Coveris and berry gardens launch recycle...
The first-to-market, food safe PCR film is now available nationwide across all major multiple Berry Gardens lines inc
The first-to-market, food safe PCR film is now available nationwide across all major multiple Berry Gardens lines inc
The team was one of seven entered by the Australian Institute of Packaging (AIP) into the awards for the first time.
Baby food brand Piccolo has launched what it claims is the UK’s first 100 per cent recyclable baby food pouch suitabl
While 2.2 billion people still do not have access to safe drinking water t
During shipping, insulation and refrigerants are key to preserving products like seafood, plants, meat, and fruits as well as dairy, medical, and chemical products. With the proper combination of insulation and refrigerants, you can maintain products within specific temperature ranges. You can keep products frozen, or prevent products from freezing. You can prevent melting and thawing in hot weather and minimize the effects of short-term temperature variations. We’ll show you how.
Insulation
We recommend insulation to reduce the transfer of heat through packaging container walls. The most common insulation materials are expanded polystyrene (EPS) foam, rigid polyurethane foam, and reflective materials (radiant barrier films).
Refrigerants
We recommend refrigerants such as gel coolants and dry ice to keep perishable products cold or frozen. However, do not uses dry ice as a refrigerant for live seafood such as lobsters; use gel coolants instead. Wet ice has many disadvantages, including weight and special water-resistant packaging requirements, but it may be used if properly prepared to prevent leakage.
• Package shipments to withstand handling in different orientations.
• Use a refrigerant that will keep products within the required temperature range. Use gel coolants for refrigerating products between 32ºF (0ºC) and 60ºF (16ºC). Use dry ice for frozen items.
• Use insulated foam containers with a minimum of 1-1/2"-thick walls.
• Bag perishable products that can melt or thaw, or shipments that contain liquid, using minimum 2-mil watertight plastic bags.
• Place foam containers inside sturdy outer containers.
• Include the address and 24-hour phone number of both the shipper and the recipient on each shipping label.
• Gel coolants are preferable to wet ice.
• Freeze the coolants according to the manufacturer’s guidelines.
• Precool the insulated container, if possible.
• If your shipment contains liquid or perishable products that could contain liquids, double-bag the products using minimum 2-mil watertight plastic bags and line the inside of the foam container with a minimum 2-mil plastic liner and absorbent material.
• Arrange products inside the insulated container, allowing space for coolants.
• Place a sufficient number of coolants on top of and around the product.
• Fill all void space with dunnage such as loose-fill peanuts to prevent product movement.
• Close the liner bag securely.
• Place the insulated container inside a corrugated outer box.
• Close and securely seal the corrugated box with pressure-sensitive plastic tape. Apply the tape overall box flaps and seams.
• Freeze products before packaging.
• Precool the insulated container, if possible.
• If the shipment contains liquid or perishable products that can melt or thaw, bag the products or line the insulated container using a minimum 2-mil watertight plastic bag.
• When arranging products inside the insulated container, allow enough space for dry ice.
• Place a sufficient amount of dry ice in the insulated container on top of and around the products.
• Fill void spaces with dunnage material such as loose-fill peanuts.
• Close the liner bag (if used) but do not completely seal it, as the carbon dioxide gas created by the dry ice must be allowed to vent.
• Place the lid on the insulated container.
• Place the insulated container inside an outer corrugated box.
• Close and securely tape the box with pressure-sensitive plastic tape. Apply tape to all flaps and seams. • Complete the required paperwork, dangerous goods labeling, and markings.
Maggi has broken new ground by becoming the first major brand to use recyclable paper packaging to wrap individual bo
Flexible packaging companies are discovering new ways to develop products with less impact on the environment and adh
Today, consumers expect more fr
Procter & Gamble Company (NYSE:PG) shares its latest advancements toward packaging circularity in Europe which d
Twist and shout with joy. A new era in lids has arrived.
Since the release of the Galaxy S7
The packaging is partially made of potato starches, a byproduct of producing French fries.
Seaweed-based packaging as a replacement for plastic will ease the waste management process because it is biodegradable and it will ensure that the packaging waste can return to the earth naturally. The reduction of plastic usage is going to reduce gas emissions too since production of plastic uses toxins and chemical materials which release carbon dioxide into the air and heavily contributes to air pollution. No more plastic waste also means no more plastic ends up in the ocean and it will help maintain seashore cleanliness. This innovation will help reduce plastic contamination to the water, the land and to the air. Seaweed packaging is not only biodegradable and edible; it can be made to dissolve when water hits it, which is excellent for packaging tea or cereals.
The seaweed packaging as a replacement for plastic packages is going to impact the cleanliness of the sea because no more plastic waste will end up in the ocean and it will protect life below water since no more fish, plankton or any marine living creatures will eat the micro plastic. Also, it will significantly reduce the garbage in landfills and will improve air quality because every kilogram of plastic production creates 6 kilogram of carbon dioxide which contributes heavily to air pollution.
The benefits of seaweed packaging, according to Greenbiz, extend beyond keeping plastic out of the ocean. They report it takes a hectare of ocean to create 40 tons of dry seaweed. During processing, that same volume can absorb 20.7 tons of CO2 emissions.
The only drawbacks at the moment seem to be the price; because seaweed packaging currently requires manual processing, it is more expensive than plastic. The second difficulty is figuring out how to scale production.
