A manufacturing method for a functional film provided on an upper surface of a long substrate, includes coating an ink containing a material of the functional film on the upper surface of the substrate to form a coating film, and drying the coating film while conveying the substrate. The drying process includes a first process in which the substrate is conveyed for a first distance and a temperature of the substrate is raised from a first temperature to a second temperature during conveyance. In the first process, assuming that the first distance is d.sub.1 (m), the first temperature is T.sub.1 (° C.), and the second temperature is T.sub.2 (° C.), the following expression is satisfied: (T.sub.2−T.sub.1)/d.sub.1≥10 (1a). A maximum value of an instantaneous temperature change rate of the substrate is 5° C./sec or less.

A pre-dryer for continuous feed or cut sheet systems is described. Such a module can be used in various applications, for example, prior to printing where the time constant for fusing and glossing is long enough that the substrate temperature essentially equilibrates with that of the marking material on the surface of the sheet. The pre-dryer may be part of an image forming device. Substrates, including paper, typically have high moisture content in normal atmospheric conditions. Such substrates may have a moisture content of about 10% water by weight, which is considered high for printing. Such high moisture content in image receiving substrates leads to various artifacts and extends heating times to take the substrate to its glossing temperature that are about four times longer than for dry media. This longer heating time translates to undesirably longer paper paths or nip lengths.

A pre-dryer for continuous feed or cut sheet systems is described. Such a module can be used in various applications, for example, prior to printing where the time constant for fusing and glossing is long enough that the substrate temperature essentially equilibrates with that of the marking material on the surface of the sheet. The pre-dryer may be part of an image forming device. Substrates, including paper, typically have high moisture content in normal atmospheric conditions. Such substrates may have a moisture content of about 10% water by weight, which is considered high for printing. Such high moisture content in image receiving substrates leads to various artifacts and extends heating times to take the substrate to its glossing temperature that are about four times longer than for dry media. This longer heating time translates to undesirably longer paper paths or nip lengths.

A vacuum roller system and a method of operating the vacuum roller system can include a group of vacuum rollers operable to move a sheet of media through a dryer. The vacuum rollers do not require a vacuum to be drawn between the vacuum rollers. Each vacuum roller can include a plenum operable to direct the vacuum to a top portion of the vacuum roller to drive the sheet of media from one roller to the next roller. The plenum can engage vacuum holes in a rotating vacuum roller when the vacuum holes in the vacuum roller are aligned with the plenum.

A clothes dryer including a cabinet, a drum rotatably supported in the cabinet, a supply port configured to guide air into the drum, an exhaust port configured to guide the air in the drum to an outside of the drum, and a lint removing apparatus configured to remove lint from the air passing through the exhaust port. Where the lint removing apparatus includes a lint filter configured to capture lint, a rotation member rotatably installed to scrape and collect the lint captured in the lint filer, a driving device configured to generate power, a first coupler connected to the driving device to receive the power from the driving device, and a second coupler coupled to the first coupler to transmit the power to the rotation member.

A method of manufacturing a fuel cell catalyst layer includes: coating a top surface of a sheet with a catalyst ink, wherein the catalyst ink includes an ionomer; and drying the catalyst ink on the sheet being conveyed along a conveying direction by spraying a center of an ultrasonic airflow toward a direction opposite to the conveying direction, wherein the ultrasonic airflow is obtained by applying ultrasonic waves to an airflow.

A method and apparatus for thermally processing material on a low-temperature substrate using pulsed light from a flash lamp is disclosed. Material is conveyed past the flash lamp. The pulses of light are formed by Pulse Width Modulation to tailor the shape of the pulses to generate a thermal gradient in the substrate that enables the material to be heated beyond the maximum working temperature of the substrate without damage. Its shaped pulse rate is synchronized to the conveyance speed of a conveyance system. By using the information from a feedback sensor, the thermal gradient is recalculated to alter the shape of the pulses in real time for optimizing subsequent curings in real time without powering down the curing apparatus. The combined pulse shaping and synchronization allow a temperature profile to be tailored in the sample that is uniformly cured in the conveyance direction.

A method and apparatus for thermally processing material on a low-temperature substrate using pulsed light from a flash lamp is disclosed. Material is conveyed past the flash lamp. The pulses of light are formed by Pulse Width Modulation to tailor the shape of the pulses to generate a thermal gradient in the substrate that enables the material to be heated beyond the maximum working temperature of the substrate without damage. Its shaped pulse rate is synchronized to the conveyance speed of a conveyance system. By using the information from a feedback sensor, the thermal gradient is recalculated to alter the shape of the pulses in real time for optimizing subsequent curings in real time without powering down the curing apparatus. The combined pulse shaping and synchronization allow a temperature profile to be tailored in the sample that is uniformly cured in the conveyance direction.

A vacuum roller system and a method of operating the vacuum roller system can include a group of vacuum rollers operable to move a sheet of media through a dryer. The vacuum rollers do not require a vacuum to be drawn between the vacuum rollers. Each vacuum roller can include a plenum operable to direct the vacuum to a top portion of the vacuum roller to drive the sheet of media from one roller to the next roller. The plenum can engage vacuum holes in a rotating vacuum roller when the vacuum holes in the vacuum roller are aligned with the plenum.

Provided are a surface drying device for a sheet-like non-permeable base material with enhanced drying efficiency on a surface of a sheet-like non-permeable base material having a liquid adhering to a surface thereof, and a printing apparatus and a printing method using the surface drying device. The surface drying device for a sheet-like non-permeable base material includes: a loading port for loading a sheet-like non-permeable base material with a liquid adhering surface; an air nozzle configured to spray high-temperature air; an unloading port for unloading the sheet-like non-permeable base material; an air shield zone forming portion, which is formed between the loading port and the unloading port, and is configured to form a heat-insulating air shield so as to cover the liquid adhering surface of the sheet-like non-permeable base material; and a retained air exhaust portion configured to exhaust retained air retained on the liquid adhering surface of the sheet-like non-permeable base material to outside of the air shield zone forming portion through use of a Coanda effect, to thereby replace liquid adhering surface air on the liquid adhering surface of the sheet-like non-permeable base material.