30 years, rebuild a biomass "really good"
Thirty years ago, people living in the seventies and eighties of the last century certainly would not be strangers to one thing, that is indeed good. It is very smooth and slippery, durable and easy to wear, not hot, bright colors, do not fade. Indeed good is "decron" (Cantonese) transliteration, a piece of good clothes in that era is a fashionable thing. Polyester is a miracle of the development of chemical fiber industry in the past 30 years. On June 26-27, the forum of "Biomass Fibers and Functional Textiles" hosted by China Chemical Fiber Industry Association, China Textile Engineering Society Chemical Fiber Professional Committee, National Textile and Chemical Fiber Products Development Center and Taixing Municipal People's Government held on June 26 and 27, and China Textile Engineering At the annual meeting of the Chemical Fiber Committee, chemical fiber experts pointed out that the chemical fiber industry should strive to create a miracle in the next 30 years for the development of biomass fiber. The idea still fell on black and white. At this conference, "China Biomass Fiber and Biochemical Materials Technology and Industry Development (30 Years) Roadmap (12th Five-Year Plan)" was officially released. A clear road map of biomass fiber was presented to us. Bio-industry is the national strategic industry biomass fiber put forward to comply with the current development trend. The bio-manufacturing industry will be the strategic area that affects the future. The Organization for Economic Co-operation and Development (OECD) projects that by 2030, 35% of chemicals and other industrial products will come from bio-manufacturing. In 2007, the global sales of bio-manufactured products were 48 billion euros and it is estimated that it will reach 340 billion euros by 2017, of which biomaterials will grow by 38%. The United States, Europe, Canada and other countries and regions have formulated the roadmap for the development of the bioindustry. Industrial biotechnology has become the strategic direction for all countries. The roadmap for biomass development in the United States shows that by the year 2020, the United States aims to reduce the consumption of raw materials, water resources and energy in the chemical industry by 30%, and reduce the emission of pollutants and the spread of pollution by 30%. By 2030 replace 25% of organic chemicals and 20% of petroleum fuel. In the European Industrial Biotechnology 2025 vision, substantial progress is expected based on biotech-based social transformations, where biofuels replace 20% of fossil resources. Chemical 10% to 20% alternative, including chemical raw materials instead of 6% to 12%, fine chemicals to replace 30% to 60%. In this international context, the 12th Five-year Plan for the Development of Bioindustry in China pointed out that by 2015, the output value of the bioindustry nationwide will reach 4 trillion yuan and by 2020 it will reach 8 trillion yuan to 10 trillion yuan. Focus on the development of five areas: biological medicine, biological agriculture, bio-energy, bio-environmental protection, bio-service outsourcing. It is estimated that by the year of 2020, the share of biomedicine in the global pharmaceuticals will exceed one third, the proportion of biomass energy in the world's energy consumption will reach about 5%, and bio-based materials will replace 10% -20% of chemical materials. The "Decision of the State Council on Accelerating the Cultivation and Development of Strategic Emerging Industries" promulgated in 2010 requires that the key cultivation and development of China's strategic emerging industries should be defined based on China's national conditions, science and technology, and industrial base. Development goals require: by 2015, the added value of strategic emerging industries accounted for about 8% of GDP that year, by 2020, the strategic value-added industries accounted for about 15% of GDP that year. Energy conservation and environmental protection, a new generation of information technology, biology, high-end equipment manufacturing industry has become the pillar industry of national economy; new energy, new materials, new energy automotive industry has become the leading industry of national economy. According to Zheng Zhiyi, honorary president of China Chemical Fiber Association, the road map of technology and industry development of biomass fiber and bio-chemical raw materials in China is based on the development of domestic and international bio-manufacturing. Its thinking is to focus on biomass fiber and biochemical raw materials, alternative fossil raw materials, alternative chemical processing routes, and biochemical methods to achieve the development of biochemical differentiation (that is, two alternative to a modification); to strengthen technological innovation and development Biomass fiber and biochemical raw materials industry core technology, to seize the industrial technology commanding point (for simultaneous development and international standards); long-term planning, key breakthroughs, leapfrog development; nurture large-scale enterprises, leading industry cluster and cluster development. The majority of biomass fiber is still in the laboratory In the global oil resources are increasingly tense circumstances, the future of chemical fiber on behalf of the chemical fiber. Subject to raw materials has always been the bottleneck in the development of chemical fiber. In order to break through such a bottleneck, some big and powerful enterprises choose to go upstream and go to exploit oil. However, the oil resources are limited and going upstream does not solve all the problems of chemical fiber development. "If chemical fiber can utilize renewable resources and chemical fiber products can be degraded, chemical fiber can not only solve the problem of declining profits, but also fundamentally break the bottleneck of industrial development." Zhejiang Hua Xin New Materials Co., Ltd. Zhou Quanzhong, general manager said. This roadmap is slightly more conservative than the very good wishes of recreating a biomass. For example, in terms of raw material substitution, the road map hopes to have an industry-average replacement level of 5% by 2020, an industry-average replacement level of 10% by 2030 and an industry-average replacement level of 20% by 2040. In terms of process alternatives, the industry average replacement level was 5% by 2020, the industry average replacement level was 17% by 2030 and 2040 the industry average replacement level was 24%. In terms of biochemical modification, the industry average will reach 5% in 2020, 10% in 2030 and 15% in 2040. Turning to the conservative reasons, Zheng Zhiyi believes that the main factor is that at present, China's biomass fiber