Decarbonization Avenue : Solid Waste Management


Solid waste refers to waste from residential, commercial and industrial establishments, a large part of which currently goes to the landfill.

Over 2 billion tons of municipal solid waste alone are generated each year worldwide. Interestingly, about 9 billion tons of commercial & industrial solid waste (includes construction & demolition waste) are also generated annually.

Such large amounts of waste result in overflowing landfills and stinking cities. They also represent a poor mindset of people worldwide who generate so much in the first place.

But solid wastes are not just about a poorly used resource ending up in a landfill. They also indirectly represent greenhouse gas emissions that had gone into producing those products. In addition, a good portion of these wastes also generate methane while in landfills. Methane is a potent greenhouse gas with a global warming potential that is 25 times that of CO2.

Managing solid waste in an efficient and optimal manner thus presents a significant decarbonization avenue.

While it might be difficult to utilize some portions of the solid waste, value can be recovered from many portions. One of the most attractive avenues is recycling, as a recycled product consumes significantly less energy and less emissions than making the product from scratch - the reduction could be as high as 75% in some cases. Note however that recycling rates are rather poor in many regions worldwide. In the US for instance, less than 10% of plastics were recycled in 2018, though the EU reported a rather impressive 42% for that year.

Some portions of solid waste can be composted and converted into a fertilizer. Other solid wastes can be converted to energy. While combustion is perhaps the simplest way to recover energy from solid waste, it may not be the optimal - thermal processes such as pyrolysis or gasification could recover much higher value from waste.

Solid waste management as a decarbonization avenue is relevant worldwide, but it is far more relevant for developed economies that generate a lot more solid waste per capita, and also generate waste that comprises a high proportion of recyclables.

Avenues such as composting are well developed and represent simple avenues to sustainably manage solid waste. Within recycling, technologies are well developed for certain types of solid waste.

But given the diverse waste streams from domestic, commercial and industrial segments, and with poor waste segregation and disposal habits in many parts of the world, recovering value from waste is currently quite expensive, hampering large scale value recovery.

For the 2020-2030 period, innovations in this domain will be around business models, introduction of intelligence and “smartness” in waste collection mechanisms, recycling technologies, use of digital solutions to derive efficiencies at multiple points along the solid waste management value chain and more effective sorting/segregation technologies and practices.

Decarbonization potential

Based on the volume of waste generated, its composition, and how it is managed, it is estimated that 1.6 billion tonnes of carbon dioxide (CO2) equivalent greenhouse gas emissions were generated from solid waste treatment and disposal in 2016, or 5 percent of global CO2 emissions. Food waste accounts for nearly 50% of these emissions.

Emissions are driven primarily by disposing of waste in open dumps and landfills without landfill gas collection systems. The US landfills alone emitted about 115 million tons CO2 equivalent of methane in 2019.

Solid waste related emissions are anticipated to increase to about 2.4 billion tonnes of CO2-equivalent per year by 2050 if no improvements are made in the sector.

Industries impacted

  • Agriculture & farming
  • Construction & real estate
  • Fast moving consumer goods
  • Food & beverages
  • Livestock
  • Logistics
  • Mining & metals
  • Packaging & plastics
  • Printing & publishing
  • Paper & forest products
  • Textile & apparel
  • Trading & distribution
  • Waste management

Relevant professions

Themes & Topics

  • MSW management

    • Plastic waste management

    • Household hazardous waste management

  • Industrial solid waste management

    • Industrial solid waste to energy

    • Hazardous solid waste to energy

    • Industrial hazardous waste management

    • Medical waste management

    • Hazardous electronic waste management

  • Construction & demolition waste management

  • Other solid waste

    • Fruits & vegetable waste management

    • Human & animal waste management

  • Solutions

    • Waste to energy

    • Recycling

    • Composting

  • Solid waste to energy

    • Gasification

      • Solid waste to hydrogen

    • Combustion

    • Pyrolysis

    • Anaerobic digestion

 

 

 

 

 

  • Training & capacity building

  • Collaboration

    • Between government and industries

    • Between government and public

    • Between government and NGOs

    • Between government and research

  • Regional trends

    • North America

    • South America

    • Europe

    • Asia

    • Middle East & Africa

    • Australia

  • Challenges

    • Segregation

    • Logistics

    • Economics

  • Technology & innovations

  • Policies

  • Use of IT & digital solutions

  • Market opportunities

  • Financing

  • Distributed solid waste management

  • Innovative business & revenue models

 

 

 

 

 

Solid Waste Management Decarbonization Avenue