Zero waste


Zero waste, or waste minimization, is a set of principles focused on waste prevention that encourages redesigning resource life cycles so that all products are repurposed and/or reused. The goal of the movement is to avoid sending trash to landfills, incinerators, oceans, or any other part of the environment. Currently 9% of global plastic is recycled. In a zero waste system, all materials are reused until the optimum level of consumption is reached.
Zero waste refers to waste prevention as opposed to end-of-pipe waste management. It is a "whole systems" approach that aims for a massive change in the way materials flow through society, resulting in no waste. Zero waste encompasses more than eliminating waste through reducing, reusing, and recycling. It focuses on restructuring distribution and production systems to reduce waste. Zero waste provides guidelines for continually working towards eliminating waste.
According to the Zero Waste International Alliance, zero waste is the complete recovery of a product's resources "with no discharges to land, water, or air that threaten the environment or human health."
Advocates expect that government regulation is needed to influence industrial choices over product and packaging design, manufacturing processes, and material selection.
Advocates say eliminating waste decreases pollution and can also reduce costs due to the reduced need for raw materials.

Cradle-to-Grave

The cradle-to-grave is a linear material model that begins with resource extraction, moves to product manufacturing, and ends with a "grave" or landfill where the product is disposed of. Cradle-to-grave is in direct contrast to cradle-to-cradle materials or products, which are recycled into new products at the end of their lives so that ultimately there is no waste.
Cradle-to-cradle focuses on designing industrial systems so that materials flow in closed-loop cycles, which means that waste is minimized and waste products can be recycled and reused. Cradle-to-cradle goes beyond dealing with waste issues after it has been created by addressing problems at the source and redefining problems by focusing on design. The cradle-to-cradle model is sustainable and considerate of life and future generations.
The cradle-to-cradle framework has evolved steadily from theory to practice. In the industrial sector, it is creating a new notion of materials and material flows. Just as in the natural world, in which one organism's "waste" cycles through an ecosystem to provide nourishment for other living things, cradle-to-cradle materials circulate in closed-loop cycles, providing nutrients for nature or industry.
The spread of industrialization worldwide has been accompanied by a large increase in waste production. In 2012 the World Bank stated that 1.3 billion tons of municipal waste was produced by urban populations and estimates that the number will reach 2.2 billion tons by 2025. The increase in solid waste production increases the need for landfills. With the increase in urbanization, these landfills are being placed closer to communities. These landfills are disproportionately located in areas of low socioeconomic status with primarily non-white populations. Findings indicated these areas are often targeted as waste sites because permits are more easily acquired and there was generally less community resistance. Additionally, within the last five years, more than 400 hazardous waste facilities have received formal enforcement actions for unspecified violations that were considered to be a risk to human health.
There is a growing global population that is faced with limited resources from the environment.Zero waste#cite note-7| To relieve the pressures placed on the finite resources available it has become more important to prevent waste. To achieve zero waste, waste management has to move from a linear system to a more cyclical one so that materials, products, and substances are used as efficiently as possible. Materials must be chosen so that they may either return safely to a cycle within the environment or remain viable in the industrial cycle.Zero waste#cite note-ZWA-8|
Zero waste promotes not only reuse and recycling but, more importantly, it promotes prevention and product designs that consider the entire product life cycle.Zero waste#cite note-ZWA-8| Zero-waste designs strive for reduced material use, use of recycled materials, use of more benign materials, longer product lives, repairability, and ease of disassembly at the end of life.Zero waste#cite note-Davidson-3| Zero waste strongly supports sustainability by protecting the environment, reducing costs and producing additional jobs in the management and handling of waste back into the industrial cycle.Zero waste#cite note-ZWA-8| A Zero waste strategy may be applied to businesses, communities, industrial sectors, schools, and homes.
Benefits proposed by advocates include:
  • Saving money. Since waste is a sign of inefficiency, the reduction of waste can reduce costs.
  • Faster Progress. A zero-waste strategy improves upon production processes and improves environmental prevention strategies which can lead to taking larger, more innovative steps.
  • Supports sustainability. A zero-waste strategy supports all three of the generally accepted goals of sustainability - economic well-being, environmental protection, and social well-being.Zero waste#cite note-ZWA-8|
  • Improved material flows. A zero-waste strategy would use far fewer new raw materials and send no waste materials to landfills. Any material waste would either return as reusable or recycled materials or would be suitable for use as compost.Zero waste#cite note-ZWA-8|

