Surface Contact: Difference between revisions
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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]] | [[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>. | ||
==References== | ==References== | ||
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Revision as of 13:24, 13 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].