In June 2017, China Chemical Fiber Industry Association released the “China Green Action Plan for Chemical Fiber Industry Development (2017-2020)”, which clearly defined the seven development goals, tasks and safeguards in the eight key areas of the work. Deeply implement the spirit of the 18th Congress of the Party and the 3rd, 4th, 5th, and 6th plenary sessions of the 18th CPC Central Committee and promote the green development of the entire industry. The full text of the China Chemical Fiber Industry Green Development Action Plan (2017-2020) is as follows:

China Chemical Fiber Industry Green Development Action Plan

(2017-2020)

The achievements during the "Twelfth Five-Year Plan" period and the situation at the present stage

During the “Twelfth Five-Year Plan” period, in the face of complex domestic and international situations and the environment, China’s chemical fiber industry promoted structural adjustment and changed its mode of development. Overall, it maintained a steady and rapid development. The chemical fiber industry insisted on cleanliness, especially in the construction of ecological civilization and the promotion of green development. Production, energy saving and emission reduction as an important means of transformation, upgrading and adjustment of structure, promote industrial technological progress, vigorously promote advanced energy-saving and emission-reduction technologies, new equipment and new products, and constantly improve industry clean production standards, energy-saving and emission reduction, and green fiber signs. The certification and other work systems have completed the “Twelfth Five-Year Plan” energy saving and emission reduction targets in advance.

First, positive progress has been made in energy conservation and emission reduction. During the “12th Five-Year Plan” period, the industry’s energy efficiency and water efficiency increased significantly. In 2015, the comprehensive energy consumption of chemical fiber industry units fell by 36.3% compared with 2010, and the water withdrawal per ton of fiber was 40.56%, which achieved significant results. Through technological innovation and enhanced measurement management, enterprises have made significant improvements in the comprehensive utilization level of resources and energy as compared with before. The unit energy consumption has been significantly reduced, and the comprehensive energy consumption of some enterprises has reached the international advanced level. The comprehensive management level of chemical fiber industry is Gradually improve.

The second is the widespread promotion of energy-saving emission reduction technologies. More than 40 key energy-saving and emission-reduction technologies were promoted, including one-time denitrification technology, low-temperature short-flow polyester technology, waste bottle cleaning wastewater membrane treatment technology, and polyester production wastewater acetaldehyde recovery technology, etc. Widely used; the popularization and application of liquid coloring fiber technology greatly reduces the energy consumption and pollution emissions in downstream printing and dyeing.

During the “Twelfth Five-Year Plan” period, 10,000-ton domestically produced PBT continuous polymerization device and fiber product development, annual production of 400,000 tons of differentiated polyester filament complete sets of technology and new series of product development, with an annual output of 200,000 tons of melt direct spinning polyester Industrial yarn production technology, waste PET bottle sheet liquid phase tackifying/homogenizing direct spinning industrial polyester filament yarn key technology and equipment development, large-capacity polyamide 6 polymerization and nylon 6 full extinction porous fine fiber manufacturing key technologies and equipment , Energy-saving and environmentally friendly viscose fiber complete sets of equipment and key technologies integrated development, industrialization of 1,000 tons of pure chitosan fiber and application of key technologies and other key technologies in 16 industries achieved breakthroughs and won the “Light of Textile” scientific and technological progress award In the first prize, companies in the industry completed 16 carbon footprint product certifications and 10 recycling system certifications, which promoted the industry to achieve sustainable green development.

The third is the preliminary establishment of the chemical fiber green manufacturing system. “Evaluation Index System for Polyester Polyester Industrial Cleaner Production”, “Evaluation Index System for Cleaner Polyester Industrial Cleaner Production”, “Evaluation Index System for Spandex Industrial Cleaner Production”, “Evaluation Index System for Polyamide 6 Industrial Cleaner Production” and “Viscose Fiber Industry "Cleaner Production Evaluation Index System" and other regulatory documents have been promulgated one after another, providing effective management tools and evaluation methods for cleaner production in the chemical fiber industry, and promoting the standardized management of energy-saving and emission-reduction in the industry.

