air drying

Dryness of air

Dry air comes through the desiccant beds within the shut air flow loop from the dryer/hopper method. Desiccant
beds should be heated up and regenerated prior to they can dry incoming operation air. After regeneration, it’s beneficial to cool down down the regenerated bed with shut loop (previously dried) air as opposed to ambient air.
Bringing operation air through the top from the pellet hopper is filtered prior to it’s blown through the desiccant bed and on to the heating unit and hopper. Dryers utilized for polyesters ought to be designed with aftercoolers to cool down the bringing operation air.
Return air heat ought to be below 65°C (150°C) to raise the desiccant affinity for moisture, thus improving
effectiveness .The desiccant within the beds is usually a very good clay-like polymer in pea-sized pellets. It gradually loses its effectiveness and should be replaced regularly,usually about once per year. Make use of
of polymer with a higher dust content (including regrind) or materials that contains particular additives will decrease the life from the desiccant by covering the pellets or soaking them with a nonvolatile polymer. Excellent filters can assist extend the life span from the bed and the heating unit elements.

Air dryness might be examined by dew point measures, either portable or fixed in line within the dryer. Built-in dew point measures and alarms are definitely the wise option for polyesters. These meters provide a direct reading from the dew point from the air tested. While the dryer has twisting beds, the meter must operate long sufficient for most beds to be examined. Every bed can usually be on line for 25 to 40 minutes or for a longer time; a latest bed should move directly into situation prior to the dew point rises earlier on–31°C ( –21°F).

Note: As soon as pellets are dried out, they must quit uncovered to moist air in conveying or in the machine hopper. Else , the pellets may reabsorb sufficient moisture to result in splay or lower bodily attributes.


The typical airflow rate desire for drying is 0.061 cubic meter of very hot dry air each minute for every kilogram of polymer processed hourly (0.061 m3/min per kg/h) or 1 cubic foot of hot dry air each minute for every pound of polymer processed per hour (1 cfm per lb/h). For instance, in case 109.1 kg (241 lb) of polymer is utilized per hour, airflow ought to be no less than 6.71 m3/min (240 cfm).
Lowest airflow to make sure excellent air distribution is usually about 2.81 m3/min (100 cfm) for smaller dryers.
Airflow can be examined by in-line airflow measures, by mobile meters, or greatly less precisely by disconnecting a hose pipe going directly into the hopper and feeling the airflow,fundamentally a yes/no on airflow.
In case there exist dust filters within the flow loop, these ought to be cleaned or exchanged occasionally to prevent decrease in the flow of air rate.

Moisture measurement

Dew point measures get simply the dryness from the air, not the dryness from the polymer pellets within the hopper. Make use of  the dew point meter coupled with measurements of heat, airflow, and time may give a precise indication , if the polymer pellets are being dried correctly.Weight reduction kind of moisture meters are devices that gauge the humidity inside pellets. These measures can provide a general indication for the effectiveness of the drying method in reducing the level of moisture within the polymer pellets. Nevertheless, most are usually not accurate sufficient to make use of  a good quality management strategy to make sure sufficient dryness of polyesters, to avoid degradation during running. A moisture level within the range of 0.021%–0.031% is preferred, and this really is decided by utilizing analytical means alternative compared to the preceding.