Development and Application of a Mathematical Model for the Assessment of the Treatability of Radionuclides Polluted Soils by Microwave Heating Stabilisation: Preliminary Results
Radionuclides polluted soils represent a major concern for environment and their remediation or stabilization are a key factor for human health. In recent years, treatments by MW heating have attracted great attention in environmental field, since it represents a novel and optimal approach for remov...
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AIDIC Servizi S.r.l.
2013-06-01
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| Series: | Chemical Engineering Transactions |
| Online Access: | https://www.cetjournal.it/index.php/cet/article/view/6457 |
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doaj-b9b72f1969f44abf98b25b55bc3395192021-02-22T20:59:53ZengAIDIC Servizi S.r.l.Chemical Engineering Transactions2283-92162013-06-013210.3303/CET1332063Development and Application of a Mathematical Model for the Assessment of the Treatability of Radionuclides Polluted Soils by Microwave Heating Stabilisation: Preliminary ResultsP. FalcigliaS. CannataG. UrsoP. ScandurraA. TrigliaS. RomanoF.G.A. VagliasindiRadionuclides polluted soils represent a major concern for environment and their remediation or stabilization are a key factor for human health. In recent years, treatments by MW heating have attracted great attention in environmental field, since it represents a novel and optimal approach for removal or stabilisation of organic pollutants and/or heavy metals. Therefore, in situ MW heating could represent an optimal choice for radionuclides polluted soils stabilisation. A huge effort has been made by several scientists in order to demonstrate MW applicability by means of lab-scale experiments, but very limited results were shown by pilot or full-scale activities, making unclear the limits and therefore the real applicability of in situ MW interventations. This lack makes essential the development of specific tools to plan full-scale MW treatments, in particular when large polluted soils volumes are involved. In this work a mathematical model was developed and applied to understand the effects of a long period MW radiation on the variability of several physical soil parameters. For simulating, a treatment time of 1 month, a maximum investigated distance from the microwave source (antenna) of 4 m and a power of 4 kw for the microwave generation at 2.45 GHz were applied. Preliminary results showed that in situ MW remediation of radionuclides polluted sandy soil is applicable for a limited distance of about 50 cm from the antenna and for a remediation time of 30 days. Powers higher than 4 kW or remediation time longer than 1 month should be investigated in order to successfully treat radionuclides polluted soils.https://www.cetjournal.it/index.php/cet/article/view/6457 |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
P. Falciglia S. Cannata G. Urso P. Scandurra A. Triglia S. Romano F.G.A. Vagliasindi |
| spellingShingle |
P. Falciglia S. Cannata G. Urso P. Scandurra A. Triglia S. Romano F.G.A. Vagliasindi Development and Application of a Mathematical Model for the Assessment of the Treatability of Radionuclides Polluted Soils by Microwave Heating Stabilisation: Preliminary Results Chemical Engineering Transactions |
| author_facet |
P. Falciglia S. Cannata G. Urso P. Scandurra A. Triglia S. Romano F.G.A. Vagliasindi |
| author_sort |
P. Falciglia |
| title |
Development and Application of a Mathematical Model for the Assessment of the Treatability of Radionuclides Polluted Soils by Microwave Heating Stabilisation: Preliminary Results |
| title_short |
Development and Application of a Mathematical Model for the Assessment of the Treatability of Radionuclides Polluted Soils by Microwave Heating Stabilisation: Preliminary Results |
| title_full |
Development and Application of a Mathematical Model for the Assessment of the Treatability of Radionuclides Polluted Soils by Microwave Heating Stabilisation: Preliminary Results |
| title_fullStr |
Development and Application of a Mathematical Model for the Assessment of the Treatability of Radionuclides Polluted Soils by Microwave Heating Stabilisation: Preliminary Results |
| title_full_unstemmed |
Development and Application of a Mathematical Model for the Assessment of the Treatability of Radionuclides Polluted Soils by Microwave Heating Stabilisation: Preliminary Results |
| title_sort |
development and application of a mathematical model for the assessment of the treatability of radionuclides polluted soils by microwave heating stabilisation: preliminary results |
| publisher |
AIDIC Servizi S.r.l. |
| series |
Chemical Engineering Transactions |
| issn |
2283-9216 |
| publishDate |
2013-06-01 |
| description |
Radionuclides polluted soils represent a major concern for environment and their remediation or stabilization are a key factor for human health. In recent years, treatments by MW heating have attracted great attention in environmental field, since it represents a novel and optimal approach for removal or stabilisation of organic pollutants and/or heavy metals. Therefore, in situ MW heating could represent an optimal choice for radionuclides polluted soils stabilisation. A huge effort has been made by several scientists in order to demonstrate MW applicability by means of lab-scale experiments, but very limited results were shown by pilot or full-scale activities, making unclear the limits and therefore the real applicability of in situ MW interventations. This lack makes essential the development of specific tools to plan full-scale MW treatments, in particular when large polluted soils volumes are involved.
In this work a mathematical model was developed and applied to understand the effects of a long period MW radiation on the variability of several physical soil parameters. For simulating, a treatment time of 1 month, a maximum investigated distance from the microwave source (antenna) of 4 m and a power of 4 kw for the microwave generation at 2.45 GHz were applied.
Preliminary results showed that in situ MW remediation of radionuclides polluted sandy soil is applicable for a limited distance of about 50 cm from the antenna and for a remediation time of 30 days. Powers higher than 4 kW or remediation time longer than 1 month should be investigated in order to successfully treat radionuclides polluted soils. |
| url |
https://www.cetjournal.it/index.php/cet/article/view/6457 |
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