Recently, the Ministry of Industry and Information Technology, Ministry of Finance issued a notice of industrial transformation and upgrading working capital guidelines in 2018, to speed up the manufacture of power and power network construction, promote industrial restructuring and upgrading, the Ministry of Industry and Information Technology, Ministry of Finance jointly organize the 2018 Industrial strong base project implementation plan, green manufacturing system integration, the declaration of the Internet industry innovation and development of intelligent engineering and manufacturing of complex standardization and application of new models.
Xiao Bian learned in the focus direction, green manufacturing system integration clearly stated focus on machinery, textile and other industries; strong industrial base of textile engineering embodiment of a high and new materials are also involved; in addition, an integrated textile enterprises also manufacture standardized intelligence Declared with the application of the new model.
How much is the financial support? According to Xiaobian, each direction is inconsistent. The subsidy standard does not exceed 20%~30% of the total investment of the project as a whole, and the total amount of subsidies for a single project does not exceed 50 million yuan.
Key direction
(1) Industrial strong foundation project implementation plan
Focusing on the key bottlenecks of the “package†breakthrough in the “Top Ten Implementations of the Industrial Strong Foundation Engineering Implementation Guide (2016-2020)â€.
(2) Green manufacturing system integration
Focus on machinery, electronics, chemicals, food, textiles, home appliances, large-scale complete sets of equipment and other industries, around the green design platform construction, green key process breakthroughs, green supply chain system construction three directions, and promote green manufacturing system integration work.
(III) Industrial Internet Innovation Development Engineering and Intelligent Manufacturing Integrated Standardization and New Model Application
1. Industrial Internet Innovation and Development Project.
2. Intelligent manufacturing comprehensive standardization and new mode application.
(4) The first (set) major technical equipment insurance compensation
Focus
â—†2018 Green Manufacturing System Integration Work Declaration Requirements
Focusing on the construction of green design platform, green key process breakthrough, and green supply chain system construction, the green manufacturing system integration work will be promoted.
Project requirements
The preliminary work of the project should be relatively complete and should be completed by the end of December 2020. Focus on the country's major development strategy and give certain support to key areas that are of great significance to the green ecological environment.
financial support
In principle, the application for financial subsidy funds is calculated based on 30% of the total investment amount of the project, and the financial resources for individual projects are not more than 50 million yuan.
2018 Green Manufacturing System Integration Project Guide
(Extracted from textile related content)
First, the construction of green design platform
Through the practice of product design and development, raw material selection, production process verification, packaging optimization, recycling and other aspects, we will build a green design platform for product lifecycle management, and carry out lean green management of energy flow and material flow. The green design upgrade will promote the integration of green design and green technology, and jointly develop a group of green products with distinctive features and significant upgrades compared with traditional products, and create a batch of green design demonstration lines and product verification production facilities. Green design information database, green design evaluation tools and platforms.
1. Encourage the development and improvement of green design products with green, healthy, comfortable and durable performance, improve the green and low carbon properties of raw materials and parts, promote product structure optimization design, product function combination and optimization design, energy saving in production process and Resource savings, improved product reliability and green performance make it easy to maintain and repair, easy to use, and easy to recycle.
2. To encourage full account of downstream production, use, recycling and other aspects of the use of resources and environmental impact, sustainable development and use of harmful low toxicity, non-toxic and harmless green raw materials and additives to promote high performance, lightweight, new materials, environmental health, Break through green material selection, innovative design and application technology.
3. Encourage breakthroughs in key technologies for green design and manufacturing integration, create a green design technology industrialization demonstration line, carry out verification and optimization of green design solutions, and continuously improve the green manufacturing level of products.
4. Encourage product packaging reduction, recyclable design and material substitution, promote packaging reduction, adopt design that is convenient for transportation, handling, and handling, improve packaging material recycling and recycling, and select low energy consumption and low pollution. New green packaging with low emission requirements to reduce the generation of packaging waste.
5. Encourage the development of life-cycle databases and evaluation tools for product green design and improvement, and apply life cycle assessment methods (LCA) to optimize raw material selection, product design and manufacturing solutions, and build product lifecycle management and evaluation systems.
6. Support the establishment of a product green design and evaluation standard system, accelerate the formulation of green design product evaluation standards, and cultivate a number of green design products.
Through the construction of a green design platform, green design resources will be built and shared in the joint body, and a number of green design standards will be introduced to significantly increase the proportion of green products. Facing related industries and fields, sharing green design resources, providing green design services, leading the industry to improve green design capabilities and green products, and improve green lean production capacity and international competitiveness of products.
