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In one embodiment, a method of operating a refrigeration system includes measuring a relative humidity of a container and comparing the measured relative humidity to a humidity set point. The method also includes operating evaporator fans of a refrigeration system when the measured relative humidity

In one embodiment, a method of operating a refrigeration system includes measuring a relative humidity of a container and comparing the measured relative humidity to a humidity set point. The method also includes operating evaporator fans of a refrigeration system when the measured relative humidity is above the humidity set point.

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1. A method of operating a refrigeration system, the method comprising: a humidity sensor measuring a relative humidity of a container;comparing the measured relative humidity determined using the humidity sensor to a first humidity set point; andoperating the refrigeration system using a first dehu

1. A method of operating a refrigeration system, the method comprising: a humidity sensor measuring a relative humidity of a container;comparing the measured relative humidity determined using the humidity sensor to a first humidity set point; andoperating the refrigeration system using a first dehumidification technique, the first dehumidification technique including operating evaporator fans of the refrigeration system when the measured relative humidity determined using the humidity sensor is above the first humidity set point to reduce the relative humidity of the container;comparing the measured relative humidity to an elevated humidity set point, the elevated humidity set point being greater than the first humidity set point; andoperating the refrigeration system using a second dehumidification technique, the second dehumidification technique including operating both an electric heater of the refrigeration system and the evaporator fans, when the relative humidity of the container is above the elevated humidity set point, wherein the electric heater is arranged adjacent to an evaporator of the refrigeration system and the electric heater is configured to heat air that is to be circulated within the container in order to lower the relative humidity of the container. 2. The method of claim 1, further comprising operating the electric heater of the refrigeration system if operation of the evaporator fans alone is insufficient to lower the relative humidity below the first humidity set point, wherein the electric heater is arranged adjacent to the evaporator of the refrigeration system and the electric heater is configured to heat air that is to be circulated within the container in order to lower the relative humidity of the container. 3. The method claim 2, further comprising operating the evaporating fans for a period of time when the measured relative humidity is above the first humidity set point, and operating the electric heater after the period of time if operation of the evaporator fans alone is insufficient to lower the relative humidity below the first humidity set point. 4. The method of claim 1, further comprising operating the evaporator fans while not operating a compressor of the refrigeration system. 5. The method of claim 1, further comprising directing refrigerant directly from a compressor of the refrigeration system to the evaporator of the refrigeration system when the measured relative humidity is above the first humidity set point. 6. The method of claim 5, wherein directing refrigerant directly from the compressor of the refrigeration system to the evaporator of the refrigeration system includes the refrigerant bypassing a condenser of the refrigeration system. 7. The method of claim 1, further comprising when the measured relative humidity is above the first humidity set point: closing a first control valve positioned between a condenser of the refrigeration system and an inlet of a first distributor of the evaporator of the refrigeration system thereby preventing refrigerant from the condenser of the refrigeration system from entering the inlet of the first distributor of the evaporator; andopening a second control valve positioned between a compressor of the refrigeration system and the inlet of the first distributor of the evaporator thereby directing at least a portion of refrigerant from the compressor directly to the first distributor of the evaporator and bypassing the condenser of the refrigeration system. 8. The method of claim 7, further comprising when the measured relative humidity is above the first humidity set point directing a second portion of the refrigerant from the condenser to an inlet of a second distributor of the evaporator. 9. The method of claim 1, further comprising when the measured relative humidity is not above the first humidity set point: opening a first control valve positioned between a condenser of the refrigeration system and an inlet of a first distributor of the evaporator of the refrigeration system thereby directing refrigerant from the condenser of the refrigeration system into the inlet of the first distributor of the evaporator; andclosing a second control valve positioned between a compressor of the refrigeration system and the inlet of the first distributor of the evaporator thereby preventing refrigerant from the compressor from passing directly to the first distributor of the evaporator. 