The issuance of documents such as "Adhesion conditions for viscose fibers" and "Regulatory conditions for recycled chemical fibers (polyester) industry" has provided a legal basis for the elimination of high-energy-consuming and high-pollution enterprises and promoted structural adjustment and upgrading of the industry. The establishment of a series of group standards, such as the "Recycling and Reusing PET Fiber Identification Method" and "Green Recycling Chemical Fiber (Polyester) Industry Green Specification", has further improved the construction of the chemical fiber green manufacturing system.

Fourth, accelerate the promotion of green fiber products. During the "Twelfth Five-Year Plan" period, China National Chemical Fiber Association actively promoted green development in the industry through activities such as "Promotion and Release of Fiber Epidemic Trend Products", "China Chemical Fiber Association? Hengyi Fund", "China Chemical Fibre Association" and "Luxury Fund". , and the National Textile and Chemical Fiber Product Development Center jointly build a green fiber mark certification system, aims to promote product green design, green materials and green manufacturing, through the form of third-party certification and management of the market to regulate, and further stimulate enterprises to develop green fiber Enthusiasm, improve the social recognition of green fiber and the credibility of related products, and effectively enhance the competitiveness of enterprises and products in domestic and foreign markets. Promote environmental protection and public health, and then promote the green development of the entire industry. During the “Twelfth Five-Year Plan” period, the association used the popular trend platform to launch 11 green fiber products.

While reviewing and summing up achievements, we must also soberly see that the green sustainable development of the industry is still facing a grim situation.

At present, new forms of trade competition based on energy conservation, environmental protection, and green and low carbon have already taken shape. Developed countries have restricted policies such as high energy consumption, high emissions, and import of products containing toxic and hazardous materials, which have formed a “reversing mechanism” for the development of the industry. This requires that we must take green, low-carbon, and cyclical development as an important starting point for enhancing the international competitiveness of the industry and breaking through the green barriers.

Promoting green development of the industry is also an important measure to promote structural reforms on the supply side, promote industry restructuring, and transfer methods. It is an effective measure to promote energy conservation and consumption reduction, realize cost reduction and efficiency increase, and increase effective supply of green products and complement green development. The inevitable requirement of the short board.

Two general requirements

(I) Guiding Ideology

Deeply implement the spirit of the 18th Congress of the Party and the Third Plenary Session of the 18th, 18th, 5th, and 6th Central Committee of the Communist Party of China, firmly establish the concept of innovation, coordination, green, open, and shared development, and aim at the high ground of the world's green fiber development. The “Green Transformation and Upgrading of Industries” is the central goal. Green design, green manufacturing, green procurement, green fiber products, circular economy, and green fiber standards for chemical fiber industry are the starting points. Green ideas and technology are integrated throughout the chemical fiber manufacturing industry to promote green The areas of fiber materials, green fiber products, green factories, green parks, and green chemical fiber industry chains have been fully developed. The chemical fiber industry has become a model for the transformation and upgrading of China's industrial green and the promotion of green development.

(b) Basic principles

Driven by technological innovation. Adhere to the scientific and technological innovation as the core, rely on scientific and technological innovation to solve development problems. Build a green support technology innovation platform, develop and promote core key green process technologies and equipment. R&D and promotion of high-end, core, and key green process technologies and equipment, and promote the development of science and technology innovation, management innovation, and business model innovation in the chemical fiber industry.

Focus on structural optimization. To modify stocks and optimize incrementals. Speed ​​up the industry's green cleanliness, low-carbonization and recycling upgrades, eliminate backward equipment processes, and reduce the generation of pollutants from the source. Improve the efficiency of resource and energy use, reduce the intensity of pollutants discharge, implement comprehensive treatment of pollution sources, and achieve stable discharge standards. Actively lead the emerging industries from a high starting point for green development and develop green products.

Supported by service platform. Accelerate the advancement of the Chemical Fiber Green Manufacturing Center and the Chemical Fiber Green Manufacturing Industry Alliance, develop green manufacturing consulting, certification, training, and other third-party service agencies to provide integrated chemical fiber green manufacturing solutions.

The standard system guarantees. Accelerate the improvement of standards for industrial energy efficiency, water efficiency, emissions, and comprehensive utilization of resources, implement green supervision in accordance with the law, and guide green consumption. Accelerate the construction of green product standards and related certification evaluation systems.

