Determination of the residence-time distribution in industrial dryer for the production of recycled polyester

This study proposes the use of mass balance and the method of McCabe-Thiele in absorption column for the removal of drying air humidity with ethylene glycol and energy balances in heat exchangers for the determination of the optimum operation conditions of a factory for the production of recycled polyester fibers from polyethylene terephthalate (PET) flakes. The evaluation of these machines involved the combination of variables such as temperature, flow rate, specific heat and operational efficiency to guarantee the correct adjustment of the physicochemical properties of the fluids and materials of the process. Highlighted in this study, the efficiency of the absorption column was determined at 25% and a diagram correlating ethylene glycol humidity, dew point of the drying air and efficiency of humidity removal from the PET flake dryer was constructed to define what is the most appropriate configuration for operation. By the graph curves, it was found that the humidity of ethylene glycol for absorption should be inferior to 1% (w/w) to guarantee a dew point < -27?C at 175?C of the drying air introduced in the dryer, that would finally promote a removal with efficiency superior to 91% of the PET flake humidity for values < 0.005% (w/w).

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Study on heat exchangers and industrial absorption column for drying polyethylene terephthalate

Silva

Bastos

2023

CI&CEQ

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Determination of the residence-time distribution in industrial dryer for the production of recycled polyester

Cited by 1 publication

References 24 publications

Study on heat exchangers and industrial absorption column for drying polyethylene terephthalate

Study on heat exchangers and industrial absorption column for drying polyethylene terephthalate

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