Heat pump with restorative operation for magneto caloric material

What is claimed is: 1. A method of operating a heat pump system, the heat pump system comprising a heat transfer fluid, a first heat exchanger, a second heat exchanger, and magneto caloric material having an original Curie temperature range, ΔT OC , the method comprising: circulating the heat transfer fluid through the first heat exchanger, the second heat exchanger, and the magneto caloric material at a rate of flow; heating the heat transfer fluid flowing through the first heat exchanger during the circulating; cooling the heat transfer fluid flowing through the second heat exchanger during the circulating; reducing the rate of flow of the heat transfer fluid to a lower rate of flow through the first heat exchanger, the second heat exchanger, and the magneto caloric material after the circulating has caused a degradation such that the magneto caloric material has a Curie temperature range different from the original Curie temperature range ΔT OC ; cooling the heat transfer fluid flowing through the first heat exchanger after the reducing; restoring the Curie temperature range of the magneto caloric material to the original Curie temperature range ΔT OC ; and increasing the rate of flow of the heat transfer fluid after the restoring. 2. The method of operating a heat pump system as in claim 1 , wherein the restoring comprises using the heat transfer fluid to heat the magneto caloric material to one or more temperatures above the original Curie temperature range ΔT OC . 3. The method of operating a heat pump system as in claim 1 , wherein the restoring comprises using the heat transfer fluid to cool the magnetic caloric material to one or more temperatures below the original Curie temperature range ΔT OC . 4. The method of operating a heat pump system as in claim 1 , wherein the original Curie temperature range ΔT OC includes an original peak Curie temperature, T OC , and wherein the restoring comprises maintaining the temperature of the magneto caloric material at one or more temperatures that are at least 10 degrees Celsius above or below the original peak Curie temperature, T OC . 5. The method of operating a heat pump system as in claim 1 , wherein the original Curie temperature range ΔT OC includes an original peak Curie temperature, T OC , and wherein the restoring comprises maintaining the temperature of the magneto caloric material at one or more temperatures that are at least 5 degrees Celsius above or below the original peak Curie temperature, T OC . 6. The method of operating a heat pump system as in claim 1 , wherein the original Curie temperature range ΔT OC includes a peak Curie temperature, T CP , and wherein the restoring comprises restoring the magneto caloric material to within 5 degrees Celsius or less of the peak Curie temperature, T CP , of the original Curie temperature range ΔT OC . 7. The method of operating a heat pump system as in claim 1 , wherein the original Curie temperature range ΔT OC includes a peak Curie temperature, T CP , wherein the restoring comprises restoring the magneto caloric material to within 2 degrees Celsius or less of the peak Curie temperature, T CP , of the original Curie temperature range ΔT OC . 8. The method of operating a heat pump system as in claim 1 , further comprising repeating the restoring at predetermined time intervals. 9. The method of operating a heat pump system as in claim 1 , further comprising transferring heat into a compartment of a refrigerator during the heating the heat transfer fluid flowing through the first heat exchanger.