(III) Development goals

During the “Thirteenth Five-Year Plan” period, the chemical fiber industry will focus on the implementation of the “Made in China 2025” key green manufacturing tasks, focus on the green transformation and upgrading of the industry, accelerate the development and industrialization of key technologies, and actively build green manufacturing. System, accelerate the green development of chemical fiber industry, promote energy saving and consumption reduction of chemical fiber industry, realize cost reduction and efficiency increase, increase effective supply of green products, green services, promote the construction of green fiber marking and certification system, and increase market awareness of green fiber products .

By 2020, the concept of green development will become a universal requirement for the entire process of chemical fiber industry production. The green development promotion mechanism for chemical fiber industry will be basically formed. Green design, green manufacturing, green procurement, green process technology and green chemical fiber products will become new growth points for the chemical fiber industry. The overall level of green development in the chemical fiber industry has been significantly improved.

- Significant increase in energy efficiency. The growth rate of industrial energy consumption has slowed down, and energy consumption per unit of chemical fiber products has reached the world's advanced level, and some products have reached the international advanced level.

- The level of clean production has increased significantly. The application of advanced and clean production technologies and equipment is basically universal. The level of cleaner production in the industry has increased significantly. The emissions of sulphur dioxide, nitrogen oxides, chemical oxygen demand and ammonia nitrogen have been significantly reduced, and high-risk pollutant emissions have been significantly reduced.

- The level of resource utilization has increased significantly. The water consumption per unit product has further dropped, the comprehensive utilization rate of large-scale industrial solid wastes has further increased, and the recovery and utilization rate of major renewable resources has steadily increased.

-- The preliminary establishment of a green chemical fiber manufacturing system. The green fiber manufacturing standard system was basically established, and green design and evaluation were widely used. Green procurement, green fiber label products have grown substantially, and the industry has initially formed a green supply chain.

-- Steady improvement in the manufacturing capacity of green chemical fiber. Formed a batch of key enterprises with core competitiveness, accumulatively completed 50 key technological transformation projects, created 20 green chemical fiber demonstration plants, 2 green chemical fiber industrial parks, 2 to 5 chemical fiber ecology (green) design demonstration companies, 10 companies Green fiber product innovation center.

-- The emission intensity of major pollutants in the main products of the chemical fiber industry, key (viscose, acrylic, vinylon) industry has reached the world's advanced level, and some professional green manufacturing levels are in the leading position in the world. Create a new pattern of innovation driven, intensive and efficient, environmentally friendly industry development.

- Increase the elimination of backward production capacity and resolve some of the excess capacity. By 2020, the caprolactam (CPL) production line with 25% higher unit energy consumption than the current advanced value and 30% higher processing cost will be optimized or eliminated; the unit's comprehensive energy consumption will be 50% higher than the current advanced value, and the unit product COD Emissions are 29% higher, 40% higher in solid waste per unit product, and PTA production lines that are more than double the processing cost are optimized or eliminated; the unit's comprehensive energy consumption is more than 20% higher than the current advanced value, and wastewater is discharged 40% higher, more than 10% higher COD emissions per unit of product, 30% higher processing costs, recycling or reuse of polyester lineups.

-- Establish and improve the green chemical fiber standard system, formulate and publish 10 green standards.

The main objectives of the green development of chemical fiber industry during the "13th Five-Year Plan" period

Three key areas

(I) Efforts to cultivate the green design capabilities of chemical fiber products

Strengthen the application of key technologies in chemical fiber green design, improve the company's green development awareness and ecological (green) design capabilities, advance ecological (green) design system construction and technological advancement, and promote the integration of ecological (green) design with product innovation development and technological process improvement.

1. Raw material source green design

Green sources of raw materials mainly consist of two parts. One is the preparation of bio-based synthetic fiber raw materials and synthetic fiber products based on corn, cassava, and some crop residues. Conquered polyethylene furandicarboxylate (PEF), polytrimethylene terephthalate (PTT), bio-based polyethylene terephthalate (PDT), polybutylene terephthalate (PBT ), Polylactic acid (PLA), nylon 56 and other monomer, polymerization, spinning key technologies, focusing on raw material substitution technology, to achieve large-scale production, the development of low-cost, high-quality bio-based fibers and products.

