Peristaltic pump and related methods

What is claimed is: 1 . A peristaltic pump for pumping a fluid, the peristaltic pump comprising: a flexible tube having inner and outer tubular opposed walls, the inner wall defining a through passage to receive the fluid; and a roller having an outer contact surface; wherein the peristaltic pump is configured to compress the flexible tube with the contact surface of the roller to thereby force the fluid through the through passage; and wherein at least the contact surface of the roller is formed of borosilicate glass. 2 . The peristaltic pump of claim 1 wherein the contact surface engages the outer surface of the tube to compress the flexible tube. 3 . The peristaltic pump of claim 1 wherein the roller is formed substantially entirely of borosilicate glass. 4 . The peristaltic pump of claim 1 including: a roller carrier; and a roller axle pip coupling the roller to the roller carrier; wherein the roller axle pin is formed of borosilicate glass. 5 . The peristaltic pump of claim 4 wherein the roller axle pin is stationary with respect to the roller carrier and the roller is rotatable about the roller axle pin. 6 . The peristaltic pump of claim 5 including a roller bushing mounted between the roller axle pin and the roller to permit relative rotation therebetween. 7 . The peristaltic pump of claim 4 wherein the roller axle pin is integral with the roller. 8 . The peristaltic pump of claim 1 wherein the roller includes: a core of a material other than borosilicate glass; and a cladding layer of borosilicate glass surrounding the core and forming the contact surface. 9 . The peristaltic pump of claim 1 including a plurality of rollers each having an outer contact surface formed of borosilicate glass, wherein the peristaltic pump is configured to compress the flexible tube with the contact surfaces of each of the rollers to thereby force the fluid through the through passage. 10 . The peristaltic pump of claim 9 including a roller carrier, wherein: the plurality of rollers are each rotatably mounted on the roller carrier; and the roller carrier is rotatable about a central axis such that the plurality of rollers orbit the central axis and sequentially compress the tube when the roller carrier is rotated about the central axis. cm 11 . A method for pumping a fluid, the method comprising: providing a peristaltic pump including; a flexible tube having inner and outer tubular opposed walls, the inner wall defining a through passage to receive the fluid; and a roller having an outer contact surface; wherein the peristaltic pump is configured to compress the flexible tube with the contact surface of the roller to thereby force the fluid through the through passage; and wherein at least the contact surface of the at least one roller is formed of borosilicate glass; and pumping the fluid through the flexible tube using the peristaltic pumping including compressing the flexible tube with the contact surface of the roller to thereby force the fluid through the through passage. 12 . The method of claim 11 wherein the fluid is corrosive or caustic to stainless steel. 13 . The method of claim 11 wherein the fluid is an acid. 14 . The method of claim 11 wherein pumping the fluid through the flexible tube using the peristaltic pump includes engaging the contact surface with the outer surface of the tube to compress the flexible tube. 15 . The method of claim 11 wherein the roller is formed substantially entirely of borosilicate glass. 16 . The method of claim 11 wherein the peristaltic pump includes: a roller carrier; and a roller axle pin coupling the roller to the roller carrier, wherein the roller axle pin is formed of borosilicate glass. 17 . The method of claim 16 wherein the roller axle pin is stationary with respect to the roller carrier and the roller is rotatable about the roller axle pin. 18 . The method of claim 17 wherein the peristaltic pump includes a roller bushing mounted between the roller axle pin and the roller to permit relative rotation therebetween. 19 . The method of claim 16 wherein the roller axle pin is integral with the roller. 20 . The method of claim 11 wherein the roller includes: a core of a material other than borosilicate glass; and a cladding layer of borosilicate glass surrounding the core and farming the contract surface. 21 . The method of claim 11 wherein; the peristaltic pump includes a plurality of rollers each having an outer contact surface formed of borosilicate glass; and pumping the fluid through the flexible tube using the peristaltic pump includes compressing the flexible tube with the contact surfaces of each of the rollers to thereby force the fluid through the through passage. 22 . The method of claim 21 wherein: the peristaltic pump includes a roller carrier; the plurality of rollers are each rotatably mounted on the roller carrier; and pumping the fluid through the flexible tube using the peristaltic pump includes rotating the roller carrier about a central axis such that the plurality of rollers orbit the central axis and sequentially compress the tube when the roller carrier is rotated about the central axis.