Evaporator distribution system and method

The invention claimed is: 1. A falling film evaporator for a heating ventilation and cooling (HVAC) system comprising: a housing: a plurality of evaporator tubes disposed at least partially in the housing through which a volume of thermal energy transfer medium is flowed; and a distribution system disposed in the housing to distribute a flow of liquid refrigerant over the plurality of evaporator tubes, the distribution system including: a distribution vessel having a plurality of drip openings to flow the liquid refrigerant onto the plurality of evaporator tubes; a feed pipe to flow refrigerant into the distribution vessel; a separator disposed upstream of the distribution system to separate vapor refrigerant from liquid refrigerant, thereby outputting a flow of liquid refrigerant to the distribution vessel via the feed pipe, the feed pipe connecting the separator to the distribution vessel; a suction port in the separator configured to output a flow of vapor refrigerant from the separator; and one or more pressure regulators in the distribution system, thereby regulating the flow of refrigerant, the one or more pressure regulators including: a flow regulator at the suction port to regulate the flow of vapor refrigerant through the suction port; and a sensor operably disposed at the distribution vessel and operably connected to the pressure regulator to detect a liquid refrigerant level in the distribution vessel; wherein the liquid refrigerant level exceeding a threshold results in stoppage of flow of vapor refrigerant through the suction port. 2. The falling film evaporator of claim 1 , wherein the distribution vessel is configured to admit a mixture of a vapor and liquid refrigerant. 3. The falling film evaporator of claim 2 , further comprising a vent pipe to vent vapor refrigerant from the distribution system. 4. The falling film evaporator of claim 3 , wherein the vent pipe includes a metered vent orifice to regulate the flow of vapor refrigerant from the distribution system and thereby regulate the pressure in the distribution system. 5. The falling film evaporator of claim 4 , wherein the metered orifice comprises a variable orifice. 6. The falling film evaporator of claim 4 , wherein the metered orifice comprises a valved orifice. 7. The falling film evaporator of claim 3 , wherein the vent pipe is disposed at the distribution vessel. 8. The falling film evaporator of claim 1 , wherein the regulator is a damper disposed at the suction port. 9. The falling film evaporator of claim 1 , wherein the sensor is a float disposed in the distribution vessel.