Intelligent bypass damper operation in an HVAC system with zones

What is claimed is: 1. An HVAC system comprising: an air handler that is configured to deliver conditioned air to at least one load zone of a plurality of load zones, a zone damper that is disposed in a supply duct that transports the conditioned air to the at least one load zone, the zone damped being configured to control an airflow of the conditioned air to the at least one load zone; a bypass damper that is associated with a virtual zone and disposed in a bypass duct that connects the supply duct to a return duct, a system controller that is coupled to the air handler, the zone damper, and the bypass zone damper, wherein the system controller is configured to: maintain a set point temperature and an actual temperature of the virtual zone such that the virtual zone will be used as a dump zone; execute an airflow reduction operation comprising at least one of reducing a total system airflow of the HVAC system by controlling a variable speed blower, adjusting setback zones of the HVAC system to dump the conditioned air, and/or staging down a capacity of the HVAC system when the airflow of the conditioned air to the at least one zone exceeds a maximum airflow value for the at least one zone; control the bypass damper to incrementally bypass a portion of the conditioned air to the virtual zone if the airflow of the conditioned air to the at least one zone exceeds a maximum airflow value for the at least one zone after executing the airflow reduction operation, wherein the portion of the conditioned air that is bypassed is a minimum amount of the conditioned air that is needed to reduce the airflow of the conditioned air to the at least one load zone below the maximum airflow value and keep the HVAC system running; and close the bypass damper when a measured temperature of the portion of the conditioned air that is bypassed from the supply duct exceeds a first threshold temperature. 2. The HVAC system of claim 1 , wherein the system controller is configured to: determine a relative size of the virtual zone using static pressure measurements, wherein the relative size of the virtual zone is representative of a share of a total system airflow that is delivered to the virtual zone when the bypass damper is in a fully open position. 3. An HVAC system comprising: an air handler that is configured to deliver conditioned air to at least one load zone of a plurality of load zones; a zone damper that is disposed in a supply duct that transports the conditioned air to the at least one load zone, the zone damped being configured to control an airflow of the conditioned air to the at least one load zone; a bypass damper that is associated with a virtual zone and disposed in a bypass duct that connects the supply duct to a return duct, a system controller that is coupled to the air handler, the zone damper, and the bypass zone damper, wherein the system controller is configured to: maintain a set point temperature and an actual temperature of the virtual zone such that the virtual zone will be used as a dump zone; generate a corrected position for each intermediate damper position of the bypass damper between a fully open position and a fully closed position for obtaining a linear behavior of an airflow of the portion of the conditioned air through the bypass damper, wherein the corrected position for each intermediate damper position of the bypass damper is generated by applying values of static pressure measurements across the HVAC system when the bypass damper is in the fully closed position, in the respective intermediate damper position, and in the fully open position to a mathematical model that is derived from a second fan law; control the bypass damper to incrementally bypass a portion of the conditioned air to the virtual zone when the airflow of the conditioned air to the at least one zone exceeds a maximum airflow value for the at least one zone, wherein the portion of the conditioned air that is bypassed is a minimum amount of the conditioned air that is needed to reduce the airflow of the conditioned air to the at least one load zone below the maximum airflow value and keep the HVAC system running; and close the bypass damper when a measured temperature of the portion of the conditioned air that is bypassed from the supply duct exceeds a first threshold temperature. 4. An HVAC system comprising: an air handler that is configured to deliver conditioned air to at least one load zone of a plurality of load zones; a zone damper that is disposed in a supply duct that transports the conditioned air to the at least one load zone, the zone damped being configured to control an airflow of the conditioned air to the at least one load zone; a bypass damper that is associated with a virtual zone and disposed in a bypass duct that connects the supply duct to a return duct, a system controller that is coupled to the air handler, the zone damper, and the bypass zone damper, wherein the system controller is configured to: maintain a set point temperature and an actual temperature of the virtual zone such that the virtual zone will be used as a dump zone; control the bypass damper to incrementally bypass a portion of the conditioned air to the virtual zone when the airflow of the conditioned air to the at least one zone exceeds a maximum airflow value for the at least one zone, wherein the portion of the conditioned air that is bypassed is a minimum amount of the conditioned air that is needed to reduce the airflow of the conditioned air to the at least one load zone below the maximum airflow value and keep the HVAC system running, wherein to control the bypass damper to incrementally bypass the portion of the conditioned air from the plenum to the virtual zone, the system controller is configured to adjust a damper position of the bypass damper to one of a plurality of corrected damper positions at which an airflow of the portion of the conditioned air through the bypass damper exhibits a linear behavior, wherein the one of the plurality of corrected damper positions is selected based on the minimum amount of the conditioned air that is to be bypassed to the virtual zone and a relative size of the virtual zone, wherein each corrected damper position of the plurality of corrected damper positions is calculated for a corresponding intermediate damper position of the bypass damper between a fully open position and a fully closed position, and wherein the corrected damper position for the corresponding intermediate damper position of the bypass damper is generated by applying values of static pressure measurements across the HVAC system when the bypass damper is in the fully closed position, in the intermediate damper position, and in the fully open position to a mathematical model that is derived from a second fan law; and close the bypass damper when a measured temperature of the portion of the conditioned air that is bypassed from the supply duct exceeds a first threshold temperature. 5. An HVAC system comprising: an air handler that is configured to deliver conditioned air to at least one load zone of a plurality of load zones; a zone damper that is disposed in a supply duct that transports the conditioned air to the at least one load zone, the zone damped being configured to control an airflow of the conditioned air to the at least one load zone; a bypass damper that is associated with a virtual zone and disposed in a bypass duct that connects the supply duct to a return duct, a system controller that is coupled to the air handler, the zone damper, and the bypass zone damper, wherein the system controller is configured to: maintain a set point temperature and an actual temperature of the virtual zone such that the virtual zone will be used as a dump zone, wherein to maintain the set point