Waste diversion or landfill diversion is the process of diverting waste from landfills. The success of landfill diversion can be measured by comparison of the size of the landfill from one year to the next. If the landfill grows minimally or remains the same, then policies covering landfill diversion are successful. For example, currently in the United States there are 3000 landfills. A measure of the success of landfill diversion would be if that number remains the same or is reduced. In 2015 it was recorded that the national average of landfill diversion in the United States was 33.8%, while San Francisco had implemented the most effective policies and had recorded a landfill diversion rate of 77%.
Waste diversion is the process of diverting waste from landfills through recycling and source reduction activities. This can be calculated in different ways. As a global community, we can measure the size and number of landfills from one year to the next. If the landfills have shrunk or decreased in number, then it can be gathered that we are successfully implementing a waste diversion plan. If landfills have increased in number, then we are not doing enough to combat the growing population and growing waste we produce. On a smaller scale, we can track our week to week, or even day to day, waste diversion rate.
Reduction of waste is another way to divert waste from landfills; not creating waste in the first place will reduce the amount of waste going to landfills. There are numerous ways to reduce waste, for example, consumers can avoid single use products and instead invest in re-usable items such as canvas bags instead of plastic bags; consuming less in general is also an effective way to reduce waste. In addition, maintaining vehicles' tires will also help reduce waste tires in landfills since they are undesirable and take up too much space along with many other negative effects.
Landfill diversion can occur through recycling. Recycling refers to taking used materials and creating new products in order to prevent the disposal of these products in landfills.
Cette page est générée automatiquement et peut contenir des informations qui ne sont pas correctes, complètes, à jour ou pertinentes par rapport à votre recherche. Il en va de même pour toutes les autres pages de ce site. Veillez à vérifier les informations auprès des sources officielles de l'EPFL.
Les systèmes eaux et déchets en Suisse: du traitement end-of-pipe à la fermeture des cycles. Principes de l'adduction, de l'évacuation et du traitement des eaux. Bases du dimensionnement des ouvrages,
This course provides the bases to understand material and energy production and consumption processes. Students learn how to develop a material flow analysis and apply it to cases of resource manageme
Couvre le concept de coefficient de transfert dans l'analyse du flux de matériaux et son application dans l'analyse du recyclage du verre.
Explore les propriétés magnétiques des matériaux, y compris l'hystérésis, la coercivité et la susceptibilité.
Explore la conception des sites d'enfouissement, le traitement de l'eau, la récupération des déchets et la conformité du site, en mettant l'accent sur les systèmes de drainage et la durabilité environnementale.
Based on the one-dimensional Biot consolidation equations, this paper developed an advection-diffusion equation that incorporates saturation, compressibility of the pore fluid and longitudinal dispersivity of the solute transport in an unsaturated, deformi ...