It is important to distinguish recycling from zero waste. The most common practice of recycling is simply that of placing bottles, cans, paper, and packaging into curbside recycling bins. The modern version of recycling is more complicated and involves many more elements of financing and government support. For example, a 2007 report by the
U.S. Environmental Protection Agency states that the US recycles at a national rate of 33.5% and includes in this figure composted materials. In addition, many multinational commodity companies have been created to handle recycled materials. At the same time, claims of recycling rates have sometimes been exaggerated, for example by the inclusion of
soil and organic matter used to cover garbage dumps daily, in the "recycled" column. In US states with recycling incentives, there is constant local pressure to inflate recycling statistics. Recycling has been separated from the concept of zero waste. One example of this is the
computer industry where worldwide millions of PC's are disposed of as
electronic waste each year in 2016 44.7 million metric tons of electronic waste was generated of which only 20% was documented and recycled. Some computer manufacturers
refurbish leased computers for resale. Community Organizations have also entered this space by refurbishing old computers from donation campaigns for distribution to undeserved communities.
Software recycling A clear example of the difference between zero waste and recycling is discussed in
Getting to Zero Waste, in the software industry. Zero waste design can be applied to intellectual property where the effort to code functionality into software objects is developed by design as opposed to copying code
snippets multiple times when needed. The application of zero waste is straightforward as it conserves human effort. Also, software storage mediums have transitioned from consumable diskettes to internal drives which are vastly superior and have a minimal cost per megabyte of storage. This is a physical example where zero waste correctly identifies and avoids wasteful behavior.
Use of zero waste system Zero waste is poorly supported by the enactment of government laws to enforce the
waste hierarchy. A special feature of zero waste as a design principle is that it can be applied to any product or process, in any situation or at any level. Thus it applies equally to toxic chemicals as to benign plant matter. It applies to the waste of atmospheric purity by
coal-burning or the waste of radioactive resources by attempting to designate the excesses of
nuclear power plants as "
nuclear waste". All processes can be designed to minimize the need for discard, both in their own operations and in the usage or consumption patterns which the design of their products leads to. Recycling, on the other hand, deals only with simple materials. Zero waste can even be applied to the waste of human potential by enforced
poverty and the denial of educational opportunity. It encompasses redesign for reduced
energy wasting in industry or transportation and the wasting of the earth's
rainforests. It is a general principle of designing for the efficient use of all resources, however defined. The recycling movement may be slowly branching out from its solid waste management base to include issues that are similar to the community sustainability movement. Zero waste, on the other hand, is not based in waste management limitations to begin with but requires that we maximize our existing reuse efforts while creating and applying new methods that minimize and eliminate destructive methods like incineration and recycling. Zero waste strives to ensure that products are designed to be repaired, refurbished, re-manufactured and generally reused. == Significance of dump capacity ==