Devices and methods of optimizing refrigerant flow in a heat exchanger

What is claimed is: 1. A heat exchanger unit comprising: a plurality of heat exchanger coils, wherein (i) a first heat exchanger coil of the plurality of heat exchanger coils is disposed at a first location such that the first heat exchanger coil experiences a first airflow of air passing over the first heat exchanger coil and (ii) a second heat exchanger coil of the plurality of heat exchanger coils is disposed at a second location such that the second heat exchanger coil experiences a second airflow of air passing over the second heat exchanger coil, the first airflow being less than the second airflow; a plurality of distributor tubes, wherein individual ones of the plurality of distributor tubes (i) being in fluid communication with a corresponding heat exchanger coil of the plurality of heat exchanger coils and (ii) being configured to direct a flow of refrigerant from an expansion valve to the corresponding heat exchanger coil of the plurality of heat exchanger coils, and wherein a first distributor tube of the plurality of distributor tubes extends between the expansion valve and the first heat exchanger coil and comprises one or more constrictions, the first distributor tube has a first cross-sectional area along a majority of an overall length of the first distributor tube, the one or more constrictions has a second cross-sectional area that is less than the first cross-sectional area, and the first distributor tube is configured to reduce a flow rate of refrigerant from the expansion valve to the first heat exchanger coil such that (i) a greater amount of refrigerant is directed to the second heat exchanger coil of the plurality of heat exchanger coils and (ii) refrigerant exits each heat exchanger coil of the plurality of heat exchanger coils as a superheated vapor refrigerant; wherein the first distributor tube of the plurality of distributor tubes comprises a first number of bends that is greater than a second number of bends in a second distributor tube of the plurality of distributor tubes, and wherein the second distributor tube is shorter than the first distributor tube and a third distributor tube of the plurality of distributor tubes, the third distributor tube being in fluid communication with a third heat exchanger coil of the plurality of heat exchanger coils. 2. The heat exchanger unit of claim 1 , wherein the first distributor tube of the plurality of distributor tubes comprises a smaller inner diameter than a second distributor tube of the plurality of distributor tubes. 3. The heat exchanger unit of claim 1 , wherein the one or more constrictions is disposed closer to the first heat exchanger coil than the expansion valve. 4. The heat exchanger unit of claim 1 , wherein the first distributor tube of the plurality of distributor tubes further comprises a valve configured to change a cross-sectional area of a flow path from the expansion valve to the first heat exchanger coil. 5. The heat exchanger unit of claim 1 , wherein the one or more constrictions further comprises a flow orifice. 6. The heat exchanger unit of claim 5 , wherein the flow orifice comprises a single-stage flow orifice. 7. The heat exchanger unit of claim 5 , wherein the flow orifice comprises a multi-stage flow orifice. 8. The heat exchanger unit of claim 1 , wherein the one or more constrictions further comprises a flow orifice. 9. The air conditioning system of claim 8 , wherein the flow orifice comprises a single-stage flow orifice. 10. The air conditioning system of claim 8 , wherein the flow orifice comprises a multi-stage flow orifice. 11. An air conditioning system comprising: a compressor; a condenser unit; an expansion valve; and an evaporator unit in fluid communication with the compressor, the condenser unit, and the expansion valve, the evaporator unit comprising: a plurality of heat exchanger coils, wherein (i) a first heat exchanger coil of the plurality of heat exchanger coils comprises a first length and (ii) a second heat exchanger coil of the plurality of heat exchanger coils comprises a second length, the first length being less than the second length; a plurality of distributor tubes, wherein individual ones of the plurality of distributor tubes (i) being in fluid communication with a corresponding heat exchanger coil of the plurality of heat exchanger coils and (ii) being configured to direct a flow of refrigerant from an expansion valve to the corresponding heat exchanger coil of the plurality of heat exchanger coils, and wherein a first distributor tube of the plurality of distributor tubes extends between the expansion valve and the first heat exchanger coil and comprises one or more constrictions, the first distributor tube has a first cross-sectional area along a majority of an overall length of the first distributor tube, the one or more constrictions has a second cross-sectional area that is less than the first cross-sectional area, and the first distributor tube is configured to alter a flow rate of refrigerant from the expansion valve to the first heat exchanger coil such that (i) a greater amount of refrigerant is directed to the second heat exchanger coil of the plurality of heat exchanger coils and (ii) refrigerant exits each heat exchanger coil of the plurality of heat exchanger coils as a superheated vapor refrigerant; wherein the first distributor tube of the plurality of distributor tubes comprises a first number of bends that is greater than a second number of bends in a second distributor tube of the plurality of distributor tubes, and wherein the second distributor tube is shorter than the first distributor tube and a third distributor tube of the plurality of distributor tubes, the third distributor tube being in fluid communication with a third heat exchanger coil of the plurality of heat exchanger coils. 12. The air conditioning system of claim 11 , wherein the one or more constrictions is disposed closer to the first heat exchanger coil than the expansion valve. 13. The air conditioning system of claim 11 , wherein the first distributor tube further comprises a valve configured to change a cross-sectional area of a flow path from the expansion valve to the first heat exchanger coil.