Systems and methods for fault detection using smart valves

The embodiments of the invention in which an exclusive property or privilege is claimed are defined as follows: 1. A fault detection system for detecting a lack of air flow in an air handler unit, the fault detection system comprising: a coil located in an air duct of the air handler unit, the coil configured to operate as a conduit for process fluid in the air duct; air temperature sensors located in an air duct of the air handler unit, one temperature sensor located to determine an air temperature of air present in the air duct upstream of the coil and another temperature sensor located to determine an air temperature of air present in the air duct downstream of the coil; liquid temperature sensors located to determine a liquid temperature entering the coil and to determine a liquid temperature exiting the coil; and a smart valve having a controller in communication with the liquid temperature sensors and at least one of the air temperature sensors, the controller operable to utilize the temperatures determined for a period of time by the liquid temperature sensors and at least one of the air temperature sensors to determine whether the air handler unit is experiencing a lack of air flow, wherein upon determining the lack of air flow, the controller of the smart valve changes a position of the smart valve to fully closed or partially closed. 2. The fault detection system of claim 1 , wherein the smart valve provides a signal to a computing system regarding the lack of air flow. 3. The fault detection system of claim 1 , further comprising a notification device in communication with the controller of the smart valve, wherein upon determining the lack of air flow, the controller of the smart valve activates the notification device, and wherein the notification device includes a source of visible light proximate the smart valve. 4. The fault detection system of claim 1 , wherein the smart valve communicates with a building automation system. 5. The fault detection system of claim 4 , wherein determining the lack of air flow includes determining that the building automation system is disabled. 6. The fault detection system of claim 4 , wherein determining the lack of air flow includes the building automation system operating to disable a fan within the air handler unit. 7. The fault detection system of claim 1 , wherein the coil is a heating coil, a cooling coil, or both a heating and a cooling coil.