Method and apparatus for improving heat transfer in industrial water systems with ferrofluids

We claim: 1. A method of managing equipment temperature comprising: preparing a ferrofluid; combining the ferrofluid with a water-based working fluid to produce an enhanced working fluid containing a mixture of the ferrofluid and the working fluid, wherein a heat capacity of the enhanced working fluid is greater than a heat capacity of the working fluid; circulating the enhanced working fluid containing the mixture through the equipment; and controlling heat transfer between the equipment and the enhanced working fluid in response to a sensed parameter relating to temperature by adjusting one or more of: (i) an enhanced working fluid flow rate through the equipment, and (ii) a concentration of ferrofluid in the circulating enhanced working fluid. 2. The method of managing equipment temperature according to claim 1 , further comprising; monitoring the concentration of the ferrofluid within the circulating enhanced working fluid. 3. The method of managing equipment temperature according to claim 2 , wherein the heat transfer between the equipment and the enhanced working fluid is controlled by adjusting the concentration of the ferrofluid within the circulating enhanced working fluid. 4. The method of managing equipment temperature according to claim 3 , further comprising: manufacturing additional ferrofluid as needed for addition to the enhanced working fluid. 5. The method of managing equipment temperature according to claim 1 , wherein: the equipment comprises a die. 6. The method of managing equipment temperature according to claim 5 , comprising: adjusting a temperature of the enhanced working fluid containing the mixture to within a target temperature range before circulating the enhanced working fluid through the die; introducing the enhanced working fluid into a continuous flow channel provided through the die, whereby the temperature of the die is modified by heat transfer between the die and the enhanced working fluid; and removing the enhanced working fluid from the flow channel provided through the die. 7. The method of managing equipment temperature according to claim 6 , wherein: the temperature of the enhanced working fluid containing the mixture is adjusted using a heat exchanger; and the enhanced working fluid flows sequentially through the die and the heat exchanger. 8. The method of managing equipment temperature according to claim 7 , wherein: the continuous flow channel is configured to prevent injection of the enhanced working fluid into a mold cavity defined by the die. 9. The method of managing equipment temperature according to claim 5 , comprising: passing the enhanced working fluid having a first temperature within an inlet temperature range into the die and removing the enhanced working fluid having a second temperature from the die; monitoring the second temperature of the enhanced working fluid exiting the die; and controlling flowpaths through a plurality of heat exchangers whereby the temperature of the enhanced working fluid exiting the die can be restored to the first temperature. 10. The method of managing equipment temperature according to claim 9 , wherein: at least a first heat exchanger is configured for heating the enhanced working fluid containing the mixture; and at least a second heat exchanger is configured for cooling the enhanced working fluid containing the mixture. 11. The method of managing equipment temperature according to claim 1 , further comprising: controlling the temperature of the enhanced working fluid. 12. The method of managing equipment temperature according to claim 11 , further comprising: adjusting the temperature of the enhanced working fluid in a heat exchanger, the heat exchanger being separated from the equipment. 13. The method of managing equipment temperature according to claim 1 , wherein the circulating the enhanced working fluid containing the mixture through the equipment comprises: contacting an internal surface of the equipment with a portion of the enhanced working fluid containing the mixture; and removing the portion of the enhanced working fluid containing the. mixture from the internal surface of the equipment. 14. The method of managing equipment temperature according to claim 1 , wherein the ferrofluid comprises a carrier fluid and iron oxide particles. 15. The method of managing equipment temperature according to claim 14 , wherein the iron oxide particles have a diameter of less than 100 nm. 16. The method of managing equipment temperature according to claim 14 , wherein a fluorescent dye is bound to surfaces of the iron oxide particles. 17. The method of managing equipment temperature according to claim 14 , wherein a concentration of iron in the ferrofluid is from 0.001% to 1.0%. 18. The method of managing equipment temperature according to claim 1 , wherein the concentration of ferrofluid in the enhanced working fluid is from 44 mg/L to 1142 mg/L. 19. The method of managing equipment temperature according to claim 1 , wherein the enhanced working fluid flow rate through the equipment is from 2 to 9 gallons per minute. 20. The method of managing equipment temperature according to claim 1 , wherein the heat capacity of the enhanced working fluid is from about 20% to about 40% greater than the heat capacity of the working fluid. 21. The method of managing equipment temperature according to claim 1 , wherein the ferrofluid is combined with the working fluid by pumping respective streams of the ferrofluid and the working fluid so that the streams are mixed into a combined stream constituting the enhanced working fluid. 22. A method of managing equipment temperature comprising: pumping respective streams of a ferrofluid and a water-based working fluid and combining the streams to provide an enhanced working fluid stream; circulating the enhanced working fluid stream through the equipment; and controlling heat transfer between the equipment and the enhanced working fluid stream in response to a sensed parameter relating to temperature by adjusting one or more of: (i) a fluid flow rate of the enhanced working fluid stream through the equipment, and (ii) a concentration of ferrofluid in the enhanced working fluid stream. 23. The method of managing equipment temperature according to claim 22 , wherein the working fluid includes water. 24. The method of managing equipment temperature according to claim 22 , wherein the respective streams of the ferrofluid and the working fluid are pumped with a pump.