Seaweed has been in our kitchen for decades. But it seems that the plant also has applications beyond sushi or other recipes. While seaweed packaging has some kinks to work out, it seems clear that it holds the potential to help eliminate some of the plastic clogging our planet.
Seaweed aquaculture is the process of farming for seaweed. According to the Aquaculture Alliance, the growth of this industry is good for the economy and the ocean. Currently, large-scale seaweed aquaculture only occurs in Asian countries such as China, Japan and Korea, due to the continent’s high demand for seaweed food products. Seaweed grows within 45 days, can be harvested straight away, and does not require any fertiliser – making it more readily accessible than corn or sugar cane, which requires agricultural land in order to grow. To make seaweed packaging, the raw material is collected and fermented without any chemical processing. The yeast residue can then be converted into animal feed.
Hoffmann Neopac, a global provider of high-quality packaging for a broad array of industries and applications, has in
Natural, bright, even...
Plastic is the world’s most adaptable material. From bikes to food wraps and from jets to pencils,you can make anything and everything from plastics. With the infinite number of uses, plastic also have some devastating impacts on our planet. Most plastics produced today are made using petroleum-based compounds that release harmful gases into the atmosphere. Waste solutions are inefficient, and harmful by-products toxic our land, water and wildlife. Yet, consider the possibility that there was a way to deal with deliver the greater part of what we utilize causes a negative greenhouse impact, is sustainable and biodegradable and has just about an indistinguishable cost to our present techniques. Meet Hemp plastic, an only plastic that’s 100% biodegradable in nature if produce by using only Hemp plant. Hemp plant consumes 4 times more carbon dioxide then other plants from atmosphere. The fiber we can produce from hemp is stronger than the conventional fiber we are using these days. This paper is intended to show numerous benefits of using hemp for the manufacturing of biodegradable plastic (HEMP PLASTIC) rather than conventional plastics.Plastic is the world’s most adaptable material. From bikes to food wraps and from jets to pencils,you can make anything and everything from plastics. With the infinite number of uses, plastic also have some devastating impacts on our planet. Most plastics produced today are made using petroleum-based compounds that release harmful gases into the atmosphere. Waste solutions are inefficient, and harmful by-products toxic our land, water and wildlife. Yet, consider the possibility that there was a way to deal with deliver the greater part of what we utilize causes a negative greenhouse impact, is sustainable and biodegradable and has just about an indistinguishable cost to our present techniques. Meet Hemp plastic, an only plastic that’s 100% biodegradable in nature if produce by using only Hemp plant. Hemp plant consumes 4 times more carbon dioxide then other plants from atmosphere. The fiber we can produce from hemp is stronger than the conventional fiber we are using these days. This paper is intended to show numerous benefits of using hemp for the manufacturing of biodegradable plastic (HEMP PLASTIC) rather than conventional plastics.
Comparison of Hemp with Conventional plastics
1. Composition
The ENE compounds, Toluene, benzene, things like that, which are the most poisonous derivatives of plastics that are produced from hydrocarbons aren’t found in Hemp.
2. Manufacturing
Most of the conventional plastic today is manufactured using petroleum based compounds and petroleum consumption is considered harmful to the environment, given the measure of waste created amid the refinement procedure and the destructive techniques used to separate oil from the earth. And simultaneously we are losing one of most important natural resource i.e. Petroleum in the manufacturing of plastics. On the other hand, hemp plastic is solely produced using the cellulose extracted from hemp plant and therefore causes no toxicity during its production.
3. Biodegradable and Recyclable
Hemp plastic is 100% biodegradable and recyclable when it is made using completely a Hemp plant. We traditionally think of recycling as the conversion of waste into usable material, although if we use more hemp plastic, we could introduce a new cycle that would be much more environmentally friendly. Plants are harvested and broken down into vital components for production and a product is produced. After its utilization, it is put into a landfill where nature will run its course and separate it into required supplements basic for the plant's development and the cycle is finished.
4. Environment friendly
Hemp absorbs four times the amount of carbon dioxide as trees do amid its snappy 12-14 week develop cycle. Delivering hemp plastic likewise requires 22-45% less energy than non-renewable energy source based items. We can have fields, acres and acres, hectares of hemp farms that are pulling carbon dioxide out of the atmosphere (as plants do). Then, that carbon from the carbon dioxide in the atmosphere gets used to make the plastics, and the plastics, when they are going into a landfill and they are no longer usable, will biodegrade bringing carbon back into the soil. So, it’s essentially carbon negative, pulling carbon out of the atmosphere and putting it back into the soil.
5. Applications
The strength of hemp plastic makes it appealing in several industries. The automotive, building, and packaging industries are all being turned on to hemp plastic. It is also lightweight and has a very high ratio of density to weight. This allows it to potentially be used in aerospace to save weight on heavy structures. Due its versatility, hemp can be used anywhere for any purpose replacing conventional plastics.
6. Production cost
Plastics produced using petroleum compounds are quite cheap and easy to manufacture and on the other hand, the processes involve in the production of biodegradable plastic or specifically hemp plastics are quite expensive and use more effort than the production of conventional plastics.
7. Toughness and Flexibility
Hemp Plastics can be five times stiffer and 2.5 times stronger than polypropylene, and it will not cause wear and tear to the screw and the mold like glass fibers do, and unlike glass fibers, it does not pose safety and health risks. Its flexibility is one of the greatest factors for its superiority over conventional plastics.