Second, green key process breakthrough
Leading enterprises in the industry as the lead unit, and the formation of a consortium with upstream and downstream enterprises, manufacturing units, intermediary agencies, research institutes and so on. Intensify innovation, promote and apply, and further focus on high-tech content, high reliability requirements, high value-added features or services to support multi-industry and multi-field green while implementing green transformation and upgrading covering all process and process steps. Key process technologies or core common equipment and materials, carry out innovative breakthroughs, integrated applications and systematic promotion of key technologies and equipments for green manufacturing, implement a number of key projects for green manufacturing key process technology and equipment, and solve key process or process links. The problem of low degree of greening.
1. Green standard:
Encourage breakthroughs and applications of cross-industry cross-cutting green key processes and materials, support green key common process technologies that use resource efficient recycling and reduce waste reduction effects, and encourage the integration and application of advanced and efficient energy-saving environmental protection technology equipment for green process transformation. Formulate a number of key green technology standards and enhance the capacity of major equipment to support themselves. Support the consortium to co-ordinate the implementation of green manufacturing key projects, carry out the whole process, the whole process green transformation, not only solve the problem of low greening of key process or process links, but also achieve systematic and integrated green upgrade.
2. Machinery industry: support the basic process of green casting and forging welding manufacturing, support through moldless casting, clean forging, forging casting, near net forming, green welding, harmless surface treatment, cleaning heat treatment, less cutting fluid Innovation and integration of key technologies and equipment for green manufacturing, such as green processing, non-destructive testing and additive manufacturing, support the industrialization and application of energy-saving equipment such as high-efficiency energy-saving motors, transformers and fans, and support the formation of effective anti-feeding interaction mechanism with new product design and manufacturing. High-end intelligent remanufacturing technology applications and services.
3. Chemical industry: support the resource utilization of by-product salt, heavy and inferior oil, key green production technology of chemical production such as pesticides and dyes, green synthesis and separation technology of chemical raw materials, and encourage green bio-based plasticizer industry its application, the manufacturing process of high-performance curing agent green, green catalyst technology and other key technologies, support paint, rubber and other key industries VOC reduction or alternative technology, chemical industry wastewater treatment technology and resource utilization .
4. Textile industry: Support textile dyeing and finishing green new technology, large-scale printing and dyeing green equipment technology breakthrough, green fabric production technology, etc., and encourage the cooperation of chemical industry, food and other industries in the field of dye additives, plant pigments and other aspects of green technology synergy breakthrough.
5. Large-scale complete sets of equipment: support rail transit, large-scale wind power equipment, large-scale seawater desalination and unconventional water resources utilization, domestic garbage cooperative treatment, industrial solid waste resource utilization, atmospheric treatment, water pollution control, soil remediation, environmental emergency treatment, Green manufacturing technology and industrial application of large-scale complete sets of equipment such as distributed energy systems.
Third, the construction of green supply chain system
The leading enterprises in the industry as the lead unit, and the core suppliers, logistics providers, distributors, end users, recycling enterprises and other formation of a consortium, highlighting the influence and driving of the leading enterprises on the upstream and downstream of the industrial chain, identifying and implementing corporate green Supply chain management strategy, improve management system, clarify departmental responsibilities, and formulate a number of green supply chain standards around key links such as procurement, design, production, sales, logistics, use, recycling, etc., form a typical industry green supply chain management model and implementation path.
1. The consortium jointly establishes and applies a life-cycle resource and environment data collection, analysis and evaluation system, builds a platform for information sharing, transmission and disclosure between upstream and downstream enterprises, realizes green supply chain information management, and realizes energy consumption of upstream and downstream enterprises. Collection, management and monitoring of information such as pollutant discharge, material green control, and comprehensive utilization of resources.
2. Implement green supplier management, incorporate environmental protection, resource and energy efficiency into procurement requirements, focus on building supplier management platform, establish and improve supplier certification, selection, and training (improve upstream supplier management capabilities, and stimulate green supply chain) The results are passed to secondary or even tertiary suppliers), audits, performance management and exit mechanisms.
3. To build a green recycling system, use product recycling electronic labels, Internet of Things and other technical means to establish a verifiable and traceable green recycling system, support the comprehensive utilization of resources, the development and application of major technical equipment, improve the efficiency of comprehensive utilization of resources, and realize the use of waste products. Effective circulation between production enterprises, consumers, recycling companies, and dismantling enterprises.
4. Select the green transformation of the large potential of the product, the product line green transformation, the use of lightweight, long life, easy recovery, easy to transport and other material properties, application modular, integrated, intelligent green products and equipment .
