Systems and methods for operating a furnace

What is claimed is: 1. A method for operating a furnace, comprising: (a) activating a burner assembly and a first fan of the furnace to combust fuel and air and circulate combustion gases along a flow path extending through a heat exchanger of the furnace; (b) operating a second fan of the furnace to circulate air across an external surface of the heat exchanger of the furnace and produce a conditioned airflow; (c) estimating an airflow rate of the conditioned airflow based on two or more parameters of a motor of the second fan, wherein at least one of the two or more parameters is indicative of a speed of the motor of the second fan and at least another of the two or more parameters is indicative of a torque of the motor of the second fan; (d) deactivating the burner assembly, whereby combustion of the fuel and air in the furnace ceases, in response to an indication by a combination of the speed and torque parameters that the estimated airflow rate is less than a minimum airflow rate; and (e) placing the furnace in an idle mode, wherein the idle mode prevents the burner assembly from operating for a predetermined period of time. 2. The method of claim 1 , further comprising: issuing an alert to a user of the furnace in response to the indication that the estimated airflow rate is less than the minimum airflow rate. 3. The method of claim 1 , wherein the minimum airflow rate is predefined. 4. The method of claim 1 , further comprising: (g) operating the motor of the second fan at a speed and a torque that corresponds to a target rate of the conditioned airflow and a target temperature rise range; and (h) increasing the torque of the motor of the second fan in response to the two or more parameters indicating that the airflow rate is less than the target rate. 5. The method of claim 4 , wherein (d) comprises deactivating the burner assembly in response to the speed or the torque of the motor of the second fan being at or above a predefined threshold. 6. The method of claim 1 , wherein the at least one parameter indicative of the speed of the motor of the second fan includes current, and wherein the at least another parameter indicative of the torque of the motor of the second fan includes one or more of a counter electromotive force, a back electromotive force, or a voltage. 7. The method of claim 4 , wherein the target temperature rise range is between 30 degrees Fahrenheit (° F.) and 60° F. 8. A gas-fired furnace, comprising: a burner assembly configured to combust fuel and air to produce combustion gases; a first fan configured to circulate the combustion gases along a flow path extending through a heat exchanger of the furnace; a second fan configured to circulate air across an external surface of the heat exchanger to produce a conditioned airflow; and a controller configured to: activate the burner assembly and the first fan to combust the fuel and air and circulate the combustion gases along the flow path; operate the second fan to circulate the air across the external surface of the heat exchanger and produce the conditioned airflow; estimate an airflow rate of the conditioned airflow based on two or more parameters of a motor of the second fan, wherein at least one of the two or more parameters is indicative of a speed of the motor of the second fan and at least another of the two or more parameters is indicative of a torque of the motor of the second fan; deactivate the burner assembly whereby combustion of the fuel and air ceases in response to an indication by a combination of the speed and torque parameters that the estimated airflow rate is less than a minimum airflow rate; and place the furnace in an idle mode, wherein the idle mode prevents the burner assembly from operating for a predetermined period of time. 9. The furnace of claim 8 , wherein the controller is configured to issue an alert to a user of the furnace in response to the indication that the estimated airflow rate is less than the minimum airflow rate. 10. The furnace of claim 8 , wherein the minimum airflow rate is predefined. 11. The furnace of claim 8 , wherein the controller is configured to: operate the motor of the second fan at a speed and a torque that corresponds to a target rate of the conditioned airflow and a target temperature rise range; and increase the torque of the motor of the second fan in response to the two or more parameters indicating that the airflow rate is less than the target rate. 12. The furnace of claim 11 , wherein the controller is configured to deactivate the burner assembly in response to the speed or the torque of the motor of the second fan being at or above a predefined threshold. 13. The furnace of claim 8 , wherein the at least one parameter indicative of the speed of the motor of the second fan includes current, and wherein the at least another parameter indicative of the torque of the motor of the second fan includes one or more of a counter electromotive force, a back electromotive force, or a voltage. 14. The furnace of claim 11 , wherein the target temperature rise range is between 30 degrees Fahrenheit (° F.) and 60° F. 15. A non-transitory machine-readable medium including instructions that, when executed by a processor, cause the processor to: activate a burner assembly and a first fan of a furnace to combust fuel and air and circulate combustion gases along a flow path extending through a heat exchanger of the furnace; operate a second fan of the furnace to circulate air across an external surface of the heat exchanger of the furnace and produce a conditioned airflow; estimate an airflow rate of the conditioned airflow based on two or more parameters of a motor of the second fan, wherein at least one of the two or more parameters is indicative of a speed of the motor of the second fan and at least another of the two or more parameters is indicative of a torque of the motor of the second fan; deactivate the burner assembly, whereby combustion of the fuel and air ceases, in response to an indication by a combination of the speed and torque parameters that the estimated airflow rate is less than a minimum airflow rate; place the furnace in an idle mode, wherein the idle mode prevents the burner assembly from operating for a predetermined period of time. 16. The non-transitory machine-readable medium of claim 15 , wherein the instructions, when executed by the processor, further cause the processor to issue an alert to a user of the furnace in response to the indication that the estimated airflow rate is less than the minimum airflow rate. 17. The non-transitory machine-readable medium of claim 15 , wherein the instructions, when executed by the processor, further cause the processor to: operate the motor of the second fan at a speed and a torque that corresponds to a target rate of the conditioned airflow and a target temperature rise range; and increase the torque of motor of the second fan in response to the two or more parameters indicating that the airflow rate is less than the target rate. 18. The non-transitory machine-readable medium of claim 17 , wherein the instructions, when executed by the processor, further cause the processor to deactivate the burner assembly in response to the speed or the torque of the motor of the second fan being at or above a predefined threshold. 19. The non-transitory machine-readable medium of claim 15 , wherein the at least one parameter indicative of the speed of the motor of the second fan includes current, and wherein the at least anothe