Packaging waste
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Packaging waste, the part of the
Background
According to the
The recycling rate in 2015 for containers and packaging was 53 percent. Furthermore, the process of burning of containers and packaging was 7.2 million tons (21.4 percent of total combustion with energy recovery). Following the landfills that received 29.4 million tons (21.4 percent of total land filling) within the same year.[5]
As packaging waste
Possible solutions to reducing packaging waste are very simple and easy and could start with
Overpackaging
The Institute of Packaging Professionals defines overpackaging as "a condition where the methods and materials used to package an item exceed the requirements for adequate containment, protection, transport, and sale."[9] Overpackaging is an opportunity for source reduction, reducing waste by proper package design and practice.
A classic example of a wasteful package design is a breakfast cereal box. This is typically a
Slackfill packaging is that which is intentionally under-filled, resulting in non-functional headspace. Packagers doing this not only risk charges of deceptive packaging but are using excessive packaging: packaging waste.[11]
With fragile items such as consumer electronics, engineers try to match the fragility of the product with the expected stresses of distribution handling. Package cushioning is used to help ensure safe delivery of the product. With overpackaging, excessive cushion and a larger corrugated box are used: wasteful packaging. Conversely, underpackaging would be the use of insufficient cushioning. Excessive product waste caused by underpackaging may be worse for the environment than the waste of the package.
Sometimes packaging is designed to protect its product for controlled distribution to a retail store. With online shopping or E-commerce, however, items packed for retail sale may be shipped individually by Fulfillment houses by package delivery or small parcel carriers. Retail packages are frequently packed into a larger corrugated box for shipment. Often these secondary boxes are much larger than needed, thus use void-fill to immobilize the contents. This can have the appearance of gross overpackaging but is sometimes necessary. If the product packager designed all packaging to meet the requirements of individual shipment, then the portion delivered to a retail store would have excessive packaging. Sometimes two levels of packaging are needed for separate distribution, resulting in production inefficiencies.[12]
Types of packaging wastes
Glass containers
Bottles and jars for drinks and storing foods or juices are examples of glass containers. It has been estimated by the EPA that 9.1 million tons of glass containers were generated in 2015, or 3.5 percent of municipal solid waste (MSW).[5] About 70 percent of glass consumption is used for containers and packaging purposes.[13] At least 13.2 percent of the production of glass and containers are burned with energy recovery.[5] The amount of glass containers and packaging going into the land fill is about 53 percent.[5]
Aluminum containers and packaging
Aluminum container and packaging waste usually comes from cans from any kind of beverages, but foil can also be another that contributes it as well. It has been given that about 25 percent of aluminum is used for packaging purposes.[13] Using the Aluminum Association Data, it has been calculated that at least 1.8 million tons of aluminum packaging were generated in 2015 or 0.8 percent MSW produced.[5] Of those that are produced, only about 670,000 tons of aluminum containers and packaging were recycled, about 54.9 percent.[5] And, the ones that ends up in the land fill is 50.6 percent.[5]
Steel containers and packaging
The production of steel containers and packaging mostly comes in cans and other things like steel barrels. Only about 5 percent of steel use for packaging purposes of the total world of steel consumption which makes it the least amount wasted and the most recycled.[13] It has totaled that 2.2 million tons or 0.9 percent of MSW generated in 2015.[13] While according to the Steel Recycling Institute, an estimate of 1.6 million tons (73 percent) of steel packaging were recycled.[13] Adding on, the steel packaging that were combusted with energy recover was about 5.4 percent and 21.6 percent were land filled.[5]
Paper and paperboard containers and packaging
The most of it being generated, and within the MSW in 2015, was
Later on, they are then combusted which makes 0.5 million tons and landfills received 1.9 million tons.[5] Other than corrugated boxes, cartons, bags, sacks, wrapping papers, and other boxes used for shoes or cosmetics are other examples of paper and paperboard containers and packaging. The total amount of MSW generated for paper and paperboard containers and packaging was 39.9 million tons or 15.1 percent in 2015. Although, the recycled rate is about 78.2 percent and 4.3 percent of small proportions were combusted with energy recovery and 17.6 percent in landfill.
Wood packaging
Wood packaging is anything that is made out of wood used for packaging purposes (e.g., wood crates, wood chips, boards, and planks). Wood packaging is still highly used in today's world for transporting goods. According to EPA's data that were borrowed from the Virginia Polytechnic Institute and the United States Department of Agriculture's Forest Service Southern Research Station, 9.8 million tons (3.7 percent of total MSW) of wood packaging were made in production in 2015.[5] Also, in 2015, the amount that was recycled 2.7 million tons.[5] Moreover, its estimated that 14.3 percent of the wood containers and packaging waste generated was combusted with energy recovery, while the 58.6 percent went to the land filled.
Plastic containers and packaging
Role of packaging waste in pollution
Litter
Litter mostly consists of packaging waste. Besides the disfigurement of the landscape, it also poses a health hazard for various life forms.[13] Packaging materials such as glass and plastic bottles are the main constituents of litter.[13] It has a huge impact on the marine environment as well, when animals are caught in or accidentally consume plastic packaging.
