Peristaltic pump with reduced triboelectric effects

What is claimed is: 1. A pump for use with a tube having a tube width, the pump, comprising: a rotor including a first roller and a second roller that define an orbital path about an axis of rotation of the rotor; and a roller bed including a surface having a groove, the groove comprising a circular arc segment that is symmetric about a plumb line axis and has a circular curvature, the roller bed being disposed relative to the rotor such that a separation distance along the plumb line axis between the orbital path and the surface equals a minimum separation distance between the orbital path and the surface, in which the groove comprises a first side segment that flanks the circular arc segment on a first side of the plumb line axis and has a first side-segment curvature that is less than the circular curvature, in which the groove further comprises a second side segment that flanks the circular arc segment on a second side of the plumb line axis and has a second side-segment curvature that is less than the circular curvature, in which the circular arc segment and the first side segment taper together at a first point, and the circular arc segment and the second side segment taper together at a second point, and in which a maximum depth of the groove ranges between about one tenth of the tube width to about one half of the tube width. 2. The pump of claim 1 , in which at least a portion of the tube is disposed in the groove and compressed by at least one of the first roller and the second roller. 3. The pump of claim 1 , in which the first side segment curvature comprises a first tapered curvature that is greater closer to the plumb line axis and lesser further from the plumb line axis. 4. The pump of claim 1 , in which the plumb line axis intersects the axis of rotation of the rotor. 5. The pump of claim 1 , in which the second side segment curvature comprises a second tapered curvature that is greater closer to the plumb line axis and lesser further from the plumb line axis. 6. The pump of claim 1 , in which the maximum depth of the groove equals about one third of the tube width. 7. The pump of claim 1 , in which the groove includes a textured surface. 8. The pump of claim 7 , in which the textured surface comprises a mesh layer bonded to the groove. 9. A pump, comprising: a rotor including a first roller and a second roller that define an orbital path about an axis of rotation of the rotor, a roller bed including a surface having a groove, the groove comprising a circular arc segment that is symmetric about a plumb line axis, the roller bed being disposed relative to the rotor such that a separation distance along the plumb line axis between the orbital path and the surface equals a minimum separation distance between the orbital path and the surface; an engagement member connected to the roller bed; and at least a portion of a tube disposed in the groove, in which the first roller contacts the tube at a point along the plumb line axis such that the tube is subject to a maximum compression along the plumb line axis, in which the groove has a maximum depth beneath the surface at the plumb line axis, and in which the maximum depth of the groove ranges between about one tenth of the tube width to about one half of the tube width. 10. The pump of claim 9 , in which the maximum depth of the groove equals about one third of the tube width. 11. The pump of claim 9 , in which the groove further comprises: a first side segment that flanks the circular arc segment on a first side of the plumb line axis and has a first side-segment curvature that is less than the curvature of the circular arc segment; and a second side segment that flanks the circular arc segment on a second side of the plumb line axis and has a second side-segment curvature that is less than the curvature of the circular arc segment.