The analysis of global flexible packaging.

 

The global flexible packaging market is largely driven by the growth in its end-use industries. The penchant for consumption of packaged products such as packaged food & beverage, personal care products, and pharmaceuticals is resulting in its growth. Consumers' push for convenient packaging would result in the growth of the PP/PE pouches, polythene and polypropylene sachets, PE and PP bags, and other types of flexible packaging manufactured by PP/PE pouches, sachets and PE,PP bags manufacturers and other factories. These novel pack types with varying sizes and innovative closures are expected to gain momentum in the near future. This market consists of various stake holders, such as packaging manufacturers, traders, distributors, and raw material suppliers of food, beverage, personal care products, pharmaceuticals, and flexible packaging products.  The global flexible market has made little strides in terms of value and regaining the volume lost during the economic slowdown. However, the market has grown considerably in the last few years and is expected to grow at a faster pace in the near future. Factors such as growing consumer preferences towards consuming convenient packaged food & beverages, personal care products, and pharmaceutical is helping this global packaging industry to grow. Increasing innovations in the packaging industry help to drive down the cost and new package types act as an important driver for the flexible packaging market. The important materials used in flexible packaging market are polyethylene, polypropylene, BOPET, EVOH, polyamide, paper, aluminum, cellulosic, and PVC.  This raw material is converted into films that are further converted into pouch, sachet, and bags in which the products are packaged. Demand in North America's converted flexible packaging market has been underpinned by recovering economies and flexible packaging formats being used as alternatives to traditional rigid packaging. Asia-Pacific has the highest market share and is estimated to grow with a CAGR of 7.1% during the period under review. Europe is growing with a CAGR of 3.9%, and is driven mainly by the East European markets. ROW is also expected to experience growth in flexible packaging market in the future. The CAGR for ROW is 6.0% from 2013 to 2018. The four most potential nations for flexible packaging market are India, China, Russia, and Brazil which are poised to exhibit the fastest growing trend. Many people play up the recyclability aspect of sustainability as it relates to packaging at the exclusion of the front end of a package’s life cycle. The carbon footprint of various packaging types has to consider many factors. For example, pouches offer tremendous energy savings both in their production and transport. Comparing rigid containers versus pouches, you can ship one truckload of flat pouches that have the equivalent product-holding capacity of upwards of 15 to 25 truckloads of empty rigid containers. Packagers can also save hundreds of thousands of dollars in packaging material costs and secondary packaging operations systems due to simplifications of packaging systems, such as the elimination of labeling, capping, etc. In the flexible packaging market, pharmaceutical packaging is the fastest growing market with a CAGR of 7.1% during the forecast period. Due to the increased awareness for public health, increasing product processing units, convenience packaging, and rising consumption of generic drugs, the pharmaceutical packaging industry is exhibiting strong gains. Following it, the food packaging is estimated to be the second fastest growing market in 2013, due to the rise in consumption of packaged food. Growing health concerns and knowledge about the nutrition value is driving the market for packed products to preserve the end-products. The global flexible packaging market is largely driven by the growth in its end-use industries. The penchant for consumption of packaged products such as packaged food & beverage, personal care products, and pharmaceuticals is resulting in its growth. Consumers' push for convenient packaging would result in the growth of the PP/PE pouches, polythene and polypropylene sachets, PE and PP bags, and other types of flexible packaging manufactured by PP/PE pouches, sachets and PE, PP bag manufacturers and other factories. These novel pack types with varying sizes and innovative closures are expected to gain momentum in the near future. This market consists of various stake holders, such as packaging manufacturers, traders, distributors, and raw material suppliers of food, beverage, personal care products, pharmaceuticals, and flexible packaging products.  The global flexible market has made little strides in terms of value and regaining the volume lost during the economic slowdown. However, the market has grown considerably in the last few years and is expected to grow at a faster pace in the near future. Factors such as growing consumer preferences towards consuming convenient packaged food & beverages, personal care products, and pharmaceutical is helping this global packaging industry to grow. Increasing innovations in the packaging industry help to drive down the cost and new package types act as an important driver for the flexible packaging market. The important materials used in flexible packaging market are polyethylene, polypropylene, BOPET, EVOH, polyamide, paper, aluminum, cellulosic, and PVC.  This raw material is converted into films that are further converted into pouch, sachet, and bags in which the products are packaged. Demand in North America's converted flexible packaging market has been underpinned by recovering economies and flexible packaging formats being used as alternatives to traditional rigid packaging. Asia-Pacific has the highest market share and is estimated to grow with a CAGR of 7.1% during the period under review. Europe is growing with a CAGR of 3.9%, and is driven mainly by the East European markets. ROW is also expected to experience growth in flexible packaging market in the future. The CAGR for ROW is 6.0% from 2013 to 2018. The four most potential nations for flexible packaging market are India, China, Russia, and Brazil which are poised to exhibit the fastest growing trend. Many people play up the recyclability aspect of sustainability as it relates to packaging at the exclusion of the front end of a package’s life cycle. The carbon footprint of various packaging types has to consider many factors. For example, pouches offer tremendous energy savings both in their production and transport. Comparing rigid containers versus pouches, you can ship one truckload of flat pouches that have the equivalent product-holding capacity of upwards of 15 to 25 truckloads of empty rigid containers. Packagers can also save hundreds of thousands of dollars in packaging material costs and secondary packaging operations systems due to simplifications of packaging systems, such as the elimination of labeling, capping, etc. In the flexible packaging market, pharmaceutical packaging is the fastest growing market with a CAGR of 7.1% during the forecast period. Due to the increased awareness for public health, increasing product processing units, convenience packaging, and rising consumption of generic drugs, the pharmaceutical packaging industry is exhibiting strong gains. Following it, the food packaging is estimated to be the second fastest growing market in 2013, due to the rise in consumption of packaged food. Growing health concerns and knowledge about the nutrition value is driving the market for packed products to preserve the end-products.

