HVAC system with multi-state predictive free cooling control

What is claimed is: 1. A heating, ventilation, or air conditioning (HVAC) control system comprising: equipment configured to: produce a resource by mechanical cooling by executing a first process when operating in a first state; and produce the resource by free cooling by executing a second process when operating in a second state; and a controller configured to: predict whether the second process will be available for at least a minimum second state operating time during a plurality of future time steps, wherein availability of the second process is determined based on outside air temperature; transition the equipment from operating in the first state to operating in the second state in response to a prediction that the second process will be available for at least the minimum second state operating time; and transition the equipment from operating in the second state to operating in a third state during which the equipment does not produce the resource in response to a determination that the second process is unavailable and predicted to remain unavailable for less than a minimum first state operating time required to transition back to the first state. 2. The HVAC control system of claim 1 , wherein the controller is configured to calculate the minimum second state operating time by: identifying a cost incurred as a result of transitioning the equipment into the second state; estimating a cost savings resulting from operating the equipment to execute the second process in the second state relative to operating the equipment to execute the first process in the first state as a function of an amount of time the equipment operates in the second state; and determining a minimum amount of time the equipment is required to operate in the second state for the cost savings to be greater than or equal to the cost incurred. 3. The HVAC control system of claim 2 , wherein the controller is configured to estimate the cost savings by: determining an amount of energy savings resulting from operating the equipment in the second state relative to operating the equipment in the first state; identifying a cost per unit energy for each of the plurality of future time steps during which the equipment will operate in the second state; and calculating the cost savings by multiplying the amount of energy savings by the cost per unit energy. 4. The HVAC control system of claim 2 , wherein the cost incurred comprises at least one of an economic cost of equipment degradation and an increase in electricity cost resulting from stopping and restarting the equipment. 5. The HVAC control system of claim 1 , wherein predicting whether the second process will be available for at least the minimum second state operating time during the plurality of future time steps comprises: predicting a value of a variable that indicates the availability of the second process during each of the plurality of future time steps; and for each time step of the plurality of future time steps, determining whether the second process will be available during the time step by comparing the value of the variable to a threshold value. 6. The HVAC control system of claim 1 , wherein the controller is configured to: predict whether the second process will be unavailable for at least the minimum first state operating time; and transition the equipment from operating in the second state to operating in the first state in response to a prediction that the second process will be unavailable for at least the minimum first state operating time. 7. The HVAC control system of claim 1 , wherein the controller is configured to: determine whether the second process is available at a current time; predict whether the second process will be unavailable for at least the minimum first state operating time; and transition the equipment from operating in the second state to operating in the third state during which the equipment does not produce the resource in response to a determination that the second process is unavailable at the current time and predicted to remain unavailable for less than the minimum first state operating time required to transition back to the first state. 8. The HVAC control system of claim 7 , wherein the controller is configured to transition the equipment from operating in the second state to operating in the third state in response to a determination that the second process is unavailable at the current time and predicted to become available within a predetermined amount of time. 9. A heating, ventilation, or air conditioning (HVAC) controller for equipment, the HVAC controller comprising: one or more processors; and one or more non-transitory computer-readable storage media communicably coupled to the one or more processors and having instructions stored thereon that, when executed by the one or more processors, cause the one or more processors to: operate the equipment to execute a first process in a first state to produce a resource by mechanical cooling; operate the equipment to execute a second process in a second state to produce the resource by free cooling; predict whether the second process will be available for at least a minimum second state operating time during a plurality of future time steps, wherein availability of the second process is determined based on outside air temperature; transition the equipment from operating in the first state to operating in the second state in response to a prediction that the second process will be available for at least the minimum second state operating time; and transition the equipment from operating in the second state to operating in a third state during which the equipment does not produce the resource in response to a determination that the second process is unavailable and predicted to remain unavailable for less than a minimum first state operating time required to transition back to the first state. 10. The HVAC controller of claim 9 , wherein the instructions cause the one or more processors to calculate the minimum second state operating time by: identifying a cost incurred as a result of transitioning the equipment into the second state; estimating a cost savings resulting from operating the equipment in the second state relative to operating the equipment in the first state as a function of an amount of time the equipment operates in the second state; and determining a minimum amount of time the equipment is required to operate in the second state for the cost savings to be greater than or equal to the cost incurred. 11. The HVAC controller of claim 10 , wherein the instructions cause the one or more processors to estimate the cost savings by: determining an amount of energy savings resulting from operating the equipment in the second state relative to operating the equipment in the first state; identifying a cost per unit energy for each of the plurality of future time steps during which the equipment will operate in the second state; and calculating the cost savings by multiplying the amount of energy savings by the cost per unit energy. 12. The HVAC controller of claim 10 , wherein the cost incurred comprises at least one of an economic cost of equipment degradation and an increase in electricity cost resulting from stopping and restarting the equipment. 13. The HVAC controller of claim 9 , wherein predicting whether the second process will be available for at least the minimum second state operating time during the plurality of future time steps comprises: predicting a value of a variable that identifies the availability of the second process for the plurality of future time steps; and fo