10. A method of reducing a humidity level within a transport compartment using a refrigeration system, the method comprising: measuring a relative humidity of the transport compartment;comparing the measured relative humidity to a first humidity set point; andoperating the refrigeration system using a first dehumidification technique, the first dehumidification technique including operating evaporator fans of the refrigeration system when the measured relative humidity is above the first humidity set point;comparing the measured relative humidity to an elevated humidity set point, the elevated humidity set point being greater than the first humidity set point; andoperating the refrigeration system using a second dehumidification technique, the second dehumidification technique including operating both an electric heater of the refrigeration system and the evaporator fans when the relative humidity of the transport compartment is above the elevated humidity set point, wherein the electric heater is arranged adjacent to an evaporator of the refrigeration system and the electric heater is configured to heat air that is to be circulated within the transport compartment in order to lower the relative humidity of the transport compartment. 11. The method of claim 10, further comprising operating the electric heater of the refrigeration system if operation of the evaporator fans alone is insufficient to lower the relative humidity below the first humidity set point, wherein the electric heater is arranged adjacent to the evaporator of the refrigeration system and the electric heater is configured to heat air that is to be circulated within the transport compartment in order to lower the relative humidity of the transport compartment. 12. The method claim 11, further comprising operating the evaporating fans for a period of time when the measured relative humidity is above the first humidity set point, and operating the electric heater after the period of time if operation of the evaporator fans alone is insufficient to lower the relative humidity below the first humidity set point. 13. The method of claim 10, further comprising operating the evaporator fans while not operating a compressor of the refrigeration system. 14. The method of claim 10, further comprising directing refrigerant directly from a compressor of the refrigeration system to the evaporator of the refrigeration system when the measured relative humidity is above the first humidity set point. 15. The method of claim 14, wherein directing refrigerant directly from the compressor of the refrigeration system to the evaporator of the refrigeration system includes the refrigerant bypassing a condenser of the refrigeration system. 16. The method of claim 10, further comprising when the measured relative humidity is above the first humidity set point: closing a first control valve positioned between a condenser of the refrigeration system and an inlet of a first distributor of the evaporator of the refrigeration system thereby preventing refrigerant from the condenser of the refrigeration system from entering the inlet of the first distributor of the evaporator; andopening a second control valve positioned between a compressor of the refrigeration system and the inlet of the first distributor of the evaporator thereby directing at least a portion of refrigerant from the compressor directly to the first distributor of the evaporator. 17. The method of claim 16, wherein directing the at least the portion of refrigerant from the compressor directly to the first distributor evaporator includes the at least the portion of refrigerant bypassing the condenser of the refrigeration system. 18. The method of claim 16, further comprising when the measured relative humidity is above the first-humidity set point directing a second portion of the refrigerant from the condenser to an inlet of a second distributor of the evaporator. 19. A method of operating a refrigeration system, the method comprising: a humidity sensor measuring a relative humidity of a container;comparing the measured relative humidity determined using the humidity sensor to a first humidity set point;operating the refrigeration system using a first dehumidification technique, the first dehumidification technique including operating evaporator fans of the refrigeration system when the measured relative humidity determined using the humidity sensor is above the first humidity set point to reduce the relative humidity of the container;comparing the measured relative humidity to an elevated humidity set point, the elevated humidity set point being greater than the first humidity set point; andoperating the refrigeration system using a second dehumidification technique, the second dehumidification technique including operating an electric heater of the refrigeration system when operation of the refrigeration system using the first humidification technique alone is insufficient to lower the relative humidity below the first humidity set point, wherein the electric heater is arranged adjacent to an evaporator of the refrigeration system and the electric heater is configured to heat air that is to be circulated within the container in order to lower the relative humidity of the container. 20. The method claim 19, further comprising the first dehumidification technique operating the evaporating fans for a period of time when the measured relative humidity is above the first humidity set point, and the second dehumidification technique operating the electric heater after the period of time if operation of the first dehumidification technique of operating the evaporator fans alone is insufficient to lower the relative humidity below the first humidity set point.