Energy efficient dryer systems

What is claimed: 1. A dryer, comprising: a housing; a drying chamber disposed within the housing; a heating element coupled to the housing; an intake configured to supply intake air to the drying chamber; an exhaust vent configured to vent exhaust air out of the drying chamber; a heat exchanger; and a heat pump having a condenser; wherein the intake, the drying chamber, and the exhaust vent define an air flow path from the intake through the drying chamber and out the exhaust vent; wherein the heat exchanger and the heat pump are each configured to absorb thermal energy from the exhaust air and transfer the thermal energy to the intake air; wherein the air flow path is configured such that the intake air is heated directly or indirectly by the heat exchanger prior to the intake air being further heated directly or indirectly by the condenser; and wherein the air flow path is configured such that the intake air is heated directly or indirectly by the condenser prior to the intake air entering the drying chamber. 2. The dryer of claim 1 wherein the heat pump includes an evaporator. 3. The dryer of claim 2 wherein the air flow path is configured such that the exhaust air leaving the drying chamber is cooled directly or indirectly by the evaporator prior to the exhaust air transferring thermal energy to the heat exchanger. 4. The dryer of claim 3 wherein the air flow path is configured such that the exhaust air is further cooled directly or indirectly by the heat exchanger prior to exiting the exhaust vent. 5. The dryer of claim 3 wherein the exhaust air is at least partially cooled directly or indirectly by the heat exchanger while still being cooled directly or indirectly by the evaporator. 6. The dryer of claim 1 wherein the intake air is at least partially heated directly or indirectly by the condenser while still being heated directly or indirectly by the heat exchanger. 7. The dryer of claim 1 , wherein the air flow path is configured to pass the intake air over the heating element after the intake air has been heated directly or indirectly by the heat exchanger. 8. The dryer of claim 1 , wherein the air flow path is configured to pass the intake air over the heating element after the intake air has been heated directly or indirectly by the heat pump. 9. The dryer of claim 1 further comprising a controller configured to receive a user input corresponding to a mode of operation for the dryer, wherein the controller is configured to adjust the heating element and adjust an operating parameter of the heat pump in response to the user input. 10. The dryer of claim 9 further comprising a sensor configured to provide a feedback signal indicative of an air temperature to the controller. 11. The dryer of claim 10 wherein the heat pump includes an evaporator and a compressor; wherein the operating parameter of the heat pump is a compressor pressure; and wherein the controller adjusts the compressor pressure in response to the feedback signal indicative of the air temperature. 12. The dryer of claim 9 further comprising a humidity sensor configured to provide a feedback signal indicative of an air humidity to the controller. 13. The dryer of claim 12 wherein the heat pump includes an evaporator and a compressor; wherein the operating parameter of the heat pump is a compressor pressure; and wherein the controller adjusts the compressor pressure in response to the feedback signal indicative of the air humidity. 14. The dryer of claim 1 , further comprising an airflow channel configured to route air from the exhaust vent back to the intake. 15. A dryer, comprising: a housing; a drying chamber disposed within the housing; a heating element coupled to the housing; an intake configured to supply intake air to the drying chamber; an exhaust vent configured to vent exhaust air out of the drying chamber; a heat exchanger; and a heat pump having a condenser, an evaporator, and a compressor; wherein the intake, the drying chamber, and the exhaust vent define an air flow path from the intake through the drying chamber and out the exhaust vent; wherein the heat exchanger is configured to absorb thermal energy from the exhaust air and to transfer the absorbed thermal energy to the intake air; wherein the heat pump is configured to absorb thermal energy from the exhaust air via the evaporator and to transfer the thermal energy to the intake air via the condenser; wherein the air flow path is configured such that the intake air is heated by the heat exchanger prior to the intake air being further heated by the condenser; and wherein the air flow path is configured such that the intake air is heated by the condenser prior to the intake air being heated by the heating element and the intake air entering the drying chamber.