The second is bio-based recycled fibers such as cellulose fibers, protein fibers, seaweed fibers, and chitosan fibers. It focuses on the development of new pretreatment technologies such as cellulosic resources, biological enzymes, pulp and fiber integration, high-efficiency uniform continuous dissolution and defoaming preparations for high-concentration stock solutions, high-speed high-uniformity dry-jet wet-spinning technologies, raw liquid coloration and fiber dyeing, and surface preparation. Functionalization technology, and solvent recovery, concentration and purification technology. In the end, bio-based recycled fibers will be resource-based, continuous, large-scale, low-cost, and functionally prepared.

2. Process design green design

1 High-performance fiber green processing design

Mainly to achieve low cost, low carbonization, lightweight processing and preparation. Development of large-capacity continuous polymerization and control technologies for carbon fiber precursors, high-density high-pressure and high-density extrusion, high-speed dry-jet wet spinning, steam drafting technology, controlled, homogeneous and efficient low-temperature pre-oxidation and carbonization technologies, and efficient solvent recovery Processing technology. With the goal of energy-saving and emission-reduction in the whole process, new technologies such as polymer spinning and solvent recovery are combined, and intelligent control is used to realize the green production of high-performance fiber such as carbon fiber.

In the process of preparing green, high-strength and high-modulus polyethylene fibers, a new green environment-friendly solvent is used to replace white oil and decahydronaphthalene. The process flow is short and the automation of the equipment is high. It meets the requirements of unmanned workshops, and the closed and automatic circulation within the system achieves a green environment. The requirement of zero emission improves the spinning efficiency and greatly reduces the cost of fiber production.

2 green fiber processing design

It is mainly to develop low-energy, high-efficiency preparation technologies. Develop multi-component phase separation spinning, high-speed centrifugal spinning technology, high-efficiency biological preparation technology, electrospinning, high-efficiency spraying technology, multiple structure control technology, and high-efficiency homogenization and large-scale engineering technology.

3 General-purpose polyamide, polyester fiber green processing design

Develop high-efficiency catalysts and polymerization equipment, dimer control technology, liquid phase adhesion and desorption technology, and efficient monomer recycling technology. Through the full-process reaction kinetics study, the formation of dimers and monomers was controlled, and the industrial melt spinning technology of polyamide fibers was broken through the use of catalysis, doping, and liquid phase viscosification technology.

Development of polymerization technologies such as “one end two-tail” and “double-polyol cycle” green catalysis, new modules such as filament loop blowing and Wings in pre-drawing wire (POY), full-draft wire (FDY) and industrial wire Application technology, ethylene glycol, acetaldehyde recovery and reuse technology, and differential preparation of polyester fiber flexible preparation technology; development of flame-retardant, anti-droplet, high-like cotton and homogeneous fiber and its application of complete sets of engineering technology to achieve Large-capacity large-scale polyester flexible preparation.

4 recycling green design

Develop highly efficient continuous textile grading technology, high-density drying, conveying, melting technology, continuous melt-adjusting and viscosity-adjusting technologies for melt, resource-refining technologies for mixed materials, and low-VOC, heavy-low-metal content control technologies. By conquering the physical, physical, chemical, and chemical methods to recover key technologies, the recycling rate of polyester fiber is increased, making recycled fiber the third largest fiber supplier in textile materials in China.

(II) Overall improvement of the green level of the production process

Use energy-saving equipment to develop processes that conserve energy and use green energy to improve energy efficiency; use less polluting and non-polluting green process equipment technologies to reduce or eliminate the production and emissions of waste and pollutants, and to discharge pollutants "Three wastes" comprehensive treatment; carry out recycling of raw materials and reduce the impact of production activities on the environment.

Energy efficiency

Adhere to saving priorities, vigorously promote the energy consumption revolution, improve energy efficiency of chemical fiber industry, promote enterprises to reduce costs and increase efficiency, accelerate the formation of green intensive production methods, and strengthen the core competitiveness of chemical fiber manufacturing.

