 6.1.2.1 Production health records a) The production line records daily raw materials consumption, product output. water withdrawal (fresh water), the main raw materials (natural fiber Dimensional or chemical fiber, fabric, fabric, clothing, chemicals added in the production process, etc.) usage, raw silk, net wool, Fine linen, yarn, fabric, color, yarn, fabrics, garments, such as washing production; b) dyeing production line daily record dye rate, bath ratio and so on. 6.1.2.2 Wastewater treatment facilities operating record Daily record of wastewater treatment capacity, wastewater reuse, wastewater discharge, sludge production (record moisture content), wastewater treatment Name and amount of medicament used, power consumption, etc. Record the operation, failure and maintenance of wastewater treatment facilities. 6.1.2.3 Exhaust gas treatment facility health records Record the name and amount of consumables used for exhaust gas treatment on a daily basis, record the operating parameters of the exhaust gas treatment facilities, faults and Maintain the situation and so on. 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 9. Table 9 Sources of General Industrial Solid Waste and Hazardous Waste Category Source Solid waste General industrial solids waste Production workshop, waste water/gas place Management facilities Industrial dust, paper waste, waste wood, waste glass and other waste (residual waste from raw materials Materials, metal parts, etc.), nitrogenous organic waste, organic wastewater sludge (according to local management Seeking implementation) Hazardous Waste Production workshop, exhaust gas treatment facility Waste mineral oil and mineral oil-containing waste, waste organic solvents and organic solvent waste, dyes and Paint waste, waste wraps, containers, etc. that are contaminated with hazardous wastes such as dyes and organic solvents 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 report and 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, according to HJ 819 implementation.

Tips & Frequently Asked Questions:

Question 1: How long will the true-PDF of HJ 879-2017_English be delivered?

Answer: Upon your order, we will start to translate HJ 879-2017_English as soon as possible, and keep you informed of the progress. The lead time is typically 1 ~ 3 working days. The lengthier the document the longer the lead time.

Question 2: Can I share the purchased PDF of HJ 879-2017_English with my colleagues?

Answer: Yes. The purchased PDF of HJ 879-2017_English will be deemed to be sold to your employer/organization who actually pays for it, including your colleagues and your employer's intranet.

Question 3: Does the price include tax/VAT?

Answer: Yes. Our tax invoice, downloaded/delivered in 9 seconds, includes all tax/VAT and complies with 100+ countries' tax regulations (tax exempted in 100+ countries) -- See Avoidance of Double Taxation Agreements (DTAs): List of DTAs signed between Singapore and 100+ countries

Question 4: Do you accept my currency other than USD?

Answer: Yes. If you need your currency to be printed on the invoice, please write an email to [email protected]. In 2 working-hours, we will create a special link for you to pay in any currencies. Otherwise, follow the normal steps: Add to Cart -- Checkout -- Select your currency to pay.