Air pollution
The production of packaging material is the main source of the air pollution that is being spread globally. Some emissions comes from accidental fires or activities that includes incineration of packaging waste that releases vinyl chloride, CFC, and hexane.[13] For a more direct course, emissions can originate in land fill sites which could release CO2 and methane.[13] Most CO2 comes from steel and glass packaging manufacturing.[13]
Water pollution
Packaging waste can come from land based or marine sources. The current location that makes up the large of amount of water pollution is the Great Pacific Garbage Patch located at West Coast of North America to Japan.[4][6] Marine sources such as rivers that caught packaging materials eventually lead to the oceans. In global standards, about 80 percent of packaging waste in ocean comes from land based sources and 20 percent comes from marine sources.[4] The 20 percent of packaging waste that comes from marine sources comes from the rivers of China starting from least to greatest contributors, the Hanjiang, Zhujiang, Dong, Huangpu, Xi, and Yangtze river.[4] All other marine sources comes from rivers of Africa and Southeast Asia.[4]
Impacts on marine species and wildlife species
Most marine species and wildlife species suffer from the following:
- Entanglement: At least 344 species are entangled by packaging waste, specifically the ones that are plastics.[4] Most of the victims are marine species like whales, seabirds, turtles, and fish.[4][6]
- Ingestion: 233 marine species are recorded that had consumed plastic packaging waste of either unintentionally, intentionally, or indirectly.[4] Again, the following victims would be whales, fish, mammals, seabirds, and turtles.[4][6] The effects of eating plastic packaging waste could lead to greatly reduced stomach capacity, leading to poor appetite and false sense of satiation.[4] Whats worse is that the size of the ingested material is ultimately limited by the size of the organism.[4] For example, microplastics consumed by planktons and fishes can consume cigarettes boxes.[4][6] Plastic can also obstruct or perforate the gut, cause ulcerative lesions, or gastric rupture.[4][6] This can ultimately lead to death.
- Interaction: Animals contacting with packaging waste includes collisions, obstructions, abrasions or use as substrate.[4]
Impacts on human health
Actions to reduce packaging wastes
Waste management system improvements
- Segregation of waste at sources: plastics, organic, metals, paper, etc.[8]
- Effective collection of the segregated waste, transport and safe storage[8]
- Cost-effective recycling of materials (including plastics)[8]
- Less land filling and dumping in the environment[8]
Promotion of eco-friendly alternatives
Governments working with industries could support the development and promotion of sustainable alternatives in order to phase out single-use plastics progressively.[8] If governments were to introduce economic incentives, supporting projects which upscale or recycle single-use items and stimulating the creation of micro-enterprises, they could contribute to the uptake of eco-friendly alternatives to single-use plastics.[8]
Social awareness and education
Social awareness and education is also one of the ways to help contribute to issues similar to helping reducing packaging waste. Using the media gives quick access for the individuals or groups to spread information and awareness in regarding to letting the public know what is going on in the world and ways that others can contribute to assist in fixing problems of packaging wastes. Schools are also good for spreading the education with factual knowledge, possible outcomes for the increase of packaging waste, and provide ways to get individuals to give a helping hand in keeping our planet clean. Public awareness strategies can include a wide range of activities designed to persuade and educate.[8] These strategies may focus not only on the reuse and recycling of resources, but also on encouraging responsible use and minimization of waste generation and litter.[8]
Voluntarily actions to reduce packaging waste
- Reuse bags
- Bring reusable bags to supermarkets[8]
- Repair broken objects instead of throwing them away[8]
- Exchange packaging materials on BoxGiver
- Recycle
- Clean up in coastal areas
- Do community services to clean up parks and streets from packaging waste
See also
- Plastic waste– Accumulation of plastic in natural ecosystems
- Waste & Resources Action Programme – British charitable organization
- Packaging Recovery Note – documenting packaging recycling
- Packaging and packaging waste directive – Directive of EU
- Producer Responsibility Obligations (Packaging Waste) Regulations 2007 – UK waste management regulations
- Reusable packaging – manufactured of durable materials and is specifically designed for multiple trips and extended life. A reusable package or container is "designed for reuse without impairment of its protective function"
- Sustainable packaging – Packaging which results in improved sustainability
- Fast food – Food prepared and served in a small amount of time
- Waste minimization– Process that involves reducing the amount of waste produced in society
- Circular economy – Production model to minimise wastage and emissions
- Disposable food packaging
References
- ^ Hall, Dave (2017-03-13). "Waste packaging". the Guardian. Retrieved 2019-02-20.
- ^ a b Local, DPA/The (2018-07-26). "Germany accumulates more packaging waste per capita than any country in the EU". The Local. Retrieved 2019-02-20.
- ^ "Packaging waste - Environment". European Commission. Retrieved 2019-02-20.
- ^ a b c d e f g h i j k l m n o p q r s t u v Ritchie, Hannah; Roser, Max (September 1, 2018). "Plastic Pollution". Our World in Data. Retrieved October 29, 2019.
- ^ a b c d e f g h i j k l m n o p q r s t u v w x y z aa US EPA, OLEM (September 7, 2017). "Containers and Packaging: Product-Specific Data". US EPA. Retrieved October 29, 2019.
- ^ a b c d e f g h i j Guren, Claire Le (November 2009). "Plastic Pollution". Coastal Care. Retrieved October 30, 2019.
- ^ "Please don't package it!". 18 January 2019.
- ^ OCLC 1096282673.
- ^ Soroka, W. Illustrated Glossary of Packaging Terminology (Second ed.). Institute of Packaging Professionals.
- ^ Fitzgerald (August 2004). "Cereal Box Design" (PDF). Tech Directions: 22. Retrieved 4 November 2021.
- ^ Misleading Containers, 21CFR100.100
- PMID 32989345.
- ^ ISBN 9780470168219, retrieved October 30, 2019