With advanced and applicable technologies, equipment and applications as a means to enhance technology and energy conservation. Fully promote the transformation of industry energy-saving technologies, deepen the promotion of special operations for energy efficiency of key enterprises, speed up the promotion of recycling technology of polyester esterified steam waste heat, polyester, nylon, spandex single-end spinning technology, and screw extruder electromagnetic heating technology. The physical method recycles the energy-saving and emission reduction integrated technology of polyester staple fiber production process, MVR mechanical vapor recompression recycling polyamide 6 monomer technology, spandex new heat transfer medium technology. We will continue to promote energy efficiency improvement projects for general equipment such as boilers, motors, transformers, and air-conditioning units, and organize the implementation of a smart energy-saving plan for compressed air. Accelerate process, technology, and equipment innovation, and promote the transition from local and individual energy saving to full-process and system energy-saving.

The core of energy management system construction will be to improve management and energy conservation. Implement mandatory energy consumption standards, promote the construction of energy management systems for key enterprises, and apply the energy management system throughout the company's production process. Regularly carry out energy measurement review, energy audit, energy efficiency diagnosis and benchmarking, explore energy conservation potentials, and establish a long-term mechanism for energy efficiency enhancement. . Implement energy-efficient leader in key industries to lead the action and drive the overall energy efficiency of the industry.

2. Cleaner production promotion

Focus on industrial key pollutants to carry out clean production technology transformation, promote green manufacturing processes, reduce pollutant emission intensity, reduce the use of toxic and hazardous raw materials, and promote the substitution or reduction of technology in key industries. Guide enterprises in the production process to use non-toxic harmless or low-toxicity, low-risk raw and auxiliary materials, the use of green fiber manufacturing process, from the source to reduce or avoid the production of pollutants. The implementation of the viscose fiber industry's green pulping technology and the new solvent-refined cellulose fiber technology will be promoted, and the scope of implementation will be gradually expanded.

1 Promote clean production technology transformation

For sulfur dioxide, nitrogen oxides, chemical oxygen demand, ammonia nitrogen, smoke (powder) dust and other major pollutants, actively guide enterprises in key industries to implement clean production technology transformation, and gradually establish an efficient implementation model of clean production based on technological progress. Reduce sulfur dioxide, nitrogen oxides, smoke (powder) dust emission intensity. Key areas (Taihu Lake Basin) will implement key projects to improve the level of clean production, reduce the total amount of industrial wastewater discharge, and chemical oxygen demand, ammonia and other pollutant emissions intensity. Actively promote the efficient recovery and reuse of ethylene glycol and acetaldehyde from polyester wastewater, the process of flash crystallization of viscose fiber production wastewater from sodium sulphate and the equipment technology, recycling technology of caprolactam from large nylon polymerization equipment, and coloring of raw liquids Pipeline online technology application, promote ultra-low emission reform of coal-fired boilers.

2 Strengthen water saving and pollution reduction technology and equipment

Focusing on high water-consuming industries such as viscose, recycled polyester, and vinylon, we will carry out water balance testing and water efficiency benchmarking, vigorously promote the transformation of water-saving technologies, and promote industrial water-saving technologies, technologies and equipment. Strengthen the production process and process water management of high-water-consuming industries, strictly implement the national standards for water intake quotas, and improve the efficiency of water use for enterprises. Promote the recycling of water resources and industrial wastewater treatment and reuse.

Accelerate the improvement of standards for industrial cleaner production, energy efficiency, water efficiency, emissions and comprehensive utilization of resources, and green fiber products, promote clean production evaluation, energy efficiency, and compliance with water efficiency standards, and implement green supervision according to law.

3. Efficient recycling of resources

In accordance with the principles of reduction, reuse, and recycling, we will accelerate the establishment of a cyclical industrial system for the chemical fiber industry, promote symbiosis and collaborative use of companies, parks, industries, and regions, and greatly increase resource utilization efficiency.

Focusing on high-value, large-scale, intensive use, focusing on the use of waste chemical fiber and waste textiles, strengthening the technical recovery of waste textiles, focusing on solving the high-value recycling technology of waste textiles, and promoting the use of polyester waste textile chemistry. The high value-for-fabrication uses technologically advanced and applicable technology and equipment to promote deep resource utilization.

