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Engineered MSW landfills as a future material resource and a sink for long-term storage of organic carbon

Bramryd, Torleif LU and Johansson, Michael LU orcid (2020) 17th International Youth Science and Environmental Baltic Region Countries Forum, ECOBALTICA FEB 2020 In IOP Conference Series: Earth and Environmental Science 578.
Abstract

A controlled, highly engineered landfill has many similarities to natural peatlands or other natural anoxic sediment deposits. In anaerobic MSW landfills, generally about 30-50 percent of the total carbon content in the waste can be converted into biogas and be collected as resource for energy or chemical industry. Remaining long-lived organic carbon, e.g. from lignin remains un-degraded, Organic carbon in fossil derived hydrocarbons, like plastics, will remain rather unaffected in the landfill. In a future with less remaining oil resources, landfill mining of these polymers can be valuable, making the landfill to a future "resource bank". New reactor cell landfill technologies have shown that up to over 90 % of the produced biogas can... (More)

A controlled, highly engineered landfill has many similarities to natural peatlands or other natural anoxic sediment deposits. In anaerobic MSW landfills, generally about 30-50 percent of the total carbon content in the waste can be converted into biogas and be collected as resource for energy or chemical industry. Remaining long-lived organic carbon, e.g. from lignin remains un-degraded, Organic carbon in fossil derived hydrocarbons, like plastics, will remain rather unaffected in the landfill. In a future with less remaining oil resources, landfill mining of these polymers can be valuable, making the landfill to a future "resource bank". New reactor cell landfill technologies have shown that up to over 90 % of the produced biogas can be collected and used. Approximately 150-250 m3 of biogas per tonne waste can be extracted from a landfill reactor-cell over a 10-year period. Sequestration of a long-lived organic fraction in a landfill, with an annual input of 100 000 tons of waste, can compensate for annual CO2 emissions from about 20 000 to 25 000 cars. If more than about 60 % of produced biogas can be collected from the landfill, it has positive net effects on climate change. If the waste instead would have been incinerated this would lead to major emissions of fossil CO2, as about 30-50 % of the CO2 in the stack gasses from a waste incinerator has fossil origin.

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author
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organization
publishing date
type
Chapter in Book/Report/Conference proceeding
publication status
published
subject
host publication
XVII-th INTERNATIONAL YOUTH SCIENCE AND ENVIRONMENTAL BALTIC REGION COUNTRIES FORUM "ECOBALTICA" 16-17 July 2020, Saint-Petersburg. Russian Federation
series title
IOP Conference Series: Earth and Environmental Science
volume
578
article number
012026
edition
1
conference name
17th International Youth Science and Environmental Baltic Region Countries Forum, ECOBALTICA FEB 2020
conference location
Saint-Petersburg, Russian Federation
conference dates
2020-07-16 - 2020-07-17
external identifiers
  • scopus:85096682998
ISSN
1755-1307
DOI
10.1088/1755-1315/578/1/012026
language
English
LU publication?
yes
id
e8c986f7-96b4-42aa-982e-25504c7baf7c
date added to LUP
2020-12-03 14:17:20
date last changed
2023-01-01 02:38:22
@inproceedings{e8c986f7-96b4-42aa-982e-25504c7baf7c,
  abstract     = {{<p>A controlled, highly engineered landfill has many similarities to natural peatlands or other natural anoxic sediment deposits. In anaerobic MSW landfills, generally about 30-50 percent of the total carbon content in the waste can be converted into biogas and be collected as resource for energy or chemical industry. Remaining long-lived organic carbon, e.g. from lignin remains un-degraded, Organic carbon in fossil derived hydrocarbons, like plastics, will remain rather unaffected in the landfill. In a future with less remaining oil resources, landfill mining of these polymers can be valuable, making the landfill to a future "resource bank". New reactor cell landfill technologies have shown that up to over 90 % of the produced biogas can be collected and used. Approximately 150-250 m3 of biogas per tonne waste can be extracted from a landfill reactor-cell over a 10-year period. Sequestration of a long-lived organic fraction in a landfill, with an annual input of 100 000 tons of waste, can compensate for annual CO2 emissions from about 20 000 to 25 000 cars. If more than about 60 % of produced biogas can be collected from the landfill, it has positive net effects on climate change. If the waste instead would have been incinerated this would lead to major emissions of fossil CO2, as about 30-50 % of the CO2 in the stack gasses from a waste incinerator has fossil origin.</p>}},
  author       = {{Bramryd, Torleif and Johansson, Michael}},
  booktitle    = {{XVII-th INTERNATIONAL YOUTH SCIENCE AND ENVIRONMENTAL BALTIC REGION COUNTRIES FORUM "ECOBALTICA" 16-17 July 2020, Saint-Petersburg. Russian Federation}},
  issn         = {{1755-1307}},
  language     = {{eng}},
  series       = {{IOP Conference Series: Earth and Environmental Science}},
  title        = {{Engineered MSW landfills as a future material resource and a sink for long-term storage of organic carbon}},
  url          = {{http://dx.doi.org/10.1088/1755-1315/578/1/012026}},
  doi          = {{10.1088/1755-1315/578/1/012026}},
  volume       = {{578}},
  year         = {{2020}},
}