Froth heaters

What is claimed is: 1. A froth heater, comprising: an outer case defining an inner cavity, an inlet in fluid communication with the inner cavity, and an outlet in fluid communication with the inner cavity; and a heater core inserted into the inner cavity and configured to form a flow path between an inner wall of the outer case and the heater core between the inlet and the outlet, wherein the heater core includes a core cavity configured to receive a heater therein to heat the heater core, wherein the heater core includes a plurality of channels defined on an outer diameter thereof including a first channel and a second channel, wherein the flow path is defined by the inner wall of the outer case and the plurality of channels, wherein the plurality of channels are circumferentially defined around the heater core, wherein the first channel includes circumferential rings in fluid communication with adjacent circumferential rings via one or more axial passageways defined through dividing walls of the first channel, wherein the circumferential rings are defined in a first axial fraction of the heater core, wherein the second channel includes a spiral channel is-defined at least in a second axial fraction of the heater core. 2. The froth heater of claim 1 , further comprising the heater disposed within the core cavity. 3. The froth heater of claim 1 , wherein the plurality of channels include a reducing flow area from the inlet toward the outlet. 4. The froth heater of claim 1 , wherein the inner cavity is defined through the outer case to form a first opening and a second opening, further comprising a first enclosure plate disposed over the first opening and configured to prevent movement of the heater core and the heater through the first opening. 5. The froth heater of claim 4 , further comprising a second enclosure assembly disposed over the second opening and configured to prevent movement of both the heater core and the heater through the second opening in a first state, and to allow the heater to be removed through the second opening while continuing to prevent movement of the heater core through the second opening in a second state. 6. The froth heater of claim 5 , wherein the second enclosure assembly includes a wide plate attached to the outer case configured to allow the heater to be removed through the second opening while continuing to prevent movement of the heater core through the second opening, and a narrow plate disposed over the wide plate configured to prevent motion of the heater through the second opening. 7. The froth heater of claim 6 , wherein in the first state, the narrow plate is disposed over the wide plate, wherein in the second state, the narrow plate is removed from the wide plate. 8. The froth heater of claim 7 , wherein the narrow plate is configured to share one or more shared fasteners with the wide plate, wherein the one or more shared fasteners are less than all fasteners used to attach the wide plate to the outer case such that when the shared fasteners are removed, the narrow plate can be removed from the wide plate while the wide plate remains attached to the outer case. 9. The froth heater of claim 8 , wherein the wide plate is attached to the outer case with two independent fasteners, and two shared fasteners diametrically opposed from each other. 10. The froth heater of claim 9 , further comprising one or more seals disposed at each end of the heater core to seal the heater core against the first enclosure plate and/or the inner wall at a first end, and to seal the heater core against the wide plate and/or the inner wall at a second end. 11. The froth heater of claim 10 , wherein the one or more seals include a dual seal arrangement at each end of the heater core, wherein the dual seal arrangement includes a face seal configured to be compressed between the heater core and a respective enclosure plate and/or the inner wall, wherein the face seal is not nested in the heater core. 12. The front heater of claim 11 , wherein the dual seal arrangement at each end of the heater core includes a ring seal nested in a seal channel of the heater core and configured to provide a sealing force less than the face seal to allow the heater core to slide relative to the outer case. 13. The froth heater of claim 12 , wherein the dual seal arrangement has different sizes at each end of the heater core to allow low friction insertion and removal. 14. The froth heater of claim 13 , wherein the outer case includes a section of reduced inside diameter for the reduced diameter of one of the ring seals.