Heat pump system having a pre-processing module

What is claimed is: 1. A heat pump system for conditioning air in a space, the system comprising: a supply air channel configured to receive air and discharge supply air into the space, wherein the supply air channel has a supply air inlet and supply air outlet; a regeneration air channel configured to receive regeneration air from the space and discharge exhaust air, the regeneration air channel and the supply air channel separated by a partition, wherein the regeneration air channel has a regeneration air inlet and a regeneration air outlet; a regeneration air heat exchanger positioned in the regeneration air channel, the regeneration air heat exchanger is configured to remove heat from the regeneration air during a heating cycle, the regeneration air heat exchanger discharging exhaust air; and at least one recirculation damper positioned within the partition, wherein the at least one recirculation damper is configured to be opened during a defrost cycle to provide a recirculation loop of regeneration air that recirculates through a defrost airflow path that includes at least a portion of a pre-processing segment of the supply air channel and at least a portion of a downstream segment of the regeneration air channel, wherein the recirculation loop of exhaust air removes frost from the regeneration air heat exchanger during the defrost cycle. 2. The heat pump system of claim 1 , wherein the at least one recirculation damper comprises first and second recirculation dampers. 3. The heat pump system of claim 1 , further comprising: an inlet damper disposed within the supply air channel proximate the supply inlet, wherein the inlet damper is closed during the defrost cycle and open during the heating cycle; and an outlet damper disposed within the regeneration air channel proximate the regeneration outlet, wherein the outlet damper is closed during the defrost cycle and open during the heating cycle. 4. The heat pump system of claim 1 , further comprising a preheater disposed within the supply air channel, wherein the recirculation loop of regeneration air passes through the preheater during the defrost cycle. 5. The heat pump system of claim 1 , further comprising a humidifier disposed within the supply air channel, wherein the recirculation loop of regeneration air passes through the humidifier during the defrost cycle. 6. The heat pump system of claim 1 , further comprising an energy recovery module having a supply air side positioned in the supply air channel and a regeneration air side positioned in the regeneration air channel, the regeneration air side of the energy recovery module being configured to remove heat and moisture from the regeneration air in the regeneration air channel during the heating cycle. 7. The heat pump system of claim 6 , further comprising a pre-processing module positioned in the regeneration air channel between the regeneration air side of the energy recovery module and the regeneration air heat exchanger, the pre-processing module is configured to heat the regeneration air from the energy recovery module during the heating cycle to prevent frost from forming on the regeneration air heat exchanger. 8. The heat pump system of claim 1 further comprising a compressor configured to condition a refrigerant flowing through the regeneration air heat exchanger. 9. The heat pump system of claim 8 , further comprising a head pressure control valve operatively connected to the compressor, wherein the head pressure control valve is configured to be engaged to ensure proper functioning of the compressor. 10. The heat pump system of claim 1 , further comprising a refrigerant path connected to the regeneration air heat exchanger, wherein a valve is disposed within the refrigerant path, and wherein the valve is closed during the heating cycle and open during the defrost cycle. 11. The heat pump system of claim 10 , wherein the valve comprises a solenoid valve. 12. The heat pump system of claim 1 , further comprising a hot gas reheat coil connected to the regeneration air heat exchanger through a refrigerant path. 13. The heat pump system of claim 1 , further comprising: at least one supply air fan within the supply air channel; and at least one regeneration air fan within the regeneration air channel. 14. The heat pump system of claim 1 , further comprising a control system configured to selectively operate the heat pump system between the heating cycle and the defrost cycle. 15. The heat pump system of claim 14 , wherein the heating cycle occurs over a first period of time, and wherein the defrost cycle occurs over a second period of time, wherein the second period of time is shorter than the first period of time. 16. The heat pump system of claim 15 , wherein the second period of time is between 10-20% the first period of time. 17. The heat pump system of claim 1 , wherein an entirety of the defrost airflow path is contained within the heat pump system.