research in many laboratories, away from the real industrialization is still some distance. This is also confirmed at the meeting. Fifteen papers were awarded in the paper on biomass fiber and functional textile solicited by China Chemical Fiber Association. Two of the three papers that won the first prize came from universities (one from Qingdao University and one from Tianjin Polytechnic University) and another with the participation of China Textile Academy. In the invited expert's report, several speakers said that his presentation of biomass fiber preparation is still in the laboratory stage, has not yet been industrialized. Zheng Zhiyi said that the great development of biomass fiber requires the active participation of large enterprises. At present, there are a few industrialized biomass fibers, such as chitosan fiber, all of which are greatly accelerated by the scale of industrialization due to the participation of enterprises. The technology has also achieved rapid development by leaps and bounds. "To let enterprises, especially large enterprises, participate in biomass fiber, it will be a more effective way to promote this industry." This is also confirmed by the introduction of Yu Muhuo, professor of Donghua University's State Key Laboratory of Modification of Fiber Materials. According to the description of Yumu Fire, Lyocell fiber is the product researched and developed by Austria Lenzing Corporation. In 2008, the global production capacity reached 130,000 tons and the investment in 2010 was 120 million euros. Due to the influence of solvent cost and other factors, the current annual output is 150,000 tons. Development of biomass fiber industry base "China's new green fiber materials (Huangqiao) Industrial Park Development Plan" was widely discussed. China's chemical fiber industry for the development of biomass fiber put forward requirements, and wrote "chemical fiber industry," second Five-Year "Development Plan. "Chemical fiber industry," second Five-Year "Development Plan" pointed out that to speed up the research and development and industrialization of biomass fiber to further improve the level of cleaner production and comprehensive utilization of resources to establish a chemical fiber recycling economy development mode. By 2015, the recycling scale of waste polyester products, chemical fiber fabrics and garments will reach 7 million tons, the coverage of energy contract management will exceed 2% and the coverage of cleaner production inspection will exceed 30%. The production process of dry-process acrylics and viscose will be strengthened In the emission control, to ensure that the relevant emission requirements, corporate carbon footprint certification research progress. A step further than planning is the establishment of a biomass fiber industrial park. At this meeting, "China's New Green Fiber Materials (Huangqiao) Industrial Park Development Plan (2010 ~ 2015)" was widely discussed, experts for the industrial park positioning and development made a lot of recommendations. According to Gu Pengcheng, director of the Management Committee of Huangqiao Industrial Park in Taixing, Jiangsu Province, Huangqiao is located at the starting point of three urban economic zones in Shanghai, Nanjing and Wuxi. There are 8 professional chemical development zones gathered within a radius of 100km, Chemical Industry Park, Zhangjiagang Chemical Park and so on. In addition, Huangqiao Town also has the largest carbon dioxide gas field in the country with a storage capacity of 100 billion cubic meters and a purity of 99.9%. Carbon dioxide is a very widely used resource that can be used as a raw material for many chemicals. In Huangqiao Industrial Park, China Shipping Thermal Power Plant can achieve 150 tons / hour of steam supply, full coverage of gas pipelines. Chemical fiber industry in the down state, still choose to enter the chemical fiber industry, in addition to having many advantages, Huangqiao Industrial Park to achieve rapid development of confidence comes from its position. It will be positioned as a new industrial park green fiber material. Biomass fiber will be a key investment in the park. Gu Pengcheng think positioning green fiber material to achieve a new differentiated positioning, in line with the future direction of development of chemical fiber industry, especially if the biomass fiber can make a breakthrough, the future of Huangqiao Industrial Park incalculable. When China Chemical Fiber Association proposed high-tech fiber, China's high-tech industry is still in a desert state. However, after hard work and the introduction of national debt projects, China's high-tech industries have already walked out of laboratories and began to gradually realize industrialization. A batch of technologies with independent intellectual property rights began to be mass-produced. In particular, the rate of carbon fiber development was notable. On how to promote an industry from the laboratory to industrialization, China Chemical Fiber Association has a wealth of experience. About the promotion of biomass fiber, Zheng Zhiyi said that they will also learn from the high-tech fiber promotion model and consider setting up a "national team." "The early development of an industry and the support of national policy funds are essential. Similarly, a clear roadmap for industrial development will play an important guiding role in its development," said Zheng Zhiyi. Is it possible to rebuild a biomass "really good" in 30 years? Although the formulation of this roadmap is relatively conservative, the participating experts all believe that even if biomass fiber can not be as popular as the current one, it will absolutely become the growth point for the future profit of the chemical fiber industry.
Natural T/C Liner Knitted Working Glove with PVC Dots
String Knitted Working Gloves
|
Name |
PVC dotted gloves |
Weight |
40--95g/pair |
|
Material |
cotton+polyester+PVC |
Cuff |
Any Color |
|
Length |
21-24cm |
Brand |
HMD Gloves |
|
Knitting |
10 /7 gauge |
Cotton Color |
bleached White or Natural White or others |
|
Description |
cotton knitted glove, White color,10gauge, PVC dots |
||
|
Packing |
12 Pairs/Dozen, 25 Dozen/CTN; 60 Dozen/ polywoven,4 polywoven bag or 1polywoven bag in compressed bag, compressed bag can save more space. |
||
|
Load Capacity |
About 31,000Dozen for a 40'HQ. Compressed packing can load more products |
||
|
Application |
Safety Work, Industrial work, Household work, Farm work |
||
|
MOQ |
2000 dozens |
||
|
Delivery Time |
15 days |
||
|
Advantages |
A.Supply excellent grip in dry conditions for safe and secure handing comfort. |
||
Working Gloves with Dots,Cotton Knitted Gloves,Rubber Working Gloves,Rubber Dots Cotton Knitted Gloves
Shijiazhuang Hongmeida Co., Ltd. , https://www.hmd-gloves.com