Monitored heat exchanger system

What is claimed is: 1. A monitored heat exchanger system, the system comprising: a heat exchanger unit in operable engagement with a heat generating device, with at least one service fluid being transferable therebetween, the heat exchanger unit comprising: a frame; and at least one cooler coupled with the frame, the at least one cooler having an airflow side and a service fluid side; a monitoring module coupled to the heat exchanger unit, the monitoring module comprising: a cover panel; at least one sensor coupled with the cover panel; at least one controller housing coupled with the cover panel; a microcontroller disposed within the at least one controller housing and in operable communication with the at least one sensor, wherein the at least one sensor comprises a rotating member configured to generate a system signal proportional to an amount of rotation of the rotating member, and wherein the microcontroller is provided with computer instructions for processing the system signal; and a fan mounted to the frame to move ambient air through the cover panel and through the airflow side of the at least one cooler to rotate the rotating member. 2. The monitored heat exchanger system of claim 1 , wherein the monitoring module comprises a plurality of sensors, with each of the plurality of sensors in operable communication with the microcontroller, wherein at least one of the plurality of sensors or the microcontroller is powered at least partially by rotation of the rotating member. 3. The monitored heat exchanger system of claim 1 , wherein the at least one sensor comprises a plurality of blades radially extending from the rotating member, wherein the system signal pertains to an amount of fouling associated with the airflow side of the at least one cooler, and the fan is mounted exterior to the frame, the fan being configured to rotate about an axis of rotation that is parallel to an airflow direction of the ambient air moving through the fan. 4. The monitored heat exchanger system of claim 1 , wherein the monitoring module further comprises each of a solid data storage, a Wi-Fi module, a GSM module, and a CAN-Bus module being disposed within the controller housing and in operable communication with the microcontroller, and wherein the microcontroller is provided with computer instructions for communicating with one or more of the solid data storage, the Wi-Fi module, the GSM module, and the CAN-Bus module. 5. The monitored heat exchanger system of claim 1 , wherein the at least one service fluid comprises one or more of lube oil, hydraulic fluid, fuel, charge air, transmission fluid, jacket water, or engine cooler. 6. The monitored heat exchanger system of claim 1 , wherein the heat generating device is a diesel engine, and wherein the heat exchanger unit comprises four sides, each side having a respective cooler mounted to the frame. 7. A monitored heat exchanger system, comprising: a heat exchanger unit in operable engagement with a heat generating device, with at least one service fluid being transferable therebetween, the heat exchanger unit comprising: a frame; and at least one cooler coupled with the frame, the at least one cooler having an airflow side and a service fluid side fluidly separated from each other; a monitoring module coupled to the heat exchanger unit, the monitoring module comprising: a cover panel; at least one sensor coupled with the cover panel, and positioned proximate to the airflow side; at least one controller housing coupled with the cover panel; and a microcontroller disposed within the at least one controller housing and in operable communication with the at least one sensor, wherein the at least one sensor comprises a rotating member configured to generate a system signal proportional to an amount of rotation of the rotating member, wherein the microcontroller is provided with computer instructions for processing the system signal, wherein the amount of rotation is dependent upon an amount of fouling in the airflow side; and a fan mounted to the frame to move ambient air through the cover panel and through the airflow side of the at least one cooler to rotate the rotating member. 8. The monitored heat exchanger system of claim 7 , wherein the monitoring module comprises a plurality of sensors, with each of the plurality of sensors is in operable communication with the microcontroller, wherein at least one of the plurality of sensors or the microcontroller is powered at least partially by rotation of the rotating member. 9. The monitored heat exchanger system of claim 7 , wherein the monitoring module further comprises each of a solid data storage, a Wi-Fi module, a GSM module, and a CAN-Bus module being disposed within the controller housing and in operable communication with the microcontroller, and wherein the microcontroller is provided with computer instructions for communicating with one or more of the solid data storage, the Wi-Fi module, the GSM module, and the CAN-Bus module. 10. The monitored heat exchanger system of claim 9 , wherein the at least one service fluid comprises one or more of lube oil, hydraulic fluid, fuel, charge air, transmission fluid, jacket water, or engine cooler, and the fan is mounted exterior to the frame, the fan being configured to rotate about an axis of rotation that is parallel to an airflow direction of the ambient air moving through the fan. 11. The monitored heat exchanger system of claim 10 , wherein the heat generating device is a diesel engine, wherein the heat exchanger unit comprises four sides, each side having a respective cooler mounted to the frame, and wherein each of the four sides is operably associated with a respective monitoring module. 12. A monitored heat exchanger system, comprising: a heat exchanger unit in operable engagement with a heat generating device, with at least one service fluid being transferable therebetween, the heat exchanger unit comprising: a frame; and at least one cooler coupled with the frame, the at least one cooler having an airflow side and a service fluid side fluidly separated from each other; a monitoring module, comprising: a cover panel configured for direct or indirect coupling to the heat exchanger unit; a plurality of sensors coupled with the cover panel, each one of the plurality of sensors having a respective rotating member with a plurality of blades extending therefrom; a logic circuit in operable communication with the plurality of sensors, and further comprising: a microcontroller and a data storage, wherein the microcontroller is configured with computer instructions for performing the tasks of: acquiring a set of data from at least one of the plurality of sensors; sampling the set of data over a predetermined period of time; computing an average and a standard deviation of the set of data; comparing the standard deviation with predetermined data; determining whether the set of data is acceptable within a defined parameter; determining whether a first lookup table comprising a set of lookup data has been completed, and creating the first lookup table using an averaging method if the first lookup table has not been completed; comparing the set of data to the set of lookup data; and providing an indication based on a result of the comparing the set of data to the set of lookup data; and a fan mounted to the frame to move ambient air through the cover panel and through the airflow side of the at least one cooler to rotate the respective rotating member of the plurality of sensors. 13. The monitored heat exchanger system of claim 12 , wherein the microcontroller is powered at least pa