Controlling refrigerant and air mass flow rate based on moisture extraction rate in a dryer appliance

What is claimed is: 1. A dryer appliance, comprising: a cabinet; a drum rotatably mounted within the cabinet, the drum defining a chamber for receipt of articles for drying, the drum defining a drum outlet and a drum inlet to the chamber; a conditioning system; a duct system for providing fluid communication between the drum outlet and the conditioning system and between the conditioning system and the drum inlet, the duct system, the conditioning system, and the drum defining a process air flowpath; a blower fan operable to move process air along the process air flowpath; a collection tank in fluid communication with the conditioning system for receiving condensate water from process air flowing through the conditioning system; a drain pump in fluid communication with the collection tank, the drain pump being operable to remove a volume of water from the collection tank; a controller communicatively coupled with the drain pump, wherein during a drying cycle, the controller is configured to: receive an input indicative of a rate at which water is removed from process air by the conditioning system, wherein the input indicative of the rate at which water is removed from process air by the conditioning system is descriptive of a pump activation frequency of the drain pump, the pump activation frequency being indicative of a frequency at which the drain pump is activated to remove water from the collection tank; determine a moisture extraction rate indicative of a rate at which moisture is removed from articles within the chamber based at least in part on the received input indicative of the rate at which water is removed from process air by the conditioning system; determine a fabric type of articles disposed within the chamber based at least in part on the pump activation frequency; and cause adjustment of one or more drying cycle settings based at least in part on the determined moisture extraction rate and on the determined fabric type of articles disposed within the chamber. 2. The dryer appliance of claim 1 , further comprising: a sensor operable to detect when water within the collection tank has reached a predetermined level, the sensor being communicatively coupled with the controller, and wherein the controller is further configured to: receive, from the sensor, an input indicating that water within the collection tank has reached the predetermined level; in response to the input indicating that water within the collection tank has reached the predetermined level, cause the drain pump to remove the volume of water from the collection tank. 3. The dryer appliance of claim 1 , wherein the drying cycle includes a warm up state, a steady state, and a diminished drying state, and wherein the controller is configured to iteratively: receive inputs indicative of the pump activation frequency of the drain pump; determine the moisture extraction rate indicative of the rate at which moisture is removed from articles within the chamber based at least in part on the received inputs indicative of the pump activation frequency of the drain pump; and cause automatic adjustment of the one or more drying cycle settings based at least in part on the determined moisture extraction rate during at least the steady state and the diminished drying state of the drying cycle. 4. The dryer appliance of claim 3 , wherein the steady state of the drying cycle is indicative of a part of the drying cycle in which an article water dissipation rate exceeds the moisture extraction rate, the article water dissipation rate being indicative of a rate at which articles within the chamber dissipate water to process air flowing along the process air flowpath, and wherein the diminished drying state of the drying cycle is indicative of a part of the drying cycle in which the moisture extraction rate exceeds the article water dissipation rate. 5. The dryer appliance of claim 1 , further comprising: a flow meter communicatively coupled with the controller and operable to measure a flow rate of condensate water draining from process air flowing through the conditioning system to the collection tank, wherein the input indicative of the rate at which water is removed from process air by the conditioning system is descriptive of the flow rate of condensate water draining from process air flowing through the conditioning system to the collection tank, and wherein the controller determines the moisture extraction rate based at least in part on the flow rate of condensate water draining from process air flowing through the conditioning system to the collection tank. 6. The dryer appliance of claim 1 , wherein in causing adjustment of the one or more drying cycle settings based at least in part on the determined fabric type of articles disposed within the chamber, the controller is configured to: cause adjustment of a drying cycle time of the drying cycle. 7. The dryer appliance of claim 1 , wherein the conditioning system has an electric heater positioned to provide heat to process air flowing along the process air flowpath, and wherein in causing adjustment of the one or more drying cycle settings based at least in part on the determined fabric type of articles disposed within the chamber, the controller is configured to: cause the electric heater to adjust a heat input to process air flowing along the process air flowpath. 8. The dryer appliance of claim 1 , wherein the conditioning system has a sealed system along which a refrigerant flows, and wherein in causing adjustment of the one or more drying cycle settings based at least in part on the determined moisture extraction rate, the controller is configured to: cause adjustment of a mass flow rate of the refrigerant flowing along the sealed system. 9. The dryer appliance of claim 8 , wherein the sealed system has a variable speed compressor operable to move the refrigerant along the sealed system, and wherein in causing adjustment of the mass flow rate of the refrigerant flowing along the sealed system based at least in part on the determined moisture extraction rate, the controller is configured to: cause the variable speed compressor to adjust the mass flow rate of the refrigerant flowing along the sealed system. 10. The dryer appliance of claim 8 , wherein the sealed system has an electronic expansion valve operable to adjust a pressure of the refrigerant flowing along the sealed system, and wherein in causing adjustment of the mass flow rate of the refrigerant flowing along the sealed system based at least in part on the determined moisture extraction rate, the controller is configured to: cause the electronic expansion valve to adjust the pressure of the refrigerant flowing along the sealed system based at least in part on the determined moisture extraction rate, wherein when the electronic expansion valve adjusts the pressure of the refrigerant, the mass flow rate of the refrigerant is adjusted. 11. The dryer appliance of claim 1 , wherein in causing adjustment of the one or more drying cycle settings based at least in part on the determined moisture extraction rate, the controller is configured to: cause adjustment of a mass flow rate of process air flowing along the process air flowpath. 12. The dryer appliance of claim 11 , wherein in adjustment of a mass flow rate of process air flowing along the process air flowpath based at least in part on the determined moisture extraction rate, the controller is configured to: cause the blower fan to adjust the mass flow rate of process air flowing along the process air flowpath based at least in part on the determined moisture extraction rate. 13. The dryer