 

Mineral Processing Technology in the garbage treatment.

 

Mineral processing technology is used for recycling the useful material from garbage, usually by hand-selection, machinery and automation sorting, to recyce the inorganic substances. If by hand-selection,  the raw material is pre-separated and classified according to its physical characteristics by human senses, then useful material can be picked out, this way is more economical, simple approach, but needs larger quantity of labors. Such as separation scrap by magnetic; Sorting various glass by using optical filter systems and photoelectric; Selecting the soft and hard materials by bouncing vibration; Choosing the different densities of substances by gravity separation methods. For example,The used PP woven bags are usually sorted automaticly, after the process of pure crushed, cleaned in order to achieve regeneration of PP bags, as for the used cable,should be used employ crushing and gravity separation techniques in order to seprate the rubber, plastic and metal wire.  Eastern European countries always attach great importance to the glass recycling, recycled glass in Poland accounted for 30% to 35% of glass containers, the Czech Republic, Hungary was 30%. In Finland, people sorted out the slag, straw, rags, cardboard and other things, mashed mixed, high temperature and pressure into a very sturdy garbage wall. And recycled useful metals from scrap and waste batteries. Renewable waste glass could be recycled and used for new production of glass, waste metal could be divided and recycled, smelted for reuse. Waste paper could be recycled and made into new paper. Metal, plastic, polymer are processed, recovery in the manufacturing sector. Waste plastics pollution of the environment has been a serious problem. The production and use of recycled waste plastics compared to the use of new materials in USA, energy was saved 85% -90 %, and gained considerable heat, such as melting 45kg of high-density PVC obtain 2000 units (inch) of heat. Germany not only recycled a variety of waste plastics by the development recycling technology of "Recycling Origin Fluid", but also hydrogenated the molecular structure of the garbage plastic at high temperature and pressure, to restore the plastic into crude oil.  On the other hand, firstly, the demolition of ships, locomotives, trucks, machine, secondly, the processing industry in the car, grinding, planing, cutting debris generated, thirdly, the recycling scrap metal recycled by recycle bin of society, according to their physical properties, precisely hand-selected classification in time, packed and registration, storage, then deliveried to metal smelters. This is a direct smelting of scrap metal from the elemental metal and an important guarantee for all types of alloys, can greatly shorten the regeneration cycle of certain metals .

Mineral processing technology is used for recycling the useful material from garbage, usually by hand-selection, machinery and automation sorting, to recyce the inorganic substances. If by hand-selection,  the raw material is pre-separated and classified according to its physical characteristics by human senses, then useful material can be picked out, this way is more economical, simple approach, but needs larger quantity of labors. Such as separation scrap by magnetic; Sorting various glass by using optical filter systems and photoelectric; Selecting the soft and hard materials by bouncing vibration; Choosing the different densities of substances by gravity separation methods. For example,The used PP woven bags are usually sorted automaticly, after the process of pure crushed, cleaned in order to achieve regeneration of PP bags, as for the used cable,should be used employ crushing and gravity separation techniques in order to seprate the rubber, plastic and metal wire. 

Eastern European countries always attach great importance to the glass recycling, recycled glass in Poland accounted for 30% to 35% of glass containers, the Czech Republic, Hungary was 30%. In Finland, people sorted out the slag, straw, rags, cardboard and other things, mashed mixed, high temperature and pressure into a very sturdy garbage wall. And recycled useful metals from scrap and waste batteries. Renewable waste glass could be recycled and used for new production of glass, waste metal could be divided and recycled, smelted for reuse. Waste paper could be recycled and made into new paper.

Metal, plastic, polymer are processed, recovery in the manufacturing sector. Waste plastics pollution of the environment has been a serious problem. The production and use of recycled waste plastics compared to the use of new materials in USA, energy was saved 85% -90%, and gained considerable heat, such as melting 45kg of high-density PVC obtain 2000 units (inch) of heat. Germany not only recycled a variety of waste plastics by the development recycling technology of "Recycling Origin Fluid", but also hydrogenated the molecular structure of the garbage plastic at high temperature and pressure, to restore the plastic into crude oil. 