(III) Guide the development of chemical fiber green products

In accordance with the green management concept of the product's entire life cycle, following the principle of minimizing the energy resource consumption and minimizing the impact on the ecological environment, through technologies such as technological innovation and optimization design, bio-based chemical fiber, recycled chemical fiber, liquid coloring chemical fiber and other products As a breakthrough, taking product quality and safety as the basic requirement, we will develop and promote green fiber products with points and surfaces, which will significantly increase the energy-saving and environmental-friendly low-carbon level of our products.

The use of green products in the process mainly means that the use of some functional fibers can bring about the effect of energy saving and consumption reduction.

(IV) Creating a chemical fiber industry green factory

In accordance with the principle of intensive land use, clean production, waste resources, and low carbon energy, we will create a chemical fiber green factory. Optimize the manufacturing process, apply green and low-carbon technologies to build and transform the factory buildings, and make intensive use of the plant area. The use of non-toxic and harmless raw materials to replace toxic and hazardous materials, the use of advanced and applicable clean production technology and efficient terminal management equipment to reduce pollutant emissions, promote the recycling of water, gas, solid waste and harmless use. The use of advanced water-saving technology, the implementation of sewage diversion, recycling water, sequential water and waste water recycling. Optimize the plant energy structure, adopt advanced energy-saving technologies and equipment, increase the proportion of clean energy and renewable energy, and build smart microgrids and energy management centers. We will implement a digital and intelligent management system for resources, energy, and environment to achieve dynamic monitoring and management of resources, energy, and pollutants. Through design, energy consumption and material consumption management can be realized. Including the establishment of an energy management and control system, the Energy Management and Control Center combines sensors, wireless data transmission, industrial Internet of Things and other technologies, real-time database technologies, data mining technologies, advanced control technologies, and dynamic planning technologies, targeting the company's coal, oil, water, The energy consumption measurement data of electricity and gas (gas) and other energy sources are collected on-line and controlled visually to achieve dynamic monitoring, analysis and diagnosis, comprehensive statistics, energy forecasting, energy dispatch, and optimized production scheduling, and to rationally plan and use energy. Reduce the company's energy consumption and increase economic efficiency.

(V) Promoting green procurement of chemical fiber industry

Relying on the leading suppliers of raw material supplies, with the support of the chemical fiber green supply standard, the chemical fiber enterprise green procurement standard and the producer responsibility extension system, we have established a chemical fiber green supply chain management system and carried out trials of the industry's green supply chain management. Establish a procurement, production, marketing, logistics, and recycling system that is resource-conserving and environmentally friendly, and extends the “green” development concept from a single-unit enterprise to every enterprise on the industrial chain, to achieve environmental protection and low carbon in the entire production chain. ,sustainable development. Encourage manufacturers to establish a green procurement concept, increase the requirements for suppliers' green design, clean production and green packaging, and establish a green raw material and product traceability information system.

(VI) Building a Green Manufacturing Service Platform for Chemical Fiber Industry

Establish a basic database of chemical fiber product life cycle, establish a chemical fiber green manufacturing center and a chemical fiber green manufacturing industry alliance, actively develop services such as green manufacturing consulting, certification, and training for third-party service organizations, and provide integrated solutions for chemical fiber green manufacturing.

1. Ecological safety evaluation

With reference to GBT18401-2010, OEKO-TEX? Standard 100 and other domestic and international textile ecological safety standards, we establish ecological safety standards for chemical fiber specialization or specialization and ecological safety evaluation systems for specialized fields of chemical fiber applications.

2. Green fiber mark certification system

"Green fiber" refers to a chemical fiber that is derived from biomass or recycled raw materials, low carbon environmental protection during the production process, and no pollution or renewable recycling after the finished product is discarded. At present, the "green fiber" consists of three major categories, namely, bio-based chemical fiber, recycled chemical fiber, and liquid colored fiber.

By 2020, at least 20 chemical fiber production enterprises will be promoted to obtain green fiber mark certification, and at least 100 downstream users will have obtained green fiber mark certification. Green fiber mark certification covers the entire textile industry chain.