    Health

A major issue with landfills is hydrogen sulfide, which is released from the natural decay of waste. Studies have shown a positive association between increased lung cancer mortality rates and increased morbidity and mortality related to respiratory disease and hydrogen sulfide exposure. These studies also showed that the hydrogen sulfide exposure increased with proximity to the landfill.
Household chemicals and prescription drugs are increasingly being found in large quantities in the leachate from landfills. This is causing concern about the ability of landfills to contain these materials and the possibility of these chemicals and drugs making their way into the groundwater and the surrounding environment.
Zero waste promotes a circular material flow that allows materials to be used over and over, reducing the need for landfill space. Through zero waste the number of toxins released into the air and water would be decreased and products examined to determine what chemicals are used in the production process.
Health issues related to landfills:
  • Birth defects, low birth weight, and exposure to particulates and nitrogen dioxide are associated with close proximity to landfills.
  • Respiratory diseases and lung cancers are related to the release of hydrogen sulfide from landfills.
Zero waste promotion of a cyclical product life can help reduce the need to create and fill landfills. This can help reduce incidents of respiratory diseases and birth defects that are associated with the toxins released from landfills. Zero waste can also help preserve local environments and potable water sources by preventing pollutants from entering the ecosystem.

History

The California Integrated Waste Management Board established a zero waste goal in 2001. The City and County of San Francisco's Department of the Environment established a goal of zero waste in 2002, which led to the City's Mandatory Recycling and Composting Ordinance in 2009.
A group that would become the Zero Waste International Alliance held its first meeting in 2002, chaired by British economist and environmentalist Robin Murray.
In 2008, Zero Waste was a term used to describe manufacturing and municipal waste management practices. Bea Johnson, a French American woman living in California, decided to apply it to her 4-person household. In 2009, she started the blog Zero Waste Home, and in 2010, was featured in The New York Times.
The International Day of Zero Waste was adopted by the United Nations General Assembly on December 14, 2022. The event has been held annually on March 30 since 2023. "During International Day of Zero Waste, Member States, organizations of the United Nations system, civil society, the private sector, academia, youth and other stakeholders are invited to engage in activities aimed at raising awareness of national, subnational, regional and local zero-waste initiatives and their contribution to achieving sustainable development. The United Nations Environment Programme and the United Nations Human Settlements Programme jointly facilitate the observance of International Day of Zero Waste."

Packaging Examples

Milk can be shipped in many forms. One of the traditional forms was reusable returnable glass milk bottles, often home delivered by a milkman. While some of this continues, other options have recently been more common: one-way gable-top paperboard cartons, one-way aseptic cartons, one-way recyclable glass bottles, one-way milk bags, and others. Each system claims some advantages and also has possible disadvantages. From the zero-waste standpoint, the reuse of bottles is beneficial because the material usage per trip can be less than other systems. The primary input is silica-sand, which is formed into glass and then into a bottle. The bottle is filled with milk and distributed to the consumer. A reverse logistics system returns the bottles for cleaning, inspection, sanitization, and reuse. Eventually, the heavy-duty bottle would not be suited for further use and would be recycled. Waste and landfill usage would be minimized. The material waste is primarily the wash water, detergent, transportation, heat, bottle caps, etc. While true zero waste is never achieved, a life cycle assessment can be used to calculate the waste at each phase of each cycle.
Online shopping orders are often placed in an outer box to contain multiple items for easier transport and tracking. This creates waste for every order, especially when there is only a single item. In response, some products are now designed not to require an outer box for safe shipping, a feature known as ships in own container.