On the other hand, firstly, the demolition of ships, locomotives, trucks, machine, secondly, the processing industry in the car, grinding, planing, cutting debris generated, thirdly, the recycling scrap metal recycled by recycle bin of society, according to their physical properties, precisely hand-selected classification in time, packed and registration, storage, then deliveried to metal smelters. This is a direct smelting of scrap metal from the elemental metal and an important guarantee for all types of alloys, can greatly shorten the regeneration cycle of certain metals.

 

Plastic shopping bags recoveries exceeded 90% in Canada.

 

Plastic shopping bags recoveries exceeded 90% in Canada. Canadian Plastics Industry Association (CPIA) latest survey report shows that this country's plastic shopping bag recycling rate has exceeded 90 percent, rising to 93%. This data shows that Canada has made significant progress in plastic recycling. CPIA noted that the Canadian government pays more attention to the development of the recycling industry in recent years. Except for the construction of some infrastructure, the organization also planned a lot of waste recycling project. This is to provide a great convenience for regeneration for businesses and individuals contribute to the cause. It is reported that Canadian residents in the classification of plastic shopping bags, which can be sent directly to the local municipal waste collection point or community retail stores. Then by specialized staff will be shipped waste recycling plant which secondary production. In addition, Canada CM consulting firm in its report titled "plastic shopping bags and other recycled PE film," said, at present over 60% of the country's residents through municipal recycling programs dedicated trial operation point to other plastic bags and plastic soft packaging for recycling. Statistics Canada 's existing test this camp point 550. CPIA said currently there are total of 1,200 Canadian retail stores providing recycled plastic shopping bags. Among them, mainly in large chain grocery stores and supermarkets. Plastic shopping bags recoveries exceeded 90% in Canada. Canadian Plastics Industry Association (CPIA) latest survey report shows that this country's plastic shopping bag recycling rate has exceeded 90 percent, rising to 93%. This data shows that Canada has made significant progress in plastic recycling. CPIA noted that the Canadian government pays more attention to the development of the recycling industry in recent years. Except for the construction of some infrastructure, the organization also planned a lot of waste recycling project. This is to provide a great convenience for regeneration for businesses and individuals contribute to the cause. It is reported that Canadian residents in the classification of plastic shopping bags, which can be sent directly to the local municipal waste collection point or community retail stores. Then by specialized staff will be shipped waste recycling plant which secondary production. In addition, Canada CM consulting firm in its report titled "plastic shopping bags and other recycled PE film," said, at present over 60% of the country's residents through municipal recycling programs dedicated trial operation point to other plastic bags and plastic soft packaging for recycling. Statistics Canada 's existing test this camp point 550. CPIA said currently there are total of 1,200 Canadian retail stores providing recycled plastic shopping bags. Among them, mainly in large chain grocery stores and supermarkets.

 

Development and analysis of PET plastic packaging industry.

PET recycled plastic can be used to make clothing, motorcycle helmets, fishing line, packing rope. Or simply used on food packaging, PET recycled plastic bottles can regenerate unlimited recycling.

Because plastic packaging materials derived from petroleum, in order to save resources, many countries have developed a plastic packaging recycling technology, as early as 1991, has recycled PET chips used in food packaging. Good barrier PET material makes all kinds of carbonated drinks, fruit juice, milk dairy products, tea drinks, mineral water and other major food and beverage packaging materials. In China, all current PET plastic bottles are all made ​​from refined from petroleum native PET material made ​​up to 3 million tons per year of PET plastic bottle production consumes more than 18 million tons of oil , but also caused a huge environmental pressure. PET plastic bottle recycling regeneration, help conserve resources.

In the scope of Beijing, the total waste PET bottles up to 150,000 tons per year, about 6 billion waste plastic bottles, causing great harm to the environment . As manufacturers of PET chips reproduction technology, regenerative food grade PET chips can be directly used in food packaging, so as to achieve 100% recycling infinite, PET plastic bottle recycling renewable saving the consumption of oil resources.

PET plastic production and development history.

Britain published the first PET patent preparation in 1946, in 1949 the British company ICI to complete the test, but after DuPont purchase the patent, the establishment of a production plant in 1953, the first industrial production in the world. Since the 1980's, PET plastic has been used as a breakthrough, with continued development of a nucleating agent and crystallization accelerator, currently together as PET and PBT thermoplastic polyester, becoming one of the top five engineering plastics.

PET production scale in China lags far behind several major foreign manufacturers. In the 1980's, China has gradually introduced to a few million tons of PET resin synthesis of advanced equipment from abroad , quality and yield have made great progress in it. According to the China Textile Institute of Statistics , in 1997 China produced 1.74 million tons of PET chips resin, wherein the high viscosity of the resin packaging chips production capacity of 224,000 tons, the production of adequate sources of PET plastic resin grade. Since the preparation of a variety of mixed -modified PET plastic device with a device modified mixed with other polymers is universal, compounding extruder and other domestic manufacturers have formed a certain scale, so long as the market once the development, domestic PET plastic production is also increased rapidly.

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