(7) The basic establishment of a green standard system and solid foundation for green development

Improve the standard system. Focus on the demand for green development of chemical fiber industry and strengthen top-level design. Build a green chemical fiber standard system around green products, green factories, and green supply chains, improve energy conservation, water saving, and other indicators; speed up the standardization of energy consumption, water consumption, carbon emissions, and cleaner production, and upgrade the standardization of green fiber development in the chemical fiber industry . Give full play to the role of enterprises in standard setting, encourage the establishment of group standards and corporate standards that are stricter than national standards and industry standards, strengthen the coordination and integration of existing national, industry and group standards, and establish a green chemical fiber standard system. Encourage enterprises, research institutes, etc. to take the initiative to participate in international standardization work. Focusing on energy conservation and environmental protection, new materials, and other fields, they will lead or participate in the formulation of international standards and raise the level of international standards.

Establish an evaluation mechanism. Accelerate the establishment of a green manufacturing evaluation mechanism that combines self-evaluation, social assessment and government guidance. Accelerate the formulation of a green manufacturing evaluation system, study and put forward green manufacturing evaluation methods and guidelines, formulate green evaluation indicators and evaluation methods for different industries and sub-fields, and develop and apply evaluation tools. Launch green product, green factory, green park, and green supply chain evaluation pilot to guide green production and promote green consumption. Encourage innovative green manufacturing evaluation and service models, and provide a package of services such as consulting, testing, evaluation, certification, auditing and training for key industries, and provide green manufacturing solutions. Strengthen the application of green evaluation results, establish the implementation of energy efficiency, water efficiency and environmental protection leader system, and gradually establish a convergence mechanism between evaluation results and green consumption.

Strengthen innovation services. Encourage enterprises to build research and development centers, laboratories, pilot bases and other scientific and technological innovation carriers with universities, scientific research institutions, and service agencies, and promote the construction of green innovation demonstration enterprises and enterprise green technology centers in several countries. Establish innovation platforms such as the Industrial Green Innovation Alliance, and carry out collaborative innovation in production, education and research. Strengthen the green manufacturing key core technology intellectual property reserves, build an industrial-oriented patent portfolio and strategic layout, build a green manufacturing technology patent pool, and promote the sharing of intellectual property resources. To improve the ability to identify green manufacturing projects, identify technologies, promote results, and exchange information, establish interoperability mechanisms between enterprises, intermediaries, and financial institutions, and use market mechanisms and information technology to provide knowledge training, problem diagnosis, and technical solutions. Financing support, effectiveness evaluation integration services.

Four safeguards

(I) Give full play to the main role of the enterprise

Adhere to the company's main position in the action plan, firmly establish the concept of green development, innovative management model, create a good environment for development, and stimulate enterprise vitality and execution. Strengthen the effective combination of industry association guidance and corporate main role, give play to the role of national policy guidance, mobilize the enthusiasm of market entities, attract more enterprises and social capital to participate in action plans, accelerate industrial green technology promotion and project transformation, and form a batch of ownership The independent chemical fiber enterprises with strong core competitiveness and strong competitive advantages effectively integrate innovation resources, guide innovation resources to gather in advantageous enterprises, and establish a chemical fiber industrial green fiber manufacturing system with companies as the mainstay, and market-oriented, production, research and application.

(B) Build a green development support platform

First, relying on the "China Chemical Fiber Association? Heng Yi Fund" and "China Chemical Fiber Association? Green Yu Fund" to support chemical fiber companies to strengthen basic research and green manufacturing; the use of China's fiber popularization trend promotion platform, increase the company's green development concept of propaganda; Continuously improve the scientific level of green fiber certification, improve the technical content and quality of certified products, carry out low-carbon transformation of their stocks, implement incremental green and low-carbon construction, and guide more companies to participate in green development initiatives. Come and establish a good corporate image. The second is to strengthen the construction of association standards, promote the formulation and improvement of green fiber and application community standards, and accelerate the construction of related standards. The third is to use the advantages of the Association’s platform for production, research, and research to tap new green technologies, new technologies, and new equipment, speed up the process of industrialization, and promote the review and acceptance of green industrialization projects. The fourth is to guide industrial funds and risk funds for early connection, promote the construction of an industrial park with a recycling-type complete industrial chain of chemical fiber, and promote the connection of upstream and downstream industrial chains. For technological transformation projects with significant energy-saving effects, we must guide the use of energy contract management to pay for the full cost of energy-saving projects with reduced energy costs

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