Heat transfer unit and method for prefabricated vessel

What is claimed is: 1. A heat transfer unit for a prefabricated vessel, the heat transfer unit comprising: a central rod; a plurality of peripheral rods surrounding the central rod and connected to the central rod, each of the plurality of peripheral rods extending between a first end and a second end, the first end and second end of each of the plurality of peripheral rods connected to the central rod, the plurality of peripheral rods movable between a first collapsed position and a second bowed position, wherein in the second bowed position a midpoint of each of the plurality of peripheral rods is spaced from the central rod relative to in the first position, and wherein a distance between the first end and second end of each of the plurality of peripheral rods in the second bowed position is less than a distance between the first end and second end of that peripheral rod in the first collapsed position, and wherein each of the plurality of peripheral rods is biased towards the second position when in the first position such that each of the plurality of rods returns to the second position when not under the influence of an external biasing force or wherein each of the plurality of peripheral rods is biased towards the first position when in the second position such that each of the plurality of rods returns to the first position when not under the influence of an external biasing force; and a heat transfer element connected to one of the plurality of peripheral rods. 2. The heat transfer unit of claim 1 , wherein the central rod comprises a male portion and a female portion, at least a portion of the male portion insertable into the female portion. 3. The heat transfer unit of claim 2 , wherein the male portion is inserted into the female portion as the plurality of peripheral rods are moved from the first collapsed position to the second bowed position. 4. The heat transfer unit of claim 2 , wherein the male portion comprises an outer thread and the female portion comprises a mating inner thread. 5. The heat transfer unit of claim 1 , wherein the plurality of peripheral rods are in tension when in the first collapsed position. 6. The heat transfer unit of claim 1 , wherein the plurality of peripheral rods are in compression when in the second bowed position. 7. The heat transfer unit of claim 1 , wherein the heat transfer element is a plurality of heat transfer elements. 8. The heat transfer unit of claim 1 , wherein the heat transfer element comprises a wire. 9. The heat transfer unit of claim 1 , wherein the heat transfer element comprises a tube. 10. The heat transfer unit of claim 1 , wherein the heat transfer element comprises a ribbon. 11. The heat transfer unit of claim 1 , wherein the heat transfer element comprises a coiled wire. 12. The heat transfer unit of claim 1 , wherein the heat transfer element extends between and is connected to the one of the plurality of peripheral rods and one of the central rod or another one of the plurality of peripheral rods. 13. The heat transfer unit of claim 1 , further comprising a hinge connecting the heat transfer element to the peripheral rod. 14. The heat transfer unit of claim 1 , further comprising a sleeve connecting the heat transfer element to the peripheral rod. 15. The heat transfer unit of claim 1 , further comprising an auxiliary device coupled to one of the plurality of peripheral rods. 16. A vessel assembly, comprising: a prefabricated vessel comprising a shell, the shell defining an interior; and a heat transfer unit insertable into the interior of the prefabricated vessel, the heat transfer unit comprising: a central rod; a plurality of peripheral rods surrounding the central rod and connected to the central rod, each of the plurality of peripheral rods extending between a first end and a second end, the first end and second end of each of the plurality of peripheral rods connected to the central rod, the plurality of peripheral rods movable between a first collapsed position and a second bowed position, wherein in the second bowed position a midpoint of each of the plurality of peripheral rods is spaced from the central rod relative to in the first position, and wherein a distance between the first end and second end of each of the plurality of peripheral rods in the second bowed position is less than a distance between the first end and second end of that peripheral rod in the first collapsed position, and wherein each of the plurality of peripheral rods is biased towards the second position when in the first position such that each of the plurality of rods returns to the second position when not under the influence of an external biasing force or wherein each of the plurality of peripheral rods is biased towards the first position when in the second position such that each of the plurality of rods returns to the first position when not under the influence of an external biasing force; and a heat transfer element connected to one of the plurality of peripheral rods. 17. A method for facilitating heat transfer in a prefabricated vessel, the method comprising: inserting a heat transfer unit into the prefabricated vessel, the heat transfer unit comprising a central rod, a plurality of peripheral rods surrounding the central rod, and a heat transfer element, each of the plurality of peripheral rods extending between a first end and a second end, the first end and second end of each of the plurality of peripheral rods connected to the central rod; deploying the unit from a first collapsed position to a second bowed position, wherein in the second bowed position a midpoint of each of the plurality of peripheral rods is spaced from the central rod relative to in the first position, and wherein a distance between the first end and second end of each of the plurality of peripheral rods in the second bowed position is less than a distance between the first end and second end of that peripheral rod in the first collapsed position, and wherein each of the plurality of peripheral rods is biased towards the second position when in the first position such that each of the plurality of rods returns to the second position when not under the influence of an external biasing force or wherein each of the plurality of peripheral rods is biased towards the first position when in the second position such that each of the plurality of rods returns to the first position when not under the influence of an external biasing force; and activating the heat transfer element. 18. The method of claim 17 , wherein the deploying step comprises de-tensioning the plurality of peripheral rods. 19. The method of claim 17 , wherein the deploying step comprises compressing the plurality of peripheral rods. 20. The method of claim 17 , wherein the deploying step comprises inserting a male portion of the central rod into a female portion of the central rod.