Device and method for heat pump based clothes dryer

What is claimed is: 1. A heat pump based dryer device comprising: a housing receiving a drum for containing associated articles to be dried by air that flows along a pathway between an outlet and an inlet of the housing; a heat pump located at least partially within the pathway; a spray nozzle operatively attached to the pathway at a position between the outlet and the heat pump, the spray nozzle being configured to provide a fluid to the air in the pathway and at least partially remove moisture from the air; and a collector within the pathway downstream from the spray nozzle between the spray nozzle and the heat pump to collect at least a portion of the fluid and at least a portion of the condensation within the pathway; wherein the heat pump includes: a heat source located at least partially within the pathway, wherein the heat source is a condenser, a heat sink spaced from the pathway such that the air along the pathway is in fluid isolation from the heat sink, the heat sink being operatively adapted to the heat source, wherein the heat sink is an evaporator, and an enclosure containing the heat sink and being arranged to accept the fluid from the pathway to exchange heat with the heat sink and return the fluid to the spray nozzle, wherein the heat source is positioned outside of the enclosure away from the heat sink; wherein the fluid collected by the collector is provided to a tank, at least a portion of the fluid is transferred to the enclosure, the tank having at least one drain valve. 2. The device of claim 1 , wherein a pump is provided to transport fluid to the pathway. 3. The device of claim 1 , wherein the collector comprises a cyclone shaped body adapted to receive the air and having a lint separator to separate lint from the air and providing the moisture removed from the air to the tank. 4. The device of claim 1 , wherein a supplemental enclosure is located within the pathway and at least partially about the heat source and a supplemental fluid is provided within the supplemental enclosure to transfer an excess heat from the heat source. 5. The device of claim 1 , wherein an air heater is provided upstream of the heat source, the air heater is controllable by a controller. 6. The device of claim 1 further comprising a thermal insulation layer at least partially covering the pathway and the heat pump. 7. The device of claim 1 , wherein the collector comprises an evaporative exchange media having a plurality of perforations, the fluid is provided on the evaporative exchange media creating a wet surface, the air passes over the wet surface that separates the moisture from the air by which the fluid and moisture is provided to the tank. 8. The device of claim 7 , wherein a lint separator is provided upstream of the heat source. 9. The device of claim 1 , wherein the heat pump further comprises an expansion valve and a compressor positioned in communication between the condenser and the evaporator whereby the expansion valve and compressor further manipulate the pressure and temperature of a refrigerant. 10. The device of claim 9 , wherein a fan is adapted to the pathway to circulate the air between the outlet and the inlet. 11. The device of claim 10 , further comprising a controller for controlling the heat pump based dryer device. 12. The device of claim 11 , further comprising at least one sensor for measuring at least one variable output, the controller configured to receive and process data representative of sensor readings measured by the sensor for controlling the heat pump based dryer device. 13. The device of claim 12 , wherein the controller is configured to manipulate the outputs of at least one of the fan, the compressor, a pump and the drain valve. 14. The device of claim 12 , wherein the controller selectively maintains a temperature of the fluid to be below a dew point of the air at the outlet of the housing. 15. The device of claim 14 , wherein the sensors are adapted to identify at least one of a temperature of the fluid as it leaves the enclosure, a temperature of the air adjacent to the outlet and a relative humidity of the air adjacent to the outlet. 16. A method of drying articles with a heat pump based dryer device comprising a housing receiving a drum for containing associated articles to be dried and having a condenser adapted to an evaporator for manipulating the temperature and pressure of a refrigerant, the evaporator comprising a return fluid heat exchanger, said method comprising the steps of: delivering hot dry air to the inlet of the housing; extracting hot humid air from the outlet of the housing; adding a fluid to the hot humid air in a pathway through a spray nozzle, the fluid having a temperature lower than the dew point of the hot humid air for dehumidifying the hot humid air within the pathway and creating condensation and cool dry air; collecting at least a portion of the fluid and at least a portion of the condensation within the pathway downstream from the spray nozzle; providing the at least a portion of the fluid and condensation to the evaporator return fluid heat exchanger, the evaporator return fluid heat exchanger being spaced from the pathway within an enclosure such that the air along the pathway is in fluid isolation from the evaporator return fluid heat exchanger; heating the cool dry air with the condenser within the pathway to create the hot dry air, the condenser being positioned outside of the enclosure; and returning the fluid having a temperature lower than the dew point of the hot humid air to the pathway and the hot dry air to the housing. 17. The method of claim 16 , wherein the step of adding a fluid to the air further comprises use of an evaporative exchange media having a plurality of perforations, the fluid is first added to the evaporative exchange media creating a wet surface, the air passes over the wet surface that at least partially separates the fluid and condensation from the air.