System and method for automatically cleaning refrigeration coils

The invention claimed is: 1. A method for cleaning a refrigeration coil of a refrigerated transportation container comprising: detecting an indication of operational deterioration of a transportation container refrigeration system using one or more sensors to detect that refrigeration operations are deteriorating within the refrigerated transportation container and communicating associated deterioration information to a controller; in accordance with a determination of a buildup of contaminants within the transportation container refrigeration system based on the associated deterioration information, the controller responds by removing power from non-fan components of the transportation container refrigeration system and implementing a cleaning operation comprising: reversing a rotational direction of an airflow fan from a first direction to a second direction such that air is drawn over the refrigeration coil and expelled from the refrigerated transportation container using the airflow fan; and reverting the rotational direction of the airflow fan to the first direction at a conclusion of the cleaning operation. 2. The method of claim 1 , wherein the indication of operational deterioration is a refrigeration system pressure drop detected by the one or more sensors. 3. The method of claim 1 , wherein the indication of operational deterioration is an increase in temperature of the refrigerated transportation container detected by the one or more sensors. 4. The method of claim 1 , wherein the indication of operational deterioration is a manually applied trigger. 5. The method of claim 1 , wherein reversing the rotational direction of the airflow fan further comprises increasing a speed of the airflow fan, thereby creating a burst of airflow. 6. The method of claim 5 , wherein increasing the speed comprises maintaining an increased speed until the step of reverting the rotational direction of the airflow fan. 7. The method of claim 5 , wherein increasing the speed comprises iteratively increasing and decreasing the speed of the airflow fan, thereby pulsing an airflow through the airflow fan. 8. The method of claim 1 , wherein the controller is configured to compare deterioration to a predefined list of probable causes of the deterioration, and in accordance with a determination that the probable cause of deterioration is the buildup of contaminants, the controller initiates the cleaning operation and the conclusion of the cleaning operation is defined by a predetermined duration. 9. The method of claim 1 , wherein reversing the rotational direction of the airflow fan further comprises activating a spray nozzle, and spraying a liquid onto the refrigeration coil. 10. The method of claim 1 , wherein the indication of operational deterioration is a self-cleaning operation signal from a telematics device. 11. A transportation container comprising: a storage volume; a refrigeration system in communication with the storage volume, the refrigeration system including an airflow fan configured to ingest exterior air, a condenser coil immediately downstream of the airflow fan, and a vent configured to exhaust spent cooling air from the storage volume; one or more sensors to detect that refrigeration operations are deteriorating within the transportation container and communicating associated deterioration information to a controller; and the controller configured to control the refrigeration system, the controller including instructions configured to receive associated deterioration information from the one or more sensors, and in accordance with a determination of a buildup of contaminants within the refrigeration system based on the associated deterioration information, the controller responds to remove power from non-fan components of the refrigeration system and reverse a rotational direction of the airflow fan from a first direction to a second direction such that air is drawn over the condenser coil and expelled from the transportation container using the airflow fan, and revert the rotational direction of the airflow fan to the first direction at a conclusion of a cleaning operation. 12. The transportation container of claim 11 , further comprising at least one fluid spray nozzle disposed downstream of the condenser coil, relative to a direction of airflow during cooling operations. 13. The transportation container of claim 12 , wherein the at least one fluid spray nozzle is connected to at least one of a water source and a cleaner source. 14. The transportation container of claim 11 , wherein the one or more sensors comprise at least one of a condenser coil pressure sensor disposed at the condenser coil and a container temperature sensor that is used to detect an indication of operational deterioration of the refrigeration system, and wherein the controller is configured to compare deterioration to a predefined list of probable causes of the deterioration, and in accordance with a determination that the probable cause of deterioration is the buildup of contaminants, the controller initiates the cleaning operation. 15. The transportation container of claim 11 , wherein reversing the rotational direction of the airflow fan further comprises increasing a speed of the airflow fan, thereby creating a burst of airflow. 16. The transportation container of claim 15 , wherein increasing the speed comprises maintaining an increased speed until the step of reverting the rotational direction of the airflow fan. 17. The transportation container of claim 15 , wherein increasing the speed comprises iteratively increasing and decreasing the speed of the airflow fan, thereby pulsing an airflow through the airflow fan. 18. The transportation container of claim 11 , wherein the controller is configured to be connected to at least one self-cleaning operation of a manual activation system. 19. The transportation container of claim 18 , wherein the controller is directly connected to the manual activation system. 20. The transportation container of claim 18 , wherein the controller is connected to the manual activation system through at least one intermediary controller. 21. The transportation container of claim 12 , wherein during the cleaning operation, contaminants from the condenser coil are expelled out through the airflow fan when the at least one fluid spray nozzle is actively spraying and the airflow fan is rotating in the second direction. 22. The transportation container of claim 11 , wherein: the airflow fan is at an air inlet to the storage volume and is configured to ingest the exterior air and then pass ingested air over the condenser coil during standard operation when the airflow fan is rotating in the first direction; and when the airflow fan is rotating in the second direction during the cleaning operation, contaminants are expelled from the condenser coil through the airflow fan and out of the transportation container. 23. The transportation container of claim 22 , including at least one spray nozzle downstream of the condenser coil and, during the cleaning operation, contaminants are expelled from the condenser coil out of the transportation container through the airflow fan when the at least one spray nozzle is actively spraying and the airflow fan is rotating in the second direction. 24. The method of claim 1 , including: positioning the airflow fan at an air inlet to the refrigerated transportation container such that the airflow fan is upst