Efficient transfer of heat to passenger cabin

What is claimed is: 1. A method of transferring thermal energy to air distributed to a passenger cabin of a vehicle, the vehicle powered by a rechargeable power source, the method comprising the steps of: adding thermal energy to a thermal storage element during a charging of the rechargeable power source; and transferring thermal energy from the thermal storage element to the air distributed to the passenger cabin following a discontinuation of the charging of the rechargeable power source, wherein a first fluid transfers the thermal energy from the thermal storage element to the air distributed to the passenger cabin, wherein the first fluid flows through a first heat exchanger in thermal communication with the air distributed to the passenger cabin, wherein the first heat exchanger is disposed in a housing having the air distributed to the passenger cabin flowing therethrough, and wherein the first heat exchanger is disposed in the housing upstream of a cooling device and a heating device with respect to a direction of flow of the air distributed to the passenger cabin through the housing. 2. The method of claim 1 , wherein the first fluid is at least partially formed from glycol. 3. The method of claim 1 , wherein the first fluid is circulated through a coolant circuit including the thermal storage element, and wherein the first heat exchanger is disposed on a conditioning branch extending from the coolant circuit. 4. A method of transferring thermal energy to air distributed to a passenger cabin of a vehicle, the vehicle powered by a rechargeable power source, the method comprising the steps of: adding thermal energy to a thermal storage element during a charging of the rechargeable power source; and transferring thermal energy from the thermal storage element to the air distributed to the passenger cabin following a discontinuation of the charging of the rechargeable power source, wherein the thermal energy is added to the thermal storage element by flowing a first fluid through the thermal storage element. 5. The method of claim 4 , wherein the first fluid flows through a fluid heater before the first fluid flows through the thermal storage element. 6. A method of transferring thermal energy to air distributed to a passenger cabin of a vehicle, the vehicle powered by a rechargeable power source, the method comprising the steps of: adding thermal energy to a thermal storage element during a charging of the rechargeable power source; and transferring thermal energy from the thermal storage element to the air distributed to the passenger cabin following a discontinuation of the charging of the rechargeable power source, wherein the rechargeable power source is charged by a power source independent of the vehicle, wherein the adding of the thermal energy to the thermal storage element includes operation of a pump and a fluid heater, wherein the pump and the fluid heater are powered by the power source independent of the vehicle during the charging of the rechargeable power source. 7. The method of claim 6 , wherein the rechargeable power source is a battery powering an electric motor of the vehicle. 8. The method of claim 6 , wherein the fluid heater is not operated and the pump is operated during the transferring of the thermal energy from the thermal storage element to the air distributed to the passenger cabin, wherein the pump is powered by the rechargeable power source following discontinuation of the charging of the rechargeable power source. 9. The method of claim 1 , wherein an electric heating device adds thermal energy to the air distributed to the passenger cabin following the discontinuation of the charging of the rechargeable power source. 10. The method of claim 1 , wherein the transferring of the thermal energy from the thermal storage element to the air distributed to the passenger cabin occurs during operation of the vehicle, and wherein the vehicle is powered exclusively by the rechargeable power source. 11. The method of claim 1 , wherein the thermal storage element is a heat conductive structure having a first fluid flowing therethrough, the first fluid transferring the thermal energy from the thermal storage element to the air distributed to the passenger cabin. 12. The method of claim 1 , wherein the thermal storage element is a structure having a thermal energy storage material disposed therein, the thermal energy storage material exchanging thermal energy with a first fluid transferring the thermal energy from the thermal storage element to the air distributed to the passenger cabin.