Device for modifying a linear substrate

What is claimed is: 1. A method for modifying an aspect of a linear substrate, the method comprising: providing a processing barrel comprising a chamber defined therein, the processing barrel further comprising a linear substrate inlet into the chamber and a linear substrate outlet out of the chamber; defining an exposure gap between the linear substrate inlet and the linear substrate outlet, the linear substrate inlet and the linear substrate outlet being moveable between a plurality of relative positions each defining a different length of the exposure gap, wherein the length of the exposure gap is reconfigurable from zero to greater than zero; providing a modifying fluid comprising additives in the exposure gap; traversing a linear substrate across the exposure gap at a given speed to infuse additives to the linear substrate, wherein traversing the linear substrate through the device further comprises increasing or decreasing the given speed of the linear substrate; and adjusting the length of the exposure gap based on an acceleration of the linear substrate from the given speed due to the increase or the decrease in the given speed and a measurement of infusion level of the additives from the modifying fluid in the linear substrate exiting the exposure length, wherein adjusting the length of the exposure gap based on the acceleration of the linear substrate from the given speed comprises: increasing the length of the exposure gap with an increase in the acceleration of the of the linear substrate from the given speed; and decreasing the length of the exposure gap with a decrease in the acceleration of the of the linear substrate from the given speed. 2. The method of claim 1 , wherein the processing barrel further comprises an outer wall having opposing ends, wherein in a first relative position one of the linear substrate inlet and the linear substrate outlet being located between the opposing ends of the outer wall and the exposure gap having a first length that is greater than zero, in the first relative position the exposure gap being in fluid communication with the chamber. 3. The method of claim 2 , wherein and in a second relative position one of the linear substrate inlet and linear substrate outlet being in a different position than when in the first relative position, in the second relative position the exposure gap having a second length that is different from the first length. 4. The method of claim 1 , wherein the linear substrate inlet and the linear substrate outlet include seals. 5. The method of claim 1 , wherein the processing barrel further comprises a fluid inlet and a fluid outlet in fluid communication with the chamber, the linear substrate inlet and the linear substrate outlet being coupled to an outer wall of the processing barrel and being moveably connected with respect to each other. 6. The method of claim 1 , further comprising maintaining a constant exposure time of the linear substrate with the modifying fluid while traversing the exposure gap, wherein the chamber is filled with the modifying fluid comprising the additives. 7. The method of claim 6 , wherein maintaining the constant exposure time comprises increasing the length of the exposure gap upon the increase in the given speed. 8. The method of claim 6 , wherein maintaining the constant exposure time comprises decreasing the length of the exposure gap upon the decrease in the given speed. 9. The method of claim 1 , wherein providing the processing barrel comprising the chamber defined therein comprises providing an outer processing vessel having the longitudinal length and an inner processing vessel, the inner processing vessel and the outer processing vessel forming a nested arrangement along the longitudinal length with at least a portion of the chamber defined therebetween, the inner processing vessel being axially moveable relative the outer processing vessel. 10. A method for modifying an aspect of a linear substrate, the method comprising: providing a device comprising an outer processing vessel having a longitudinal length and an inner processing vessel, the inner processing vessel and the outer processing vessel forming a nested arrangement along the longitudinal length of the outer processing device, the device further comprising a linear substrate inlet and a linear substrate outlet; defining an exposure gap between the linear substrate inlet and the linear substrate outlet, the linear substrate inlet and the linear substrate outlet being moveable between a plurality of relative positions each defining a different length of the exposure gap, wherein the length of the exposure gap is reconfigurable from zero to greater than zero; providing a modifying fluid comprising additives in the exposure gap; traversing a linear substrate across the exposure gap at a given speed to infuse the additives to the linear substrate, wherein traversing the linear substrate through the device further comprises increasing or decreasing the given speed of the linear substrate; and adjusting a length of the exposure gap based on an acceleration of a linear substrate from the given speed due to the increase or the decrease of the given speed and a measurement of infusion level of the additives from the modifying fluid in the linear substrate exiting the exposure gap, wherein adjusting the length of the exposure gap based on the acceleration of the linear substrate from the given speed comprises: increasing the length of the exposure gap with an increase in the acceleration of the of the linear substrate from the given speed; and decreasing the length of the exposure gap with a decrease in the acceleration of the of the linear substrate from the given speed. 11. The method of claim 10 , wherein adjusting the length of the exposure gap comprises increasing the length of the exposure gap upon the increase in the given speed. 12. The method of claim 10 , wherein adjusting the length of the exposure gap comprises decreasing the length of the exposure gap upon the decrease in the given speed. 13. The method of claim 10 , wherein the outer processing vessel further comprises an outer wall having opposing ends, wherein in a first relative position one of the linear substrate inlet and the linear substrate outlet being located between the opposing ends of the outer wall and the exposure gap having a first length that is greater than zero. 14. The method of claim 13 , wherein and in a second relative position one of the linear substrate inlet and linear substrate outlet being in a different position than when in the first relative position, in the second relative position the exposure gap having a second length that is different from the first length.