Surface Contact: Difference between revisions

Latest revision as of 04:30, 22 July 2021

Surface Contact reactors are a key type of ATT (advanced thermal treatment) reactor and are generally used in pyrolysis systems^[1]. The application of this technology is to maximise the rate of pyrolysis. These reactors can process only small-sized waste and so pre-treatment of feedstock is required. This process runs at high temperatures of 600-850°C and the small feedstock size results in high heating rates^[2]. An example of the application of this reactor type in waste-to-energy plants is Beston's pyrolysis plant which can process waste tyres, waste rubber, oil sludge, and waste plastics. The chamber of this plant is heated to provide Surface Contact and pyrolyze feedstock into industrial fuel oil, steel wire, and combustible gas^[3].

References

[1] Energy-from-Waste Technologies

[2] Advanced Thermal Treatment of MSW

[3] Beston Pyrolysis Plant

[1]

[2]

[3]

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-[[Surface contact]] reactors are a key type of ATT ([[Advanced Thermal Treatment|advanced thermal treatment]]) reactor and are generally used in [[Pyrolysis|pyrolysis]] systems<ref>[https://ifrf.net/ifrf-blog/energy-from-waste-technologies-advanced-thermal-treatment-pyrolysis-and-gasification/ Energy-from-Waste Technologies]</ref>. The application of this technology is to maximise the rate of [[Pyrolysis|pyrolysis]]. These reactors can process only small-sized [[Waste|waste]] only and so pre-treatment of [[Feedstock|feedstock]] is required. This process runs at high temperatures of 600-850°C and the small [[Feedstock|feedstock]] size results in high heating rates<ref>[https://assets.publishing.service.gov.uk/government/uploads/system/uploads/attachment_data/file/221035/pb13888-thermal-treatment-waste.pdf Advanced Thermal Treatment of MSW]</ref>.
+[[Category:Technologies & Solutions]]
+[[Surface Contact]] reactors are a key type of ATT ([[Advanced Thermal Treatment|advanced thermal treatment]]) reactor and are generally used in [[Pyrolysis|pyrolysis]] systems<ref>[https://ifrf.net/ifrf-blog/energy-from-waste-technologies-advanced-thermal-treatment-pyrolysis-and-gasification/ Energy-from-Waste Technologies]</ref>. The application of this technology is to maximise the rate of [[Pyrolysis|pyrolysis]]. These reactors can process only small-sized [[Waste|waste]] and so pre-treatment of [[Feedstock|feedstock]] is required. This process runs at high temperatures of 600-850°C and the small [[Feedstock|feedstock]] size results in high heating rates<ref>[https://assets.publishing.service.gov.uk/government/uploads/system/uploads/attachment_data/file/221035/pb13888-thermal-treatment-waste.pdf Advanced Thermal Treatment of MSW]</ref>.
+An example of the application of this reactor type in waste-to-energy plants is Beston's [[Pyrolysis|pyrolysis]] plant which can process [[Waste|waste]] tyres, [[Waste|waste]] rubber, oil sludge, and [[Waste|waste]] [[Plastic|plastics]]. The chamber of this plant is heated to provide [[Surface Contact]] and [[Pyrolysis|pyrolyze]] [[Feedstock|feedstock]] into industrial fuel oil, steel wire, and [[Flue Gas|combustible gas]]<ref>[https://www.bestongroup.net/waste-tyre-rubber-oil-sludge-prolysis-plant-for-sale/?gclid=CjwKCAjw_o-HBhAsEiwANqYhp0BOZyIXDZ2wC-79P6D0JoMW22ctMeKv1Jk09DoVJJAGz907c4g2eBoC9F8QAvD_BwE Beston Pyrolysis Plant]</ref>.
 ==References==
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