â—†2018 industrial strong base project implementation plan declaration requirements
Project requirements
The implementation plan for industrial strong foundation projects is organized by means of bidding, and the project implementation period is no more than three years.
financial support
In principle, the special subsidy standard for industrial strong foundation projects shall not exceed 20% of the total investment of the project (excluding the expenses of plant, civil works, land, liquidity, construction period interest, etc.), and the total amount of special project fund subsidies shall not exceed 50 million yuan. Projects that have received central financial support through other channels may not apply for this special fund.
The key breakthrough direction of the "package" of industrial strong foundation projects in 2018
(Extracted from textile related content)
Special Polyimide Materials - Solve the key technologies and process bottlenecks of special polyimide materials industrialization, and realize the production and industrialization of special polyimide materials from monomer, resin to polyimide products. Formed a capacity of 1,000 tons / year.
Main content and product (technical) requirements:
1. Synthesis of high purity polyimide dianhydride and diamine monomer monomer purity ≥99.5%, metal ion content ≤2PPm;. 2 and a polyimide resin composite material temperature -267 ℃ ~ 400 ℃, solve large Polyimide sheet (1000×1000×400mm) molding problem; 3. Polyimide foam passed relevant test requirements and installation review, and successfully applied to sea and land related equipment; 4. Polyimide coating passed high salt spray High water vapor, strong corrosion, strong radiation, high heat, low cold, high insulation and other conditions test.
â—†In 2018 Industrial Internet Innovation Development Project and Intelligent Manufacturing Comprehensive Standardization and New Model Application Project Application Requirements
The intelligent manufacturing comprehensive standardization and new model application project will be organized around two types of projects: one is the intelligent manufacturing comprehensive standardization test verification project; the other is the intelligent manufacturing new model application project.
Project requirements
The intelligent manufacturing new model application project shall be jointly declared by a consortium of users, system integrators, software developers, and core intelligent manufacturing equipment suppliers. The declared project must be able to complete the project acceptance before the end of 2020, and the intelligent manufacturing new model application project must be a project under construction.
financial support
Incorporate into the 2018 Industrial Internet Innovation and Development Project, and allocate financial funds for subsidies.
2018 Smart Manufacturing Integrated Standardization and New Model Application Project Guide
(Extracted from textile related content)
I. Comprehensive standardization projects
Based on the results of the basic commonality standards and key technical standards related to intelligent manufacturing, we will focus on the ten key areas, and at the same time properly take into account the transformation and upgrading needs of traditional manufacturing industries, and develop application standards for smart manufacturing industries in key areas, and conduct test verification on standard content. Key directions include:
1. Basic commonalities and key technical standards
(1) Standards for reliability test methods based on digital simulation;
(2) Programmable controller heterogeneous platform file interaction standard;
(3) Intelligent factory digital delivery standards, smart factory manufacturing resource virtual mapping model standards, model-based inspection standards;
(4) Key technical standards for network collaborative design/manufacturing;
(5) Time-sensitive network (TSN) and object-linked and embedded unified architecture (OPC UA) for industrial control.
(6) Machine vision system inspection standards for manufacturing, AR-based assembly and maintenance standards, edge computing system architecture standards for manufacturing, and industrial technology software standards.
2. Industry application standards
(1) Standard for remote operation and maintenance (failure pattern recognition, predictive maintenance) of key technical equipment;
(2) analyzing the product standards based on the large data quality;
(3) Based on the supply chain-based enterprise group collaborative design/manufacturing standards, based on the industry chain synergy intelligent manufacturing management platform standards;
(4) Intelligent factory/digital workshop integration standards for the industry;
(5) Industry-oriented safety requirements for industry-based risk analysis.
Second, the new model application project
Closely focus on the ten key areas, properly take into account the advantages of traditional manufacturing transformation and upgrading, focusing on discrete intelligent manufacturing, process-based intelligent manufacturing, network collaborative manufacturing, large-scale personalized customization, remote operation and maintenance services, etc. Promote applications, increase the promotion and application of major short-board equipment, strengthen the application of artificial intelligence technology and industrial software in key links, build service platforms such as industrial cloud, actively cultivate intelligent manufacturing ecology, improve supply and support capabilities, and meet key areas of intelligence. Transforming the needs, exploring and practicing effective experiences and models, and enriching and maturing, and promoting them in all areas of manufacturing.
Key directions related to textiles:
High-end CNC machine tools and robots: high-end CNC machine tools, CNC systems, key functional components of CNC machine tools, precision tools, industrial robots and controllers, key components of vision systems.
New materials: advanced inorganic non-metallic materials, advanced composite materials, new chemical materials, new fiber materials, functional polymer materials, special alloy materials, energetic materials (civil explosives).
Medicine and other areas of people's livelihood: diagnosis and treatment equipment, pharmaceutical equipment, pharmaceutical production, textile